CN114711743A

CN114711743A - Intelligent wearable device

Info

Publication number: CN114711743A
Application number: CN202110012200.9A
Authority: CN
Inventors: 李杰耀; 钱红波
Original assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Current assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Priority date: 2021-01-05
Filing date: 2021-01-05
Publication date: 2022-07-08

Abstract

The application discloses intelligence wearing equipment, intelligence wearing equipment includes: the watch comprises a watch body, a watch body and a control module, wherein the watch body comprises a watch body shell, a display screen and a main control board, the display screen is arranged on the watch body shell, the main control board is arranged in the watch body shell, and the main control board is electrically connected with the display screen; the watchband is connected with two sides of the watch body shell; and the health detection module comprises a module shell, the module shell is connected with the watchband, the health detection module further comprises a control panel and a pickup assembly, the control panel and the pickup assembly are installed on the module shell, the pickup assembly is electrically connected with the control panel, and the control panel is provided with a wireless communication circuit or a communication interface. The intelligent wearable device of the technical scheme can facilitate the wearer to detect fetal heart data.

Description

Intelligent wearable device

Technical Field

The application relates to the technical field of wearability, in particular to intelligent wearing equipment.

Background

The existing devices for detecting the fetal heart of a pregnant woman are usually stethoscopes or doppler fetal heart meters. The stethoscope usually needs professional medical personnel to operate, so that the using crowd is limited; the Doppler fetal heart monitor is large in size, inconvenient to carry and not suitable for detecting fetal hearts at any time, and the Doppler fetal heart monitor also needs professional medical personnel to operate, so that the fetal hearts of pregnant women can not be detected anytime and anywhere.

Content of application

The application provides an intelligence wearing equipment, this intelligence wearing equipment can make things convenient for the person of wearing to detect child heart data.

In order to realize above-mentioned purpose, the intelligence wearing equipment that this application provided includes:

the watch comprises a watch body, a watch body and a control module, wherein the watch body comprises a watch body shell, a display screen and a main control board, the display screen is arranged on the watch body shell, the main control board is arranged in the watch body shell, and the main control board is electrically connected with the display screen;

the watchband is connected with two sides of the watch body shell; and

the health detection module comprises a module shell, a control panel and a pickup assembly, wherein the module shell is connected with the watchband, the control panel and the pickup assembly are arranged on the module shell, the pickup assembly is electrically connected with the control panel, and the control panel is provided with a wireless communication circuit or a communication interface.

The intelligent wearing equipment of the technical scheme comprises the health detection module, and a user can place the health detection module connected to the watchband at the part to be detected in a fitting mode in the process of wearing the intelligent wearing equipment. The user can be for the pregnant woman, and the pregnant woman laminates this health detection module in the belly, and the vibration signal of the foetus heartbeat and fetal movement that transmit on this health detection module can be obtained to the pickup subassembly on the belly, and the pickup subassembly is with fetal heart and fetal movement signal transmission to the control panel that obtains, and circuit structure on the control panel can be handled this signal to obtain the data of fetal heart and fetal movement. The wireless communication circuit or the communication interface arranged on the control panel can be in wireless or wired connection with the meter body and can also be in wireless or wired connection with external equipment so as to transmit fetal heart and fetal movement data to the meter body or the external equipment for display output or sound output, so that the pregnant woman can know the health condition of the fetus in time.

The user who wears this smart machine still can be for the ordinary user of non-pregnant woman, and ordinary user wears this intelligence and dresses the equipment in-process, with health detection module as for the chest, the vibration signal of the user's heartbeat that transmits on the skin of chest can be acquireed to the pickup assembly on this health detection module, and the user can know the heartbeat condition of oneself through the data output of health detection module, judges the health condition of oneself.

The health detection module can also be provided with a wireless communication circuit or a communication interface and transmits the acquired and processed data to external equipment in a wireless or wired mode.

