CN210722471U - Motion management device capable of feeding back human body physiological information and motion information in real time - Google Patents

Abstract

The utility model discloses a can feed back human physiology information and motion information's motion management device in real time, including a user module, a motion ware module and a management module, wherein the user's of this user module listening physiological information, to this motion ware module conveying user identifier and physiological information, this motion ware module picks up the motion information that motion fitness equipment moved, and to this management module conveying this user identifier, this physiological information, motion ware identifier and this motion information, this management module conveys the management message to this motion ware module. Therefore, the sport information and the human body physiological information of a specific person when the specific person uses the specific sport fitness equipment to do sports are combined into personalized information.

Description

Motion management device capable of feeding back human body physiological information and motion information in real time

Technical Field

The utility model relates to a motion body-building field especially indicates a motion management device that can feed back human physiology information and motion information in real time.

Background

The proper exercise is beneficial to promoting the health and releasing the pressure, is limited by the working time, the weather, the field and other environmental conditions, the life form of doing exercise in the gymnasium is gradually developed in recent years, and people can use a plurality of different types of sports equipment to do different forms of exercise in the gymnasium under the guidance of professional coaches and based on the personal requirements.

The existing sports equipment can detect and record the information of the use process and provide the information for a user or a coach to look up, and the existing sports equipment also can have a sensor which is worn by the person during sports and is used for sensing and recording the physiological information of heartbeat and the like when the person is engaged in sports and providing the reference for the user to look up as whether the sports goal is achieved.

The following problems still exist in the practical use experience of the structural form: the gymnasium is provided with a plurality of different forms of sports apparatuses, each form of sports apparatus usually has a plurality of even dozens, and the gymnasium often has a plurality of users to use a plurality of sports apparatuses of the same form or different forms to do exercises simultaneously, and individual users often replace a plurality of different sports apparatuses in the same exercise period, the existing sports apparatuses cannot distinguish the using state of a specific user, the personal wearable sensor cannot identify the type of doing exercises, and the requirements of the users or coaches for judging whether to strengthen or change the exercise form exist are not facilitated.

SUMMERY OF THE UTILITY MODEL

The main objective of the present invention is to provide an interactive exercise management device combining human physiological information and exercise information.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a motion management device capable of feeding back human body physiological information and motion information in real time comprises a user module, a motion device module and a management module, wherein the user module is arranged on a wearable device worn by a user, the motion device module is arranged on a motion body builder, the user module transmits information to the motion device module, and the motion device module and the management module transmit information to each other;

the user module comprises a physiological information acquisition device, a first microcontroller and a first wireless communicator, wherein the physiological information acquisition device and the first wireless communicator are respectively coupled with the first microcontroller, so that the first microcontroller respectively controls the physiological information acquisition device and the first wireless communicator; the physiological information acquisition device is used for sensing physiological information of a user and transmitting the physiological information to the first microcontroller, a user identifier is built in the first microcontroller, the first microcontroller transmits the user identifier and the physiological information to the first wireless communicator, and the first wireless communicator is used for sending the user identifier and the physiological information to the outside;

the motion device module comprises a second microcontroller, a second wireless communicator, a motion information acquisition device, a first display, a first operation unit and a second operation unit, wherein the second wireless communicator, the motion information acquisition device, the first display, the first operation unit and the second operation unit are respectively coupled with the second microcontroller so that the second microcontroller respectively controls the second wireless communicator, the motion information acquisition device and the first display; the motion information acquisition device is used for acquiring motion information of the motion body builder and transmitting the motion information to the second microcontroller, the second microcontroller is provided with a motion device identifier inside, the second wireless communicator is used for receiving the user identifier, the physiological information and the management message sent by the management module, and sends the user identifier, the physiological information, the exercise information and the exercise device identifier to the management module, the first display is used for displaying the state of the exercise device, the first operation unit is a control loop, used for sending a control instruction to the second microcontroller, thereby controlling the exercise device module to receive the physiological information transmitted by the user module, the second operation unit is a control loop and is used for sending a control instruction to the second microcontroller, and accordingly controlling the exercise device module to interrupt and receive the physiological information transmitted by the user module;

