CN210784332U - Wearable equipment - Google Patents

Wearable equipment Download PDF

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Publication number
CN210784332U
CN210784332U CN201921340178.5U CN201921340178U CN210784332U CN 210784332 U CN210784332 U CN 210784332U CN 201921340178 U CN201921340178 U CN 201921340178U CN 210784332 U CN210784332 U CN 210784332U
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China
Prior art keywords
wrist
electrocardio
worn
main body
monitoring
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CN201921340178.5U
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Chinese (zh)
Inventor
孙施展
陈重光
董科
唐伟
秦泗明
杨骁�
刘若宇
于文豪
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Goertek Inc
Weifang Goertek Electronics Co Ltd
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Goertek Inc
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Priority to CN201921340178.5U priority Critical patent/CN210784332U/en
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Abstract

The utility model discloses a wearable device, include: the wrist-worn main body can be worn on the wrist of a user and is provided with a processor for processing electrocardiosignals and an electric connection part electrically connected with the processor, and the wrist-worn main body can be detachably and fixedly connected with the electrocardio-coat; the electrocardio-coat is provided with a first monitoring piece for collecting electrocardiosignals of a human body, and the electric connection part is electrically connected with the first monitoring piece when the wrist wearing main body is fixedly connected with the electrocardio-coat. Use the utility model provides a wearable equipment, the user can wear the main part according to using the scene self-deciding to wear the wrist and wear the equipment use as conventional wrist in the wrist, perhaps wear the main part with the wrist and be fixed in the electrocardio clothing on, the electrocardio monitoring is done to the cooperation electrocardio clothing and is used, perhaps wears the main part with the wrist and is fixed in the electrocardio and pastes, and the electrocardio monitoring is used to the cooperation electrocardio subsides. This wearable equipment can use different convenient change mode such as scene according to the user promptly, and the suitability is strong, has promoted user experience.

Description

Wearable equipment
Technical Field
The utility model relates to a dress class equipment technical field, more specifically say, relate to a wearable equipment.
Background
With the rapid development of society, the health consciousness of people is gradually enhanced, and the frequency of health monitoring and examination is also gradually increased. In order to prevent heart disease paroxysmal, more and more extracousal monitoring electrocardio devices appear in the market, can be carried about, and are simple and convenient.
Take a smart watch as an example, when it is worn on the user's wrist, the crown is touched with the other hand to achieve electrocardiogram monitoring. However, this method requires two hands to cooperate, and is inconvenient for the user to operate. And the user needs to keep a fixed posture during monitoring, so that continuous electrocardio monitoring is difficult to realize, and the monitoring mode is single.
In summary, how to effectively solve the problems of single detection mode of the electrocardiograph monitoring devices such as the smart watch and the like is a problem to be solved by the technical personnel in the field at present.
SUMMERY OF THE UTILITY MODEL
In view of this, the utility model aims at providing a wearable equipment, this wearable equipment's structural design can solve the single problem of electrocardio monitoring facilities detection modes such as intelligent wrist-watch effectively.
In order to achieve the above object, the utility model provides a following technical scheme:
a wearable device, comprising:
the wrist-worn main body can be worn on the wrist of a user and is provided with a processor for processing electrocardiosignals and an electric connection part electrically connected with the processor, and the wrist-worn main body can be detachably and fixedly connected with the electrocardio-coat;
the electrocardio-coat is provided with a first monitoring piece for collecting electrocardiosignals of a human body, and the electric connection part is electrically connected with the first monitoring piece when the wrist wearing main body is fixedly connected with the electrocardio-coat.
Preferably, in the wearable device, the electrocardiac suit has a heat absorption material layer, and the heat absorption material layer is used for absorbing heat of a transmission circuit electrically connected with the first monitoring piece in the electrocardiac suit.
Preferably, in the wearable device, the heat absorbing material layer is a carbon material layer.
Preferably, in the wearable device, the wrist wearable body includes a wireless transceiver module for signal connection with a terminal and/or a cloud, and the wireless transceiver module is electrically connected with the processor.
Preferably, in the wearable device, the electrical connection part is a pogo pin.