Drawings

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

Fig. 1 is a schematic structural diagram of an embodiment of an intelligent wearable device according to the present application;

FIG. 2 is a schematic structural diagram of another view angle of the smart wearable device in FIG. 1;

FIG. 3 is an exploded view of a portion of the health detection module of FIG. 1;

FIG. 4 is an exploded view of the health detection module of FIG. 3;

fig. 5 is a signal transmission schematic diagram of the intelligent wearable device of the present application.

The reference numbers indicate:

the implementation, functional features and advantages of the objectives of the present application will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely 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 of 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 all the directional indications (such as up, down, left, right, front, and rear … …) in the embodiment of the present application are only used to explain the relative position relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indication is changed accordingly.

In addition, the descriptions referred to as "first", "second", etc. in this application are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly 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, 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.

Referring to fig. 1, the present application provides an intelligent wearable device 100, where the intelligent wearable device 100 includes: watch body 10 and band 30. The table body 10 includes table body shell 13, display screen 11 and main control board, and table body shell 13 is located to display screen 11, and in table body shell 13 was located to the main control board, main control board and display screen 11 electric connection.

The main control board can correspond through the circuit structure that sets up on it and carry out various functions, table body shell 13 is used for installing and protecting main control board and inner structure, still can inlay on the table body shell 13 and be equipped with display screen 11, and this display screen 11 electric connection is in the main control board, can show the information that the main control board corresponds when carrying out corresponding function to the user can conveniently acquire the information of needs. The functions executed by the main control board of the watch body 10 may include basic functions of watch products, such as: time display, date display, alarm clock making, etc. However, the main control board of the watch body 10 according to the present invention is not limited to perform only the above basic functions, and may also have other functions of the smart watch, such as: timing, step counting, heart rate measurement, GPS positioning, sleep detection and the like, and the method is not particularly limited and can be provided with corresponding chips and detection elements according to actual needs. The band 30 is connected to both sides of the case band 13, and is used to wear the case band 13 and parts connected to the case band 13 on a human body.

With reference to fig. 2 to 5, the intelligent wearable device 100 according to the present application further includes a health detection module 50, the health detection module 50 includes a module case 51, the module case 51 is connected to the watch band 30, the health detection module 50 further includes a control board and a pickup assembly 53 installed on the module case 51, the pickup assembly 53 is electrically connected to the control board, the control board is provided with a wireless communication circuit 63 or a communication interface, the control board is provided with a microprocessor 60, and the microprocessor 60 can perform corresponding processing on data transmitted by the pickup assembly 53.

The user can place this health detection module 50 connected to watchband 30 in the laminating of the position of awaiting measuring wearing this intelligent wearing equipment 100's in-process. The user can be a pregnant woman, the pregnant woman fits the health detection module 50 to the belly, the pickup assembly 53 on the health detection module 50 can acquire the vibration signals of fetal heartbeat and fetal movement transmitted from the belly, the pickup assembly 53 transmits the acquired fetal heartbeat and fetal movement signals to the control board, and the circuit structure on the control board can process the signals to acquire the data of the fetal heartbeat and fetal movement. The wireless communication circuit 63 or the communication interface arranged on the control panel can be in wireless or wired connection with the meter body and can also be in wireless or wired connection with external equipment so as to transmit fetal heart and fetal movement data to the external equipment for display output or sound output, so that the pregnant woman can know the health condition of the fetus in time.

The user who wears this smart machine still can be for the ordinary user of non-pregnant woman, and ordinary user wears this intelligence and dresses equipment 100 in-process, puts health detection module 50 as for the chest, and the vibration signal of the user's heartbeat that transmits on the skin of chest can be acquireed to the pickup assembly 53 on this health detection module 50, and the user can know the heartbeat condition of oneself through the data output of health detection module 50, judges the health condition of oneself.

The health detection module 50 may further be provided with a wireless communication circuit 63 or a communication interface, and transmit the acquired and processed data to an external device in a wireless or wired manner, where the external device may be the watch body 10, a sound box, a computer or a mobile phone, or may be other professional devices.