the management module comprises a third microcontroller, a third wireless communicator and a storage, wherein the third microcontroller is coupled with the third wireless communicator and the storage, so that the third microcontroller controls the third wireless communicator, the third wireless communicator is used for receiving the user identifier, the physiological information, the exercise information and the exerciser identifier and sending management information, so that the user or a coach judges whether exercise items or intensity need to be adjusted, the third microcontroller is used for processing the user identifier, the physiological information, the exercise information and the exerciser identifier and storing the user identifier, the physiological information, the exercise information and the exerciser identifier in the storage unit.

By this innovative unique design, make the utility model discloses contrast prior art, motion information and human physiology information combination become individualized information when can using specific motion fitness equipment to engage in the motion with specific personage, whether need strengthen, reduce or change the motion form as the judgement, satisfy the user to the demand of specific motion purpose to avoid excessive motion to cause the injury, even in the occasion that many people used a plurality of motion fitness equipments, each user's individualized physiology information and motion information can clearly and definitely distinguish.

Another objective of the present invention is to provide a sports module for use in the exercise management device capable of feeding back human physiological information and exercise information in real time.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention.

Fig. 2 is a circuit block diagram of a subscriber module according to an embodiment of the present invention.

Fig. 3 is a circuit block diagram of a sports module according to an embodiment of the present invention.

Fig. 4 is a circuit block diagram of a management module according to an embodiment of the present invention.

FIG. 5 is a logic block diagram illustrating operation of an embodiment of the present invention.

Fig. 6 is a circuit block diagram of a management module according to a second embodiment of the present invention.

Fig. 7 is a circuit block diagram of a sports module according to a third embodiment of the present invention.

Fig. 8 is a circuit block diagram of a management module according to a fourth embodiment of the present invention.

Fig. 9 is a circuit block diagram of a subscriber module according to a fifth embodiment of the present invention.

Fig. 10 is an on-line schematic diagram of a sixth embodiment of the present invention.

Fig. 11 is a schematic diagram of a seventh embodiment of the present invention.

Detailed Description

The drawings illustrate several embodiments of the invention which can be practiced without limitation to the specific details, but are for explanation and not for limitation to the claimed invention.

As shown in fig. 1, the utility model relates to a can feed back human physiology information and motion information's motion management device's embodiment one in real time, including a user module 10, a exerciser module 20 and a management module 30, wherein this user module 10 can locate one of user's personal wearing and dress the device (not shown), this dress device can be the pectoral girdle of wearing in this user's chest, dress in the wrist band, dress in the binder of upper arm or other can set up in this user's health, and can not cause the device of adverse effect to this user's motion, a motion fitness equipment (not shown) is located to this exerciser module 20, this user module 10 transmits the message to this exerciser module 20, this exerciser module 20 and this management module 30 mutual transmission message.

As shown in fig. 1 and 2, the user module 10 includes a physiological information extractor 11, a first Microcontroller 12 and a first wireless communicator 13, wherein the physiological information extractor 11 and the first wireless communicator 13 are respectively coupled to the first Microcontroller 12, so that the first Microcontroller 12 controls the physiological information extractor 11 and the first wireless communicator 13 respectively, the physiological information extractor 11 is used for sensing physiological information of the user and transmitting the physiological information to the first Microcontroller 12, the physiological information includes one or more of a heartbeat frequency value, a respiration frequency value and a body temperature, the physiological information is not limited to only the heartbeat, the respiration frequency value and the body temperature listed above, the first Microcontroller 12 is a Microcontroller Unit (MCU, abbreviated as MCU), the first Microcontroller 12 has a user identifier built therein, the user identifier is used as a basis for the management module 30 to determine that the physiological information captured by the physiological information capturing device 11 is from a specific user, the first microcontroller 12 transmits the user identifier and the physiological information to the first wireless communicator 13, and the first wireless communicator 13 is used for externally transmitting the user identifier and the physiological information.

