CN212414966U - Wearable wrist strap equipment based on FPC board - Google Patents
Wearable wrist strap equipment based on FPC board Download PDFInfo
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- CN212414966U CN212414966U CN202021040399.3U CN202021040399U CN212414966U CN 212414966 U CN212414966 U CN 212414966U CN 202021040399 U CN202021040399 U CN 202021040399U CN 212414966 U CN212414966 U CN 212414966U
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Abstract
The utility model discloses a wearable wrist strap equipment based on FPC board, it is including host computer and wrist strap, it is equipped with battery module and pulse sensor group to inlay on the wrist strap, the tip of wrist strap is equipped with the wrist strap connector, the wrist strap connector is including a plurality of first contacts, the lateral part of host computer is equipped with the host computer connector, the host computer connector is including a plurality of second contacts, the cooperation can be dismantled with the host computer connector to the wrist strap connector, first contact aligns one by one with the second contact, be equipped with the FPC board in the wrist strap, battery module and pulse sensor group are respectively through FPC board electric connection in first contact, when wrist strap connector and host computer connector interconnect, first contact and second contact electric contact, the signal of telecommunication that battery module and pulse sensor group produced loops through the FPC board, first contact and second contact transmission to host computer. The utility model discloses can improve duration, easily realize that the battery expands the appearance, can accurate monitoring pulse signal.
Description
Technical Field
The utility model relates to an intelligence wearing equipment especially relates to a wearable wrist strap equipment based on FPC board.
Background
Among the prior art, wearable equipment of intelligent type generally has functions such as meter step, pulse monitoring, when people wear intelligent wearing equipment, because the wrist strap host computer is in real-time acquisition and data processing's state, so it has certain power consumption, this duration to the wrist strap host computer has provided higher requirement, current wrist strap host computer generally is little volume structure, because of its inner space is limited, lead to the battery size that it can match, battery capacity is less, not only duration is weak, and application demands such as battery dilatation can't be realized moreover. In addition, current intelligent wearing equipment generally only sets up a pulse sensor, and this kind of data acquisition mode leads to the pulse that the wrist strap host computer acquireed to gather the signal of telecommunication comparatively single, and is very difficult to the true condition of accurate reflection human pulse, relatively poor to the accuracy of pulse monitoring, can't satisfy user and market demand.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model lies in, to prior art's not enough, provide one kind can improve duration, easily realize that the battery expands holds, can accurately monitor the wearable wrist strap equipment based on FPC board of pulse signal.
In order to solve the technical problem, the utility model adopts the following technical scheme.
The utility model provides a wearable wrist strap equipment based on FPC board, its is including host computer and wrist strap, it is equipped with battery module and pulse sensor group to inlay on the wrist strap, the tip of wrist strap is equipped with the wrist strap connector, the wrist strap connector is including a plurality of first contacts, the lateral part of host computer is equipped with the host computer connector, the host computer connector is including a plurality of second contacts, the wrist strap connector with the cooperation can be dismantled to the host computer connector, first contact with the second contact aligns one by one, be equipped with the FPC board in the wrist strap, battery module with pulse sensor group passes through respectively FPC board electric connection in first contact, works as the wrist strap connector with when host computer connector interconnect, first contact with second contact electric contact, battery module with the signal of telecommunication that pulse sensor group produced loops through FPC board, electricity, The first contact and the second contact are transmitted to the host.
Preferably, the pulse sensor group comprises an acoustic wave sensor, a vibration sensing sensor and a photoelectric pulse sensor.
Preferably, the back of the main machine is provided with a body temperature sensor.
Preferably, the sensing end of the body temperature sensor is covered with a heat conducting sheet.
Preferably, the back of the main machine is provided with a rear cover, and the body temperature sensor is embedded on the rear cover.
Preferably, the wireless charging device comprises a wireless charging seat, a wireless charging module and a charging circuit are arranged in the host, and the host acquires electric energy and charges the battery module through the charging circuit by means of the cooperation of the wireless charging module and the wireless charging seat.
Preferably, a plurality of battery modules are embedded on the wrist strap and are sequentially distributed along the length direction of the wrist strap.
Preferably, a plurality of battery modules are all arranged on the inner side of the wrist strap.