When the external device is the watch body 10, a wireless communication circuit can be arranged on the main control board of the watch body 10 and used for receiving data transmitted by the wireless communication circuit 63 on the health detection module 50, or wired connection can be performed between the control board of the health detection module 50 and the main control board of the watch body 10 through the inside of the watchband 30, the control board of the health detection module 50 transmits the data to the main control board of the watch body 10, the main control board processes the data and then displays the processed data on the display screen 11 of the watch body 10, and a user can check fetal heart and fetal movement data through the display screen 11 on the watch body 10, so that the health condition of a fetus can be known in time;

when the external device is a sound box, the sound box can be connected with the health detection module 50 in a wireless or wired manner to transmit data, and the sound box can enlarge the obtained fetal heart and fetal movement condition and then play the enlarged fetal heart and fetal movement condition, so that sound data is provided for a user to obtain the fetal health condition in a sound manner.

When the external device is a mobile phone, the mobile phone may be connected to the health detection module 50 by a wireless or wired manner, and a user operating the mobile phone may invoke a program corresponding to the health detection module 50 and view various detection data processed by the health detection module 50 through the program. The mobile phone can also control the health detection module 50 to be turned on and off, so as to facilitate the user's start-up management of the health detection module 50.

When the external device is a computer or other professional devices, the fetal heart and fetal movement data can be displayed from the display screen 11 by calling corresponding programs.

This health detection module 50 can also set up wireless communication circuit 63 and save the fetal heart and fetal movement data of acquireing, and the pregnant woman can be given the doctor with the data zone of storage to the hospital in this intelligence wearing equipment 100, and the doctor can be convenient acquires the fetal heart and fetal movement data of pregnant woman storage to can in time effectually detect fetal health condition.

Referring to fig. 3 and 4, the pickup assembly 53 includes a pickup diaphragm and a sensing structure, the module housing 51 has a pickup hole 5111, the pickup diaphragm is embedded in the pickup hole 5111, and the sensing structure is connected to the pickup diaphragm and electrically connected to the control board. The surface that module shell 51 offered and picks up sound hole 5111 can laminate in pregnant woman's belly, makes the pickup vibrating diaphragm of inlaying in sound hole 5111 directly acquire the child heart that transmits on the belly and the vibration of fetal movement, and this pickup vibrating diaphragm transmits the vibration that acquires to sensing structure, and this sensing structure can convert the vibration signal who acquires into corresponding signal of telecommunication transmission to the control panel, and the control panel can be handled the signal of telecommunication that should handle, for example with this signal of telecommunication transmission to external equipment or with data storage.

Further referring to fig. 3, the pickup diaphragm includes a first pickup speaker 531, the first pickup speaker 531 is embedded in the pickup hole 5111, and the first pickup speaker 531 is gradually closed by extending from the edge of the pickup hole 5111 to the inner side of the module case 51, and is connected to the sensing structure in the inner side of the module case 51. The opening edge of the first sound pickup horn 531 is connected to the edge of the sound pickup hole 5111, extends to the inside of the housing, and is gradually closed, so that the vibration transmitted from the skin in the region covered by the first sound pickup horn 531 can be converged and concentrated in the direction of the inside of the housing.

The pickup diaphragm further includes a second pickup horn 533, the second pickup horn 533 is connected to one side of the first pickup horn 531 in the module housing 51 along the circumferential direction, and extends and gradually converges in the direction of the pickup hole 5111 towards the inner side of the module housing 51, and the second pickup horn 533 deviates from the one side communication sensing structure of the first pickup horn 531. This second pickup loudspeaker 533 can further concentrate and amplify the vibration signal after first pickup loudspeaker 531 assembles further for the vibration signal intensity that sensing structure obtained is bigger, this vibration signal of discernment that sensing structure can be abundant, and accurate, effectual convert vibration signal into signal transmission to the control panel in order to carry out relevant processing and output.

