阅读说明：本技术 一种用于检测人体体质的训练仪 (Training instrument for detecting human body constitution ) 是由 何江 袁玉潞 陈雅兰 于 2021-07-05 设计创作，主要内容包括：本发明提供的一种用于检测人体体质的训练仪,包括一个控制终端和多个训练模块,其中,各个训练模块均与控制终端通信连接,且各个训练模块均用于：在控制终端的控制下产生物理刺激信号,以及在产生物理刺激信号的过程中,若检测到有人体部位靠近则停止产生物理刺激信号并得到用户反应时长,并将用户反应时长反馈给控制终端。因此控制终端用于：多次控制多个训练模块中的任意一个产生物理刺激信号,以根据接收到的多个用户反应时长确定训练结果。与现有技术相比,本发明实施例中的训练仪仅包括控制终端和多个训练模块,而训练模块可以根据家庭等日常环境合理放置,因此,本发明实施例中的训练仪结构较为简单,且能够供用户在家庭等日常环境使用。(The invention provides a training instrument for detecting human physique, which comprises a control terminal and a plurality of training modules, wherein