The utility model discloses an among the wearable wrist strap equipment based on FPC board, will battery module inlays to be located on the wrist strap, during the use, will the wrist strap connector connect in the host computer connector, make first contact with second contact electric contact, at this moment, the electric energy of battery module output loops through the FPC board first contact with the second contact transmission extremely the host computer, it is right to further the host computer supplies power, so that the host computer is right the signal of telecommunication of pulse sensor group feedback acquires in real time and handles. Compare prior art with battery module integration in the inside equipment of host computer, the utility model discloses not only help realizing the battery dilatation by the restriction of host computer inner space, improved the duration of a journey ability of host computer moreover greatly, in addition, because the wrist strap connector with the host computer connector is for dismantling the complex relation, so even battery module electric quantity in the wrist strap exhausts, also can do through the mode of changing reserve wrist strap the host computer provides the electric energy, and is visible based on above-mentioned characteristic, the utility model discloses in practical application in-process more nimble, satisfied user's needs and market demand betterly.
Drawings
Fig. 1 is a perspective view of the wearable wrist band device of the present invention;
FIG. 2 is a view showing the construction of the wristband;
FIG. 3 is a back structural view of the host;
FIG. 4 is a side view of the main frame;
fig. 5 is a structural diagram of the wireless charging stand.
Detailed Description
The present invention will be described in more detail with reference to the accompanying drawings and examples.
The utility model discloses a wearable wrist strap device based on FPC board, which is shown by combining figures 1 to 5 and comprises a host 1 and a wrist strap 2, a battery module 3 and a pulse sensor group 4 are embedded on the wrist strap 2, the end part of the wrist strap 2 is provided with a wrist strap connector 5, the wrist strap connector 5 comprises a plurality of first contacts 50, the side part of the host 1 is provided with a host connector 6, the host connector 6 comprises a plurality of second contacts 60, the wrist strap connector 5 is detachably matched with the host connector 6, the first contacts 50 are aligned with the second contacts 60 one by one, the wrist strap 2 is internally provided with an FPC board 7, the battery module 3 and the pulse sensor group 4 are respectively electrically connected with the first contacts 50 through the FPC board 7, when the wrist strap connector 5 is mutually connected with the host connector 6, the first contact 50 is electrically contacted with the second contact 60, and the electric signals generated by the battery module 3 and the pulse sensor group 4 are transmitted to the host 1 sequentially through the FPC board 7, the first contact 50 and the second contact 60.
In the above-mentioned equipment, will battery module 3 inlays and locates on the wrist strap 2, during the use, will wrist strap connector 5 connect in host computer connector 6 makes first contact 50 with second contact 60 electrical contact, at this moment, the electric energy of battery module 3 output loops through FPC board 7 first contact 50 with second contact 60 transmits extremely host computer 1, and then right host computer 1 supplies power, so that host computer 1 is right the signal of telecommunication of pulse sensor group 4 feedback is acquireed in real time and is handled. Compare prior art with battery module integration in the inside equipment of host computer, the utility model discloses not only help realizing the battery dilatation by the restriction of 1 inner space of host computer, improved the duration of a journey ability of host computer moreover greatly, in addition, because wrist strap connector 5 with host computer connector 6 is for dismantling the complex relation, so even 3 electric quantities of battery module in the wrist strap 2 are exhausted, also can do through the mode of changing reserve wrist strap the host computer provides the electric energy, and it is visible based on above-mentioned characteristic, the utility model discloses in practical application in-process more nimble, satisfied user's needs and market demand betterly.
Preferably, the pulse sensor group 4 comprises an acoustic wave sensor 40, a vibration sensing sensor 41 and a photoelectric pulse sensor 42. The specific processing modes of the three sensors are as follows:
regarding the photoelectric pulse sensor 42, because the pulse is mainly generated by the relaxation and contraction of the artery of the human body, and the three parts of the guan-mai part inside the high bone on the back of the palm, the cun-mai part before the guan-mai part and the chi-mai part after the guan-mai part are relatively thin and transparent compared with other human tissues, the detected light intensity is relatively large, the photoelectric pulse sensor can accurately monitor the light reflection signals of the blood relaxation and contraction of the part;
the acoustic wave sensor 40 mainly monitors sounds transmitted in the relaxation and contraction processes of multiple pulses, and voiceprint signals corresponding to the pulse intensities are different and classified into different pulse types;
for the vibration induction sensor 41, the principle is that the finger is used for pulse feeling in the traditional Chinese medicine, and the finger can sense the vibration caused by the blood passing in the process of pulse relaxation and pulse contraction, so that the vibration induction sensor is used for monitoring the strength and speed of the vibration to correspond to the type of the pulse;
in the structure, the sound wave sensor 40, the vibration sensing sensor 41 and the photoelectric pulse sensor 42 are integrated at the wrist position of the wrist band, the pulse sign at the position is most obvious, and the monitoring data of the three sensors are integrated in a sign algorithm model to calculate the characteristic condition of the user, so that a relative health monitoring suggestion is obtained.