This second pickup loudspeaker 533 deviates from one side of first pickup loudspeaker 531 and encloses the opening that establishes formation not closed to in opening part intercommunication sensing structure, make the vibration portion of sensing structure can communicate the sound chamber of second pickup loudspeaker 533, the sound wave in the sound chamber can more effectual drive sensing structure's vibration portion vibrate, so that the sensing structure can more effectively acquire the vibration that this pickup subassembly 53 picked up.

The sensing structure is a first acceleration sensor 535, and the first acceleration sensor 535 can convert the acquired acceleration into an electric signal to be output, so as to convert the picked-up fetal heart and fetal movement into an electric signal to be output.

The health detection module 50 further comprises a second acceleration sensor 54, the second acceleration sensor 54 being arranged in the module housing 51, the second acceleration sensor 54 being connected to the module housing 51. The second acceleration sensor 54 can acquire the vibration of the module case 51 itself to remove noise due to vibration caused by a condition other than the sound pickup unit 53.

The pickup assembly 53 may also be an ultrasonic sensor, which obtains the vibration effect of the part to be measured in an ultrasonic manner to obtain fetal heart and fetal movement data signals of the pregnant woman. The ultrasonic sensor is electrically connected with the control panel and can convert the acquired data of the part to be detected into electric signals and transmit the electric signals to the microprocessor 60 for processing.

A pressure sensor 55 is further disposed in the module housing 51, and the pressure sensor 55 is connected to the module housing 51 and to a wall of the housing where the sound pickup hole 5111 is located. The pressure sensor 55 can detect the pressure applied to the portion to be detected by the health detection module 50, and convert the measured pressure into an electrical signal to be transmitted to the control board for auxiliary judgment.

The module case 51 includes case top wall 511, case bottom wall 513 and case side wall 515 connecting the case top wall 511 and the case bottom wall 513 in the circumferential direction, the case side wall 515 connects the band 30, the case bottom wall 513 faces the watch body 10, and the sound pickup hole 5111 is opened in the case top wall 511.

This intelligent wearing equipment 100's table body 10 and health detection module 50 are established ties by watchband 30, and when the user wore this intelligent wearing equipment 100 in the wrist of health, table body 10 and health detection module 50 were located the opposite sides of wrist respectively, and the user of being convenient for is when taking the wrist on the belly, and health detection module 50 can face to, and laminate in the belly surface.

Referring to fig. 1 and 2, the watch case 13 includes a watch top wall 131, a watch bottom wall 133, and a watch side wall 135 connecting the watch top wall 131 and the watch bottom wall 133 in the circumferential direction, the watch side wall 135 connects the band 30, the watch top wall 131 is provided with the display 11, and the watch bottom wall 133 is disposed opposite to the case bottom wall 513. In order to facilitate checking of the display screen 11 on the watch body 10, the watch body 10 is usually located on one side of the wrist on the back of the hand, the health detection module 50 is located on one side of the wrist on the palm of the hand, when a pregnant woman wears the intelligent wearable device 100, the pregnant woman only needs to put the wrist on the belly on one side of the palm of the hand, the pickup assembly 53 arranged on the health detection module 50 can acquire the vibration transmitted from the belly through the pickup diaphragm at the pickup hole 5111, and the fetal heart and fetal movement can be acquired conveniently. Under this wearing mode, pregnant woman is detecting the in-process of fetal heart and fetal movement, and the hand can reach nature, relaxed state for whole detection process is more comfortable.

The pressure sensor 55 is connected to the top wall 511 of the module housing 51 inside the module housing 51, and the pressure sensor 55 can acquire the pressure transmitted from the top wall 511 of the housing, measure the pressure at the site to be detected, convert the measured pressure into an electrical signal, and transmit the electrical signal to the control board for auxiliary judgment.