Preferably, in the wearable device, the wrist wearing body is connected with the electrocardiograph garment through magnetic attraction or a buckle.
Preferably, in the wearable device, one of the wrist-worn main body and the electrocardiograph garment has a slide rail, the other has a groove for inserting the slide rail from the front end, one of the wrist-worn main body and the electrocardiograph garment has a limiting protrusion, the other has a clamping groove, and the limiting protrusion is clamped into the clamping groove when the slide rail is inserted into the rear end of the groove.
Preferably, the wearable device further comprises an electrocardiogram patch for being placed at the heart of the user, the electrocardiogram patch is provided with a second monitoring piece for collecting electrocardiosignals of the human body, the wrist wearing main body can be detachably and fixedly connected with the electrocardiogram patch, and the electric connection portion is electrically connected with the second monitoring piece in the state that the wrist wearing main body is fixedly connected with the electrocardiogram patch.
Preferably, in the wearable device, the first monitoring element is a three-lead electrode or a five-lead electrode, and the second monitoring element is a three-lead electrode.
Preferably, the wearable device further comprises a wrist band detachably and fixedly connected to the wrist wearing body.
The utility model provides a wearable equipment wears main part and electrocardio clothing including the wrist. The wrist wearing main body is worn on the wrist of a user and is provided with a processor for processing electrocardiosignals and an electric connection part electrically connected with the processor. The electrocardio-coat is provided with a first monitoring piece for collecting electrocardiosignals of a human body. The wrist-worn main body can be detachably and fixedly connected with the electrocardio-coat, and under the state that the wrist-worn main body and the electrocardio-coat are fixedly connected, the electric connection part is electrically connected with the first monitoring piece.
Use the utility model provides a wearable equipment, the user can wear the main part according to using the scene self-deciding to wear the wrist and wear the equipment use as conventional wrist in the wrist, perhaps wear the main part with the wrist and be fixed in the electrocardio clothing on, the electrocardio monitoring is done to the cooperation electrocardio clothing and is used. For example, the user may choose to wear the wrist-worn body as a wrist-worn device during leisure and general sports at ordinary times. If the wrist-wearing main body can be worn in the mode of the electrocardio-coat during professional sports, the first monitoring piece on the electrocardio-coat collects electrocardiosignals of a human body and sends the electrocardiosignals to the processor through the electric connection part for processing the electrocardiosignals so as to obtain the electrocardio-data of the user. For users with chronic cardiac diseases, the users can also choose to wear the wrist-worn main body in the form of an electrocardio-coat and collect electrocardio data as personal medical data. In conclusion, the wearable device can be used for replacing work modes such as user use scenes and the like conveniently according to the user, applicability is high, and user experience is improved.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a schematic view of an operation mode of a wearable device according to an embodiment of the present invention;
FIG. 2 is a schematic diagram of the circuit of FIG. 1;
fig. 3 is a schematic view of another operation mode of the wearable device according to an embodiment of the present invention;
FIG. 4 is a schematic diagram of the circuit connection of FIG. 3;
FIG. 5 is a schematic view of a connection between the wrist-worn main body and the electrocardiac suit;
FIG. 6 is a schematic view of the wrist-worn body of FIG. 5;
FIG. 7 is a partial schematic view of the center vest of FIG. 5;
fig. 8 is an exploded view of the wrist wearing body and the wrist band.
The drawings are numbered as follows:
the wrist-worn main body 1, the electrocardio-coat 2, the first monitoring piece 3, the electrocardio-patch 4, the second monitoring piece 5, the wrist strap 6, the slide rail 7, the groove 8, the limiting bulge 9, the clamping groove 10 and the lead 11.
Detailed Description
The embodiment of the utility model discloses wearable equipment, portable switching electrocardio monitoring mode, the suitability is strong.
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-2, fig. 1 is a schematic diagram illustrating an operation mode of a wearable device according to an embodiment of the present invention; fig. 2 is a schematic circuit diagram of fig. 1.
The utility model provides a wearable equipment wears main part 1 and electrocardio clothing 2 including the wrist.