In practical application, the wrist strap connector 5 and the host connector 6 can be detachably matched in a clamping manner. In addition, can also adopt the magnetism to inhale the mode between wrist strap and the host computer and be connected, this kind of connected mode is convenient for assemble, but sets up the buckle in the border position of wrist strap interface simultaneously in order to ensure firmly combine, be difficult for droing after inhaling the magnetism.
In order to realize body temperature monitoring, in this embodiment, a body temperature sensor 8 is disposed on the back of the main body 1.
Preferably, the sensing end of the body temperature sensor 8 is covered with a heat conducting sheet 9. The heat conducting sheet 9 can not only play a role in temperature conduction, but also protect the sensing end of the body temperature sensor 8.
Further, a rear cover 10 is arranged on the back of the main machine 1, and the body temperature sensor 8 is embedded on the rear cover 10.
The present embodiment preferably has a wireless charging function, specifically, the present embodiment includes a wireless charging seat 11, a wireless charging module and a charging circuit are disposed in the host 1, and the host 1 is enabled to acquire electric energy and charge the battery module 3 through the charging circuit by cooperation of the wireless charging module and the wireless charging seat 11.
Preferably, a plurality of battery modules 3 are embedded in the wrist band 2, and the plurality of battery modules 3 are sequentially distributed along the length direction of the wrist band 2. The battery distribution structure greatly improves the cruising ability of the wrist strap equipment, is beneficial to setting the number of the battery modules 3 according to actual requirements, and is convenient for capacity expansion design.
Preferably, the plurality of battery modules 3 are all provided inside the wrist band 2.
In order to better describe the technical scheme of the utility model, the utility model also discloses a wearable wrist strap device data acquisition method based on FPC board, which is shown by combining with figures 1 to 5, the device comprises a host machine 1 and a wrist strap 2, a battery module 3 and a pulse sensor group 4 are embedded on the wrist strap 2, the end part of the wrist strap 2 is provided with a wrist strap connector 5, the wrist strap connector 5 comprises a plurality of first contacts 50, the side part of the host machine 1 is provided with a host machine connector 6, the host machine connector 6 comprises a plurality of second contacts 60, the wrist strap connector 5 is detachably matched with the host machine connector 6, the first contacts 50 are aligned with the second contacts 60, the wrist strap 2 is internally provided with an FPC board 7, the battery module 3 and the pulse sensor group 4 are respectively electrically connected with the first contacts 50 through the FPC board 7, the acquisition method comprises the following steps:
step S1, connecting the wrist strap connector 5 to the host connector 6, and electrically contacting the first contact 50 with the second contact 60;
step S2, the electric energy output by the battery module 3 is transmitted to the host 1 sequentially through the FPC board 7, the first contact 50 and the second contact 60, and the battery module 3 is used to supply power to the host 1;
step S3, the electrical signals generated by the pulse sensor group 4 are sequentially transmitted to the host 1 through the FPC board 7, the first contact 50, and the second contact 60, and the host 1 processes the electrical signals fed back by the pulse sensor group 4 to obtain pulse data.
As a preferable mode, the back of the host 1 is provided with a body temperature sensor 8, the pulse sensor group 4 includes a sound wave sensor 40, a vibration sensor 41 and a photoelectric pulse sensor 42, the sound wave sensor 40, the vibration sensor 41, the photoelectric pulse sensor 42 and an electric signal output by the body temperature sensor 8 are respectively transmitted to the host 1, the host 1 processes an electric signal fed back by the sound wave sensor 40, the vibration sensor 41 and the photoelectric pulse sensor 42 to obtain pulse data, and processes an electric signal fed back by the body temperature sensor 8 to obtain body temperature data.
In the embodiment, the sound wave sensor 40, the vibration sensing sensor 41 and the photoelectric pulse sensor 42 are preferably integrated, and the host precisely calculates the pulse state of the user according to the data collected by the three sensors by using three variable parameters of light, sound and motion, so as to track and grasp the health state of the user. Meanwhile, the pulse data acquired in a modeling mode is combined with a machine learning method to establish a corresponding relation to the pulse type corresponding to the disease model, so that the user is assisted to pay attention to the self body health condition.