As shown in fig. 1 and 3, the exercise module 20 includes a second microcontroller 21, a second wireless communicator 22, an exercise information extractor 23, a first display 24, a first operation unit 25 and a second operation unit 26, wherein the second wireless communicator 22, the exercise information extractor 23, the first display 24, the first operation unit 25 and the second operation unit 26 are respectively coupled to the second microcontroller 21, so that the second microcontroller 21 respectively controls the second wireless communicator 22, the exercise information extractor 23 and the first display 24, the exercise information extractor 23 is used for extracting exercise information actuated by the exercise exerciser and transmitting the exercise information to the second microcontroller 21, the second microcontroller 21 is a microcontroller, an exercise identifier is built in the second microcontroller 21, and the exercise identifier is used as the exercise information extractor 23 of the management module 30 to determine whether the exercise information is extracted by the exercise information extractor 23 The information is from the basis of the specific exercise device, the second wireless communicator 22 is used for receiving the user identifier, the physiological information and the management message sent by the management module 30, and sending the user identifier, the physiological information, the exercise information and the exercise device identifier to the management module 30, the first display 24 is used for displaying the state of the exercise device, the first operation unit 25 is a control loop and is used for providing the user operation, accordingly, a control instruction is sent to the second microcontroller 21, the exercise device module 20 is controlled to receive the physiological information sent by the user module 10, the second operation unit 26 is a control loop and is used for providing the user operation, accordingly, a control instruction is sent to the second microcontroller 21, and the exercise device module 20 is controlled to interrupt receiving the physiological information sent by the user module 10.

As shown in fig. 1 and 4, the management module 30 includes a third microcontroller 31, a third wireless communicator 32 and a storage 33, wherein the third microcontroller 31 is coupled to the third wireless communicator 32 and the storage 33, so that the third microcontroller 31 controls the third wireless communicator 32, the third wireless communicator 32 is configured to receive the user identifier, the physiological information, the exercise information and the exercise identifier and send management messages to the outside, and the third microcontroller 31 is a microcontroller configured to process the user identifier, the physiological information, the exercise information and the exercise identifier and store the processed user identifier, physiological information, exercise information and exercise identifier in the storage unit 33.

With the above structure, the operation of the first embodiment of the present invention is described as follows:

as shown in fig. 1 to 5, based on the situation that the user module 10 transmits the signal including the user identifier and the physiological information through the first wireless communicator 13, the exerciser module 20 searches whether any user module 10 exists in the environment of the exercise exerciser, which uses the second wireless communicator 22 to receive any signal including the user identifier and transmits the received user identifier to the second microcontroller 21, the second microcontroller 21 controls the first display 24 to display the user identifier, at this time, the second wireless communicator 22 receives one or more different signals including the user identifier, and the user identifiers of the signals are different, the second microcontroller 21 controls the first display 24 to correspondingly display one or more different user identifiers according to the signal received by the second wireless communicator 22, the user selects the user identifier corresponding to the user module 10 configured in the self-wearing device, and operates the first operation unit 25, so that the exerciser module 20 accepts the physiological information transmitted by the user module 10, and rejects to accept the physiological information transmitted by other user modules, thereby completing the pairing between the user module 10 and the exerciser module 20.

Based on the situation that the exercise module 20 receives the user identifier and the physiological information transmitted by the user module 10, the exercise information extractor 23 starts to continuously extract the exercise information actuated by the exercise machine and transmits the exercise information to the second microcontroller 21, the user can start to use the exercise machine to perform exercise, the user module 10 continuously detects the physiological information of the user and transmits the physiological information to the exercise machine module 20, and the second microcontroller 21 transmits the physiological information, the user identifier, the exercise information and the built-in exercise machine identifier of the second microcontroller 21 to the management module 30 through the second wireless communicator 22; meanwhile, the second microcontroller 21 can also selectively control the first display 24 to synchronously display the physiological information and the exercise information, so as to provide the user with real-time understanding of the change of the physiological status and the exercise intensity.