The wrist-worn main body 1 can be worn on the wrist of the user, and specifically can be worn on the wrist of the user through a detachable fixed connection with the wrist band 6, and when the wrist-worn main body 1 itself includes a wearing part for wearing on the wrist, the wrist-worn main body can also be worn on the wrist of the user through the wearing part of the wrist itself, such as being worn on the wrist of the user through pasting, adsorbing and the like. Preferably, the wrist-worn main body 1 is detachably and fixedly connected with the wrist strap 6 to be worn on the wrist of the user, so that the wrist-worn main body 1 is simple in structure, does not need to be provided with a wearing part, is small in size and is convenient to be fixedly connected with the electrocardio-suit 2. Wherein, the main body 1 is worn to the wrist and the wrist strap 6 can be detachably and fixedly connected, and the main body 1 can be arranged in the groove by arranging a groove on the wrist strap 6. Can be fixed through the mode of deformation between wrist wear main part 1 and the recess, adopt the material that can deform like the recess, utilize the deformation of recess to wear main part 1 with the wrist and install in the recess, then recess automatic recovery deformation is then worn main part 1 with the wrist and reliably is wrapped in the recess. The wrist-worn main body 1 and the groove can be fixed in other ways such as magnetic attraction, buckling and the like. The wrist-worn main body 1 is detachably and fixedly connected with the wrist strap 6, and the modes of magnetic attraction, buckling and the like are directly adopted. The wrist-worn body 1 has a processor for processing an electrocardiographic signal. The specific structure of the processor for processing the electrocardiographic signals refers to the conventional arrangement in the prior art, and is not described herein again.
The electrocardio-coat 2 is provided with a first monitoring piece 3 for collecting electrocardiosignals of a human body. The electrocardiograph garment 2 can be used as a part worn by a user, and can be in a vest type, a T-shirt type and the like. The electrocardio-coat 2 is provided with a first monitoring piece 3, and the first monitoring piece 3 is generally fixed in the electrocardio-coat 2 in an embedded mode. The first monitoring member 3 is capable of acquiring the electrocardiosignals of the user, and the specific form thereof can refer to the conventional arrangement in the prior art. If the electrocardio-electrode is adopted to collect potential signals of the detection position on the human body and send the potential signals to the processor, the processor obtains corresponding electrocardio-data through processing. For a specific processing procedure, reference is made to corresponding settings of conventional electrocardiographic monitoring equipment in the prior art, which is not described herein again.
The wrist-worn main body 1 is provided with an electric connection part electrically connected with the processor, and the electric connection part is used for realizing the electric connection between the first monitoring piece 3 on the electrocardio-coat 2 and the processor. The electrical connection portion may be a contact, and is connected to the first monitoring member 3 through the contact. The contact can specifically adopt a conductive column or a pogo pin and the like. The first monitoring piece 3 can be electrically connected with the contact through a pogo-pin, that is, the pogo pin on the electrocardiograph garment 2 is in contact with the contact on the wrist-worn main body 1 to realize electrical connection in a state that the wrist-worn main body 1 is fixedly connected with the electrocardiograph garment 2. The first monitoring member 3 and the pogo pin may be electrically connected by a wire or a flexible circuit board, etc. The electrical connection portion may be a wire or the like, and may be provided as needed. The first monitoring member 3 includes a plurality of electrocardiographic electrodes, and electrical connection portions may be provided respectively corresponding to the electrocardiographic electrodes.
The wrist-worn main body 1 can be detachably and fixedly connected with the electrocardio-coat 2, and under the state that the wrist-worn main body and the electrocardio-coat are fixedly connected, the electric connection part is electrically connected with the first monitoring piece 3. The wrist-worn main body 1 is detachably and fixedly connected with the electrocardio-coat 2 and is electrically connected with the first monitoring piece 3 through an electric connection part, so that the first monitoring piece 3 is electrically connected with the processor.
As for the conventional function setting of the wrist wearing body 1, reference is made to the prior art, and no specific limitation is made herein. Specifically, the wrist-worn main body 1 may have functions of recording exercise data, monitoring sleep, monitoring heart rate, GPS/eSIM, data analysis and recommendation, and the like.