In practical applications, the feedback resolved from the sensor signal parameters can be classified as: photoelectric pulse sensor feedback: strong, second strong, weak, no signal; and (3) acoustic wave sensor feedback: strong, second strong, weak, no signal; and (3) feedback of the vibration sensor: strong, second strong, weak, no signal; see in particular the following table:
the combination of the pulses from the above table is:for example, more accurate pulse recognition can be performed by combining the chronic disease analysis experience corresponding to the pulse condition of traditional Chinese medicine.
In addition, the body temperature parameter that the body temperature sensor in the combination wearable equipment gathered can also more accurate fusion four and above sign data measure and evaluate, thereby the algorithm obtains effectual training under the sample quantity and provides accurate health suggestion and warning for the user.
On this basis, body temperature monitoring function has still been add to this embodiment, utilizes stainless steel conducting strip and heat-sensitive sensor to carry out real-time control to user's body temperature in the wearable equipment main part, uses on the one hand on pulse control and chronic disease track, and on the other hand can use for example in occasions such as novel coronavirus propagator body temperature monitoring, body temperature anomaly monitoring, reminds the user to keep appropriate social distance under the epidemic situation environment.
The utility model discloses equipment accessible bluetooth master slave broadcasting mechanism establishes communication with user's cell-phone, does not rely on internet communication App, keeps under the reasonable social distance condition with other people, and then protects user privacy, has satisfied user's needs and market demand betterly.
The above is only the embodiment of the present invention, and is not intended to limit the present invention, and all modifications, equivalent replacements or improvements made within the technical scope of the present invention should be included within the protection scope of the present invention.
Claims (8)
1. The wearable wrist strap equipment based on the FPC board is characterized by comprising a host (1) and a wrist strap (2), wherein a battery module (3) and a pulse sensor group (4) are embedded on the wrist strap (2), the end part of the wrist strap (2) is provided with a wrist strap connector (5), the wrist strap connector (5) comprises a plurality of first contacts (50), the side part of the host (1) is provided with a host connector (6), the host connector (6) comprises a plurality of second contacts (60), the wrist strap connector (5) is detachably matched with the host connector (6), the first contacts (50) are aligned with the second contacts (60) one by one, an FPC board (7) is arranged in the wrist strap (2), the battery module (3) and the pulse sensor group (4) are respectively and electrically connected with the first contacts (50) through the FPC board (7), work as wrist strap connector (5) with when host computer connector (6) interconnect, first contact (50) with second contact (60) electric contact, battery module (3) with the signal of telecommunication that pulse sensor group (4) produced loops through FPC board (7), first contact (50) with second contact (60) transmit extremely host computer (1).
2. The FPC board-based wearable wristband device according to claim 1, wherein the pulse sensor group (4) comprises an acoustic wave sensor (40), a vibration sensing sensor (41) and a photoelectric pulse sensor (42).
3. The FPC board-based wearable wristband device according to claim 1, wherein a back of the host (1) is provided with a body temperature sensor (8).
4. The FPC board-based wearable wristband device according to claim 3, wherein a sensing end of the body temperature sensor (8) is covered with a heat conductive sheet (9).
5. The FPC board-based wearable wristband device according to claim 4, wherein a back cover (10) is provided on a back of the host (1), and the body temperature sensor (8) is embedded on the back cover (10).
6. The wearable wristband device based on the FPC board as recited in claim 1, characterized in that a wireless charging base (11) is included, a wireless charging module and a charging circuit are disposed in the host (1), and by means of cooperation of the wireless charging module and the wireless charging base (11), the host (1) is enabled to obtain electric energy and charge the battery module (3) through the charging circuit.
7. The FPC board-based wearable wristband apparatus according to claim 1, wherein a plurality of battery modules (3) are embedded in the wristband (2), and the plurality of battery modules (3) are sequentially distributed along a length direction of the wristband (2).
8. The FPC board-based wearable wristband device according to claim 7, wherein a plurality of battery modules (3) are provided inside the wristband (2).
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CN202021040399.3U CN212414966U (en) | 2020-06-09 | 2020-06-09 | Wearable wrist strap equipment based on FPC board |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2022211311A1 (en) * | 2021-04-01 | 2022-10-06 | 삼성전자 주식회사 | Electronic device comprising module assembly |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2022211311A1 (en) * | 2021-04-01 | 2022-10-06 | 삼성전자 주식회사 | Electronic device comprising module assembly |
US11960249B2 (en) | 2021-04-01 | 2024-04-16 | Samsung Electronics Co., Ltd. | Wearable electronic device with an optical sensor module integrated with a wireless charging module |
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