The third wireless communicator 32 of the management module 30 receives the message including the physiological information, the user identifier, the exercise information and the exercise identifier transmitted from the second wireless controller 22 and transmits the message to the third microcontroller 31, and the third microcontroller 31 interprets and processes the message and stores the physiological information, the exercise information and the exercise identifier into the data block having the same user identifier in the storage 33 according to the user identifier.

According to the foregoing, the present invention can combine the human body information of a specific person with the exercise information of the specific person during exercise, and provide the specific person and the professional coach to view at any time as the reference for selection and strength of exercise and fitness items in the future.

It should be noted that, in an environment with a plurality of exercise equipments of the same or different types, when a plurality of persons are engaged in exercise at the same time, the exercise equipment module 20 can identify a plurality of different user modules 10 by the user identifier, and transmit the physiological information generated by the specific user module 10 and the exercise information generated by the exercise module 20 to the management module 30, the management module 30 can identify a plurality of different user modules 10 and a plurality of different exercise equipment modules 20 by the user identifier and the exercise equipment identifier, so that the management module 30 can bind the physiological information and the exercise information generated by the specific persons engaged in exercise by the specific exercise equipment, and the information stored in the storage 33 after the physiological information and the exercise information are interpreted can easily achieve personalized management, each set of personalized information stored in the storage 33 can show the items engaged in exercise by the specific persons, Intensity and duration to facilitate the user or trainer in determining whether there is a need to strengthen, reduce exercise intensity or change exercise form, to meet the user's needs for specific exercise purposes and to avoid injury from excessive exercise.

The management module 30 can actively transmit the physiological information and the exercise information to an external device or a cloud terminal authorized in advance by using the third wireless communicator 32 according to the user identifier, wherein the external device can be a mobile communication device held by the user or a mobile communication device held by a coach or a management system of a sports fitness center, and the management system provides the user or the coach with judgment on whether the exercise item or the intensity needs to be further adjusted.

Furthermore, based on the situation that the exercise module 20 transmits the physiological information, the user identifier, the exercise information and the exercise identifier to the management module 30, if the user needs to stop using the exercise device, the user can select to operate the second operation unit 26, at this time, the second operation unit 26 sends a signal to the second microcontroller 21, after the second microcontroller 21 interprets the physiological information, the user module 10 is interrupted to receive the physiological information, the exercise information extractor 23 sends a signal to stop extracting the exercise information, the exercise module 20 returns to search any state of the user module 10, and the user can leave the exercise device to select rest or use other exercise devices for exercise.

Further, the first operating unit 25 and the second operating unit 26 can be respectively provided with a button or a knob or other switches for user selection, and the first operating unit 25 and the second operating unit 26 can also be respectively selected to display a fixed ICON (ICON) for user touch operation or a continuously and dynamically changing image for sliding operation on the first display 24.

The second embodiment is obtained by changing the first embodiment, and the second embodiment is the same as the first embodiment and has the same structure, as shown in fig. 6, mainly, the management module 30 further includes a second display 35, the second display 35 is electrically connected to the third microcontroller 31, and the second display 35 is used for displaying the physiological information and the exercise information; accordingly, the physiological information and the exercise information generated by the user using the exercise device can be displayed on the second display 35 in real time, so as to provide a coach to judge whether the exercise item or intensity needs to be further adjusted.

The third embodiment is obtained by changing the first embodiment, and the third embodiment is the same as the first embodiment and is repeatedly described, as shown in fig. 7, the third embodiment is different from the first embodiment mainly in that the exercise module 20 further includes a first alarm 27, the first alarm 27 is electrically connected with the second microcontroller 21, and the first alarm 27 is used for generating an alarm message.