Use the utility model provides a wearable equipment, the user can wear main part 1 according to using the scene self-deciding to wear the wrist and wear the equipment use as conventional wrist in the wrist, perhaps wear main part 1 with the wrist and be fixed in electrocardio clothing 2 on, cooperation electrocardio clothing 2 is electrocardio monitoring and uses. For example, the user may choose to wear the wrist-worn body 1 as a wrist-worn device during leisure and general sports at ordinary times. If the wrist-worn main body 1 can be worn in the mode of the electrocardio-coat 2 during professional sports, the first monitoring part 3 on the electrocardio-coat 2 collects electrocardiosignals of a human body and sends the electrocardiosignals to the processor through the electric connection part for processing the electrocardiosignals so as to obtain the electrocardio-data of a user. For a user with chronic cardiac disease, the wrist-worn body 1 may be worn as the electrocardiograph garment 2 to collect electrocardiographic data as personal medical data. In conclusion, the wearable device can be used for replacing work modes such as user use scenes and the like conveniently according to the user, applicability is high, and user experience is improved.
Preferably, the wrist-worn main body 1 is worn on the wrist of the user through a wrist strap 6 or the like to be used as a wrist-worn device for measuring the heart rate through PPG (photoplethysmography), that is, the wrist-worn main body 1 has a PPG sensor for acquiring PPG signals of the human body, and the processor is electrically connected with the PPG sensor for obtaining heart rate data of the user according to the PPG signals. By adopting the PPG approach when the wrist-worn subject 1 is used as a wrist-worn device, heart rate information can be continuously monitored. When the wrist-worn main body 1 is fixedly connected with the electrocardio-coat 2, the first monitoring piece 3 can be used for acquiring ECG signals of a human body particularly through ECG (electrocardiogram), and the processor is used for acquiring ECG data of a user according to the ECG signals. By means of the ECG mode, electrocardiosignals (up to 72 hours) can be accurately obtained, information such as heart rate can be calculated, ECG data can be effectively obtained by means of continuous ECG monitoring, and effective alarming and pre-diagnosis of chronic diseases such as cardiovascular diseases can be carried out by means of background big data.
ECG modalities require the connection of electrodes to the body to measure signals of electrical activity induced in cardiac tissue. In the PCG method, since a pressure wave is transmitted through a blood vessel at the time of heartbeat, the pressure wave slightly changes the diameter of the blood vessel, and the PCG method uses this change, which is an optical technique for obtaining information on the function of the heart without measuring a bioelectric signal.
Further, the electrocardio-coat 2 is provided with a heat absorption material layer which is used for absorbing the heat of a transmission circuit electrically connected with the first monitoring piece 3 in the electrocardio-coat 2. The material in the electrocardio-coat 2 can be embedded with a flexible circuit board, and the first monitoring piece 3 is electrically connected with a transmission circuit on the flexible circuit board so as to realize signal transmission. The structure of the specific transmission circuit can refer to the arrangement of the conventional electrocardio-coat 2 in the prior art, and is not described herein again. The electric connection part can be in contact with the flexible circuit board to be conducted with the transmission circuit, and the transmission of the electrocardiosignals to the processor is achieved. Because the transmission circuit can produce heat when the signal is transmitted, the heat absorbing material layer is arranged in the material of the electrocardio-coat 2 to absorb the heat produced by the transmission circuit, so as to heat the human body and provide the warmth retention property. The heat absorbing material layer is a carbon material layer, and the carbon material has good heat absorbing performance. Other insulating materials with good heat absorption performance can be adopted as the heat absorption material layer according to the requirement.
In the above embodiments, the wrist-worn main body 1 includes a wireless transceiver module for signal connection with a terminal and/or a cloud, and the wireless transceiver module is electrically connected with the processor. The electrocardiogram data can be sent to terminals such as a mobile phone or a cloud terminal through the wireless transceiver module so as to be convenient for subsequent storage and analysis processing. Or the connection with a communication base station and the like can be realized through the wireless transceiver module. The wireless transceiver module may specifically adopt a bluetooth module, a wifi module, a narrowband internet of things module (NB-IoT module), or a 4G module. The wrist-worn body 1 may further include a storage module connected to the processor and configured to store electrocardiographic data, as necessary.