When a pregnant woman carries a wrist on the belly, the top wall 511 of the shell of the health detection module 50 is in contact with the belly, the top wall 511 of the shell is under pressure under the pressure of the wrist, the pressure sensor 55 connected to the top wall 511 of the shell detects the pressure and converts the pressure into an electric signal to be transmitted to the control panel, the microprocessor 60 on the control panel can judge the pressure, judge whether the pressure value reaches a preset value, if so, control the detection function of the health detection module 50 to be started, namely, the pressure sensor 55 can play a role of a switch, and when the pressure is detected to meet the requirement, the health detection module 50 is started to detect fetal heart, fetal movement or other data; if the detected pressure does not meet the requirement, the health detection module 50 is not started to achieve the energy-saving effect. When detecting pressure and satisfying the requirement, open this health detection module 50 and detect child heart, child action or other data, form the cavity between pickup diaphragm and the belly on pickup hole 5111, the vibration that the belly transmitted can make pickup diaphragm take place the vibration, and the pickup diaphragm will this vibration transmission to sensor structure to convert this vibration signal into signal of telecommunication to control panel.

As the belly of the human body fluctuates up and down in the breathing process, the pressure sensor 55 can detect the fluctuation frequency of the belly, convert the data into an electric signal and send the electric signal to the control board, and the microprocessor 60 judges the fluctuation frequency so as to judge whether the pregnant woman breathes quickly or not and whether the situation of insufficient oxygen supply exists or not.

In addition, the sound collecting unit 53 simultaneously acquires the signals of the rising and falling of the belly during the process of acquiring the fetal heart and fetal movement, and after the pressure sensor 55 transmits the signals of the detected frequency of the rising and falling of the belly to the microprocessor 60, the microprocessor 60 can extract the signals of the rising and falling of the belly as noise from the signals acquired by the sound collecting unit 53, so that the fetal heart and fetal movement data acquired by the sound collecting unit 53 can be more accurate.

The pressure sensor 55 also enables the user to obtain the length of time the health detection module 50 has detected. When the pressure detected by the pressure sensor 55 is too high, a warning or alarm function in the health detection module 50 is also triggered to prevent the influence of the excessive pressing force on the belly skin on the fetus in an accidental or careless situation.

The main control board of the watch body 10 is connected with at least one of a heart rate detection circuit, an electrocardiogram measuring circuit, a blood pressure measuring circuit, a blood oxygen saturation measuring circuit and a blood fat measuring circuit. According to the corresponding functional circuit, the watch body shell 13 of the watch body 10 can be provided with a corresponding functional structure to obtain a corresponding biological data signal, and the functional circuit provided in the watch body 10 can detect various body indexes of the pregnant woman and judge the health state of the pregnant woman and the health state of the fetus in a public way by combining the fetal heart and fetal movement data detected by the health detection module 50.

In the technical solution of the present application, a mechanical switch, a touch switch or an induction may also be disposed on the health detection module 50, so that a user can operate to turn on or off the health detection module 50. Certainly, the display screen 11 may also be disposed on the module housing 51 of the health detection module 50, and the display screen 11 on the module housing 51 is directly utilized to display the data processed by the health detection module 50, and the display screen 11 may be an electronic ink display screen 11 or a light emitting diode display screen 11, so that the display screen 11 of the health detection module 50 has low power consumption and saves power consumption. It is understood that the display 11 disposed on the module housing 51 may also be a liquid crystal display 11 to improve the display effect.

Referring to fig. 5, the control board of the health detection module 50 is further provided with a data processor such as an amplifier 56 and a filter 57, the first acceleration sensor 535, the second acceleration sensor 54 and the pressure sensor 55 amplify the acquired data through the amplifier 56, the signals are further interfered by the filter 57 to be removed, the data processor is further connected to the microprocessor 60 and is converted into digital signals by an analog-to-digital converter 61 in the microprocessor 60, the microprocessor 60 is further connected to a wireless communication circuit 63 and a data wireless communication circuit 63, the microprocessor 60 can send the processed data to an external device through the wireless communication circuit 63 for processing or displaying, or store the processed data in the storage circuit 64 as a backup, so as to facilitate subsequent retrieval of the data. The health detection module 50 is further provided with a power circuit 62, the power circuit 62 may include a rechargeable battery connected to the microprocessor 60 and a corresponding charging circuit, and a connection terminal connected to the charging circuit, so that the charging device can be connected to the connection terminal to charge the charging circuit.