Third embodiment, besides performing the same operation as the first embodiment, the management module (not shown) compares the received physiological information with a default warning threshold, when the physiological information is higher or lower than the warning threshold, the management module transmits a signal to the exerciser module 20, the second microcontroller 21 controls the first warning device 27 to generate a warning message based on the signal, thereby prompting the user to stop exercise or gradually and gently exercise, and other people in the environment of the exercise machine can take corresponding assistance or rescue measures in time through the warning message, so as to reduce the risk of unexpected events.

The first alarm 27 may be one or more of a buzzer, a warning light, and other devices capable of emitting warning sound or warning light, and the exercise device module 20 may also be selectively configured to display a warning message on the first display 24.

The fourth embodiment is obtained by changing the third embodiment, and the composition of the fourth embodiment is the same as that of the third embodiment, as shown in fig. 8, the composition of the fourth embodiment is mainly different from that of the third embodiment in that the management module 30 further includes a second alarm 34, the second alarm 34 is electrically connected to the third microcontroller 31, and the second alarm 34 is used for generating an alarm message.

In addition to performing the same operation as the previous embodiment, when the physiological information is higher or lower than the preset warning threshold, the management module 30 transmits a signal to the exercise module, and the third microcontroller 31 controls the second warning device 34 to generate a warning message, so as to prompt a system manager or a coach of the gym to be a remote worker, so that the worker can take corresponding assistance or rescue measures in time, and the risk of an accident is reduced.

The second alarm 34 may be one or more of a buzzer, a warning light and other devices capable of emitting warning sound or warning light, and in the fourth embodiment, the second alarm may also be similar to the second embodiment, and optionally further includes a second display (not shown), so as to form an alternative embodiment of the fourth embodiment, and display the warning message by using the second display.

The fifth embodiment is obtained by changing the first embodiment, and the same composition as that of the first embodiment is repeatedly described, as shown in fig. 9, the fifth embodiment is different from the first embodiment mainly in that the subscriber module 10 further includes a start switch 14, and the start switch 14 is electrically connected to the first microprocessor 12, so as to control the subscriber module 10 to operate or stop operating; when the user wants to use the exercise exerciser to perform exercise, the start switch 14 is operated to start the user module 10, the user module 10 starts to detect the physiological information of the user and transmits the user identifier and the physiological information to the outside, and when the user stops using the exercise exerciser, the start switch 14 is operated to stop the user module 10, so that the power consumption is reduced and the service life of the user module 10 is prolonged.

A sixth embodiment is obtained by changing the first embodiment, and as shown in fig. 10, the sixth embodiment includes a user module 10, a plurality of exercise device modules 20, and a management module 30, wherein the user module 10 can be installed on a wearable device (not shown), each exercise device module 20 is installed on a plurality of exercise devices (not shown), the user module 10 can selectively transmit a message to any exercise device module 20 according to the operation of any exercise device module 20 by the user, and each exercise device module 20 and the management module 30 transmit messages to each other; the specific configurations of the user module 10, each of the exerciser modules 20, and the management module 30 according to the sixth embodiment may be the same as those of the user module 10, the exerciser module 20, and the management module 30 according to the first embodiment, the second embodiment, the third embodiment, or the fourth embodiment.

The seventh embodiment is obtained by changing the first embodiment, and as shown in fig. 11, the seventh embodiment includes a plurality of user modules 10, a plurality of exerciser modules 20 and a management module 30, wherein each user module 10 can be respectively installed on different wearing devices (not shown) for different users to wear, each exerciser module 20 is respectively installed on a plurality of exercise fitness machines (not shown), each exerciser module 20 is selectively and respectively operated by each user, each user module 10 can selectively and respectively transmit messages to different exerciser modules 20, and each exerciser module 20 and the management module 30 can mutually transmit messages; the specific configurations of each user module 10, each exerciser module 20 and the management module 30 of the seventh embodiment may be the same as those of the user module 10, the exerciser module 20 and the management module 30 of the first embodiment, the second embodiment, the third embodiment or the fourth embodiment.