In the above embodiments, the wrist wearing body 1 and the electrocardiograph garment 2 are connected through magnetic attraction or a buckle. That is, the wrist-worn body 1 and the electrocardiac suit 2 are respectively provided with a magnet or a magnet and an adsorption part capable of being adsorbed by the magnet for connection. The wrist-worn main body 1 and the electrocardio-coat 2 can also be respectively provided with a buckle for connection.
Specifically, one of the wrist wearing body 1 and the electrocardio-coat 2 is provided with a slide rail 7, the other is provided with a groove 8 for inserting the slide rail 7 from the front end, one of the wrist wearing body 1 and the electrocardio-coat 2 is provided with a limiting bulge 9, the other is provided with a clamping groove 10, and the limiting bulge 9 is clamped into the clamping groove 10 when the slide rail 7 is inserted into the rear end of the groove 8. That is, through the cooperation of slide rail 7 and recess 8, lead and spacing, when slide rail 7 was inserted and was slided to the rear end by the front end of recess 8, spacing arch 9 just blocked in draw-in groove 10 to wear main part 1 and electrocardio clothing 2 fixed connection with the wrist. By adopting the connection mode, the user can conveniently detach the wrist wearing main body 1 from the electrocardio-coat 2 or fix the wrist wearing main body 1 on the electrocardio-coat 2. According to the requirement, the wrist wearing body 1 and the wrist strap 6 can be detachably and fixedly connected in the above manner, that is, one of the wrist wearing body 1 and the wrist strap 6 has a slide rail 7, the other has a groove 8 for inserting the slide rail 7 from the front end, one of the wrist wearing body 1 and the wrist strap 6 has a limiting protrusion 9, the other has a slot 10, and the limiting protrusion 9 is inserted into the slot 10 when the slide rail 7 is inserted into the rear end of the groove 8.
Referring to fig. 5-7, fig. 5 is a schematic view illustrating a connection manner between the wrist main body 1 and the electrocardiac suit 2; fig. 6 is a schematic view of the wrist-worn body 1 in fig. 5; fig. 7 is a partial schematic view of the center vest 2 of fig. 5. The bottom surface of the wrist-worn main body 1 is provided with a groove 8 and a limiting bulge 9, the surface of the electrocardio-coat 2 is provided with a slide rail 7 and a clamping groove 10, and the clamping groove 10 is positioned on one side of the slide rail 7. The wrist wearing main body 1 slides along the slide rail 7 relative to the electrocardio-coat 2, so that the slide rail 7 is inserted from the front end of the groove 8, when the slide rail 7 slides to the rear end of the groove 8, the limit bulge 9 is clamped into the clamping groove 10, and the wrist wearing main body 1 is fixed on the electrocardio-coat 2. According to the requirements, the relationship between the slide rail 7 and the clamping groove 10 corresponding to the wrist wearing main body 1 and the electrocardio-coat 2 can be interchanged, and the relationship between the limiting bulge 9 and the groove 8 corresponding to the clamping groove 10 and the slide rail 7 can be interchanged.
The limiting protrusion 9 can specifically adopt a limiting steel ball, and the shape of the clamping groove 10 is matched with that of the limiting steel ball. The limiting steel balls have excellent mechanical properties, and the connection reliability is further guaranteed.