The Wireless Communication circuit 63 of the health detection module 50 may be a bluetooth (Blue Tooth) Communication circuit, a Wireless-broadband (Wireless-Fidelity) Communication circuit, or a Near Field Communication (NFC) circuit, and may have another Communication circuit configuration suitable for Wireless Communication.

When the health detection module 50 is provided with a communication interface, the communication structure can be directly connected with the main control board of the watch body 10 through a line, and the line can be arranged in the interlayer of the watchband 30, so that the outside of the line is invisible, and the health detection module 50 can communicate with the watch body 10. The other external devices may be connected to the communication interface of the health detection module 50 through data lines, so as to realize communication between the external devices and the health detection module 50.

When the health detection module 50 is connected to the watch body 10 by a wire, the health detection module 50 can be directly powered by the watch body 10 without providing a battery inside the health detection module 50.

The above description is only an alternative embodiment of the present application, and not intended to limit the scope of the present application, and all modifications and equivalents of the technical solutions that can be directly or indirectly applied to other related fields without departing from the spirit of the present application are intended to be included in the scope of the present application.

Claims

1. An intelligence wearing equipment which characterized in that includes:

the watchband is connected with two sides of the watch body shell; and

2. The intelligent wearable device of claim 1, wherein the pickup assembly comprises a pickup diaphragm and a sensing structure, the module housing defines a pickup hole, the pickup diaphragm is embedded in the pickup hole, and the sensing structure is connected to the pickup diaphragm and electrically connected to the control board.

3. The intelligent wearable device of claim 2, wherein the pickup diaphragm comprises a first pickup horn embedded in the pickup hole, the first pickup horn extends from an edge of the pickup hole to an inside of the module housing and gradually closes, and the sensing structure is connected to the inside of the module housing.

4. The intelligent wearable device of claim 3, wherein the pickup diaphragm further comprises a second pickup horn, the second pickup horn is circumferentially connected to the first pickup horn on one side of the module housing and extends towards the inside of the module housing away from the pickup hole and gradually converges, and the second pickup horn deviates from one side of the first pickup horn and is communicated with the sensing structure.

5. The smart wearable device of claim 2, wherein the sensing structure is a first acceleration sensor.

6. The intelligent wearable device of claim 5, wherein a second acceleration sensor is further disposed in the module housing, the second acceleration sensor is connected to the module housing, and the second acceleration sensor is electrically connected to the control board.

7. The intelligent wearable device according to claim 2, wherein a pressure sensor is further disposed in the module housing, the pressure sensor is connected to the module housing and to a wall of the housing where the sound pickup hole is located, and the pressure sensor is electrically connected to the control board.

8. The intelligent wearable device of any one of claims 2 to 7, wherein the module housing comprises a housing top wall, a housing bottom wall and a housing side wall circumferentially connecting the housing top wall and the housing bottom wall, the housing side wall is connected with the watchband, the housing bottom wall faces the watch body, and the sound pickup hole is opened in the housing top wall.

9. The intelligent wearable device according to claim 8, wherein the watch body case comprises a watch body top wall, a watch body bottom wall and a watch body side wall, wherein the watch body top wall and the watch body bottom wall are arranged oppositely, the watch body side wall is connected with the watchband, the watch body top wall is provided with the display screen, and the watch body bottom wall is arranged opposite to the case bottom wall.

10. The intelligent wearable device according to any one of claims 1 to 7, wherein the main control board is connected with at least one of a heart rate detection circuit, an electrocardiogram measurement circuit, a blood pressure measurement circuit, a blood oxygen saturation measurement circuit and a blood lipid measurement circuit.