The utility model discloses motion information and human physiology information when can using specific motion fitness equipment to engage in the motion with specific personage combine, provide this user or professional coach and use, whether need strengthen, reduce or change the motion form as the judgement, satisfy the demand of this user to specific motion purpose to avoid excessive motion to cause the injury, in spite in the occasion that many people used a plurality of motion fitness equipments, each user's individualized physiology information and motion information can make clear and definite difference.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A motion management device capable of feeding back human body physiological information and motion information in real time is characterized in that: the exercise device comprises a user module, an exerciser module and a management module, wherein the user module is arranged on a wearable device worn by a user, the exerciser module is arranged on an exercise body builder, the user module transmits information to the exerciser module, and the exerciser module and the management module transmit information mutually;

the user module comprises a physiological information acquisition device, a first microcontroller and a first wireless communicator, wherein the physiological information acquisition device and the first wireless communicator are respectively coupled with the first microcontroller, and the first microcontroller respectively controls the physiological information acquisition device and the first wireless communicator;

the physiological information acquisition device is used for sensing physiological information of the user and transmitting the physiological information to the first microcontroller, a user identifier is built in the first microcontroller, the first microcontroller transmits the user identifier and the physiological information to the first wireless communicator, and the first wireless communicator is used for sending the user identifier and the physiological information to the outside;

the motion device module comprises a second microcontroller, a second wireless communicator, a motion information acquisition device, a first display, a first operation unit and a second operation unit, wherein the second wireless communicator, the motion information acquisition device, the first display, the first operation unit and the second operation unit are respectively coupled with the second microcontroller so that the second microcontroller respectively controls the second wireless communicator, the motion information acquisition device and the first display; the motion information acquisition device is used for acquiring motion information of the motion body builder and transmitting the motion information to the second microcontroller, the second microcontroller is provided with a motion device identifier inside, the second wireless communicator is used for receiving the user identifier, the physiological information and the management message sent by the management module, and sends the user identifier, the physiological information, the exercise information and the exercise device identifier to the management module, the first display is used for displaying the state of the exercise device, the first operation unit is a control loop, used for sending a control instruction to the second microcontroller, controlling the exercise device module to receive the physiological information transmitted by the user module, the second operation unit is a control loop and is used for sending a control instruction to the second microcontroller and controlling the exercise device module to interrupt and receive the physiological information transmitted by the user module;

the management module comprises a third microcontroller, a third wireless communicator and a storage, wherein the third microcontroller is coupled with the third wireless communicator and the storage, the third microcontroller controls the third wireless communicator, the third wireless communicator is used for receiving the user identifier, the physiological information, the motion information and the motion device identifier and sending management information, and the third microcontroller is used for processing the user identifier, the physiological information, the motion information and the motion device identifier and storing the user identifier, the physiological information, the motion information and the motion device identifier in the storage unit.

2. The exercise management device of claim 1, wherein the management module further comprises a second display electrically connected to the third microcontroller, the second display being used for displaying the physiological information and the exercise information.

3. The exercise management apparatus according to claim 1 or 2, wherein the exercise module further comprises a first alarm electrically connected to the second microcontroller.

4. The exercise management device as claimed in claim 3, wherein the first alarm is a buzzer or a warning light.

5. The exercise management device of claim 3, wherein the management module further comprises a second alarm electrically connected to the third microcontroller.

6. The exercise management apparatus according to claim 1 or 2, wherein the physiological information includes at least one of a heartbeat frequency value, a respiration frequency value and a body temperature.

7. The exercise management apparatus according to claim 3, wherein the physiological information includes at least one of a heartbeat frequency value, a respiration frequency value and a body temperature.

8. The exercise management device of claim 1, wherein the user module further comprises a start switch electrically connected to the first microprocessor for controlling the user module to operate or stop operating.

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