On the basis of the above embodiments, the wearable electrocardio-patch 4 is used for being placed at the heart of a user, the electrocardio-patch 4 is provided with a second monitoring piece 5 for collecting electrocardiosignals of a human body, the wrist wearing main body 1 is optionally detachably and fixedly connected with the electrocardio-coat 2 or the electrocardio-patch 4, and the electric connection part is electrically connected with the second monitoring piece 5 under the state that the wrist wearing main body 1 is fixedly connected with the electrocardio-patch 4. Referring to fig. 3-4, fig. 3 is a schematic view of another operation mode of a wearable device according to an embodiment of the present invention; fig. 4 is a schematic circuit diagram of fig. 3. The electrocardio-paster 4 is provided with a second monitoring piece 5, and the second monitoring piece 5 can be fixed in the electrocardio-paster 4 through embedding or pasting and other modes. The second monitoring element 5 is capable of acquiring the electrocardiographic signal of the user, and the specific form thereof can refer to the conventional arrangement in the prior art, such as the electrocardiographic electrodes arranged in pairs. The electrocardio-patch 4 is used for being placed at the heart position of a user, and preferably, the electrocardio-patch 4 is provided with an adhesive layer which can be directly adhered to a human body, so that the use is convenient. Of course, the fixing of the electrocardiograph patch 4 may be performed by other fixing methods such as fixing by a binding band, which is not limited herein. The electrocardio-patch 4 has small volume and is convenient to use.
When the wrist-worn main body 1 is fixedly connected with the electrocardiogram plaster 4, the wrist-worn main body can be specifically used for measuring electrocardiogram (electrocardiogram), the first monitoring piece 3 can be specifically used for collecting ECG signals of a human body, and the processor is used for obtaining electrocardiogram data of a user according to the ECG signals.
The wrist-worn main body 1 can be optionally detachably and fixedly connected with the electrocardio-coat 2 or the electrocardio-patch 4, that is, the user can fixedly connect the wrist-worn main body 1 with the electrocardio-coat 2 or fixedly connect the wrist-worn main body with the electrocardio-patch 4 according to the requirements of the use environment. If the wrist wearing main body 1 is connected with the electrocardio-coat 2, the wrist wearing main body 1 can be detached from the electrocardio-coat 2 according to the requirement and then replaced and fixed on the electrocardio-patch 4, so that the wrist wearing main body is convenient to use.
The fixed connection mode of the wrist wearing main body 1 and the electrocardio patch 4 can refer to various connection modes of the wrist wearing main body 1 and the electrocardio coat 2. Preferably, the wrist-worn main body 1, the electrocardiograph garment 2 and the electrocardiograph patch 4 share the same main body connecting portion, and the electrocardiograph garment 2 and the electrocardiograph patch 4 are provided with the same corresponding fixing portions to the main body connecting portion. For example, the wrist wearing main body 1 is respectively fixedly connected with the electrocardio coat 2 and the electrocardio patch 4 through a magnet or a clamping part. The wrist-worn main body 1 is provided with a groove 8 and a limiting bulge 9, so that when the wrist-worn main body is matched and connected with a slide rail 7 and a clamping groove 10 on the electrocardio-coat 2, the same slide rail 7 and clamping groove 10 can be correspondingly arranged on the electrocardio-patch 4 to be connected with the wrist-worn main body 1. According to the requirement, the wrist-worn main body 1 can also be respectively provided with different main body connecting parts corresponding to the electrocardio-coat 2 and the electrocardio-patch 4 so as to be respectively detachably and fixedly connected with the electrocardio-coat and the electrocardio-patch.
The structure of the electrical connection portion and the connection with the second monitoring member 5 can refer to the above-mentioned related arrangement of the electrical connection portion and the first monitoring member 3, and the details are not repeated here.
Specifically, the first monitoring element 3 is a three-lead electrode or a five-lead electrode, and the second monitoring element 5 is a three-lead electrode. The specific arrangement of the three leads and the five leads can refer to the prior art, and is not described herein again. Through adopting above-mentioned setting with first monitoring 3 and second monitoring 5, can guarantee electrocardiosignal acquisition's accuracy.
When the wrist wearing main body 1 is connected with the electrocardio coat 2 or the electrocardio patch 4 for electrocardio monitoring, both hands of a user are liberated, and the monitoring is more convenient. The electrocardiogram continuous monitoring for 72 hours can be realized, and the stored electrocardiogram result data can be stored in the wrist-worn main body 1, can reach the medical standard level and can be used as medical reference of doctors.
In other embodiments, the wrist-worn main body 1 may also have a main body monitoring component for collecting the electrocardiographic signals of the human body, and the processor is electrically connected to the main body monitoring component to process the electrocardiographic signals of the main body monitoring component to obtain the electrocardiographic data of the user.
On the basis of the above embodiments, the wrist band 6 for detachably and fixedly connecting with the wrist wearing body 1 is further included. Referring to fig. 8, fig. 8 is an exploded view of the wrist main body 1 and the wrist. Namely, the wrist-worn main body 1 is used for being optionally detachably and fixedly connected with the wrist strap 6, the electrocardio-coat 2 or the electrocardio-patch 4 so as to be respectively used as a wrist-worn device, an electrocardio-coat device and an electrocardio-patch device. The specific connection mode of the wrist band 6 and the wrist-worn main body 1 can adopt clamping connection, magnetic attraction fixation and the like, and is not limited specifically here.
In conclusion, the wearable device provided by the application can be connected with the wrist wearing main body 1 and the wrist strap 6, the electrocardio coat 2 or the electrocardio patch 4 as required to form different wearing modes. The user can connect the wrist strap 6 with the user to be used as wrist-worn equipment such as a watch and a bracelet, or be connected with the electrocardio-coat 2 or the electrocardio-sticker 4 to meet the requirement of daily exercise health data monitoring or monitoring and preventing heart diseases such as cardiovascular diseases.
The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A wearable device, comprising:
the wrist-worn main body (1) can be worn on the wrist of a user, and is provided with a processor for processing electrocardiosignals and an electric connection part electrically connected with the processor, and the wrist-worn main body (1) can be detachably and fixedly connected with an electrocardiogarment (2);
the electrocardio-coat (2) is provided with a first monitoring piece (3) for collecting electrocardiosignals of a human body, and the electric connection part is electrically connected with the first monitoring piece (3) when the wrist wearing main body (1) is fixedly connected with the electrocardio-coat (2).
2. Wearable device according to claim 1, characterized in that the electrocardiac garment (2) has a layer of heat absorbing material for absorbing heat of a transmission circuit inside the electrocardiac garment (2) electrically connected to the first monitoring member (3).
3. Wearable device according to claim 1, wherein the wrist-worn body (1) has a PPG sensor for acquiring PPG signals of the human body, the processor being electrically connected with the PPG sensor for obtaining heart rate data of the user from the PPG signals.
4. Wearable device according to claim 1, characterized in that the wrist-worn body (1) comprises a wireless transceiver module for signal connection with a terminal and/or a cloud, the wireless transceiver module being electrically connected with the processor.
5. The wearable device of claim 1, wherein the electrical connection is a pogo pin.
6. Wearable device according to claim 1, characterized in that the wrist-worn body (1) is connected with the electrocardiac garment (2) by magnetic attraction or snap-fit.
7. The wearable device according to claim 1, wherein one of the wrist-worn body (1) and the electrocardiac suit (2) has a slide rail (7), the other has a groove (8) for inserting the slide rail (7) from the front end, and one of the wrist-worn body (1) and the electrocardiac suit (2) has a limit protrusion (9), the other has a slot (10), and the limit protrusion (9) is inserted into the slot (10) when the slide rail (7) is inserted into the rear end of the groove (8).
8. The wearable device according to any one of claims 1 to 7, further comprising an electrocardiogram (4) patch for placing at a heart position of a user, wherein the electrocardiogram patch (4) has a second monitoring component (5) for collecting electrocardiogram signals of the human body, the wrist-worn main body (1) can be detachably and fixedly connected with the electrocardiogram patch (4), and the electric connection part is electrically connected with the second monitoring component (5) in a state that the wrist-worn main body (1) is fixedly connected with the electrocardiogram patch (4).
9. Wearable device according to claim 8, characterized in that the first monitoring piece (3) is a three-lead or five-lead electrode and the second monitoring piece (5) is a three-lead electrode.
10. Wearable device according to claim 8, comprising a wrist strap (6) for detachable fixed connection with the wrist-worn body (1).
CN201921340178.5U 2019-08-16 2019-08-16 Wearable equipment Active CN210784332U (en)

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CN201921340178.5U CN210784332U (en) 2019-08-16 2019-08-16 Wearable equipment

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CN210784332U true CN210784332U (en) 2020-06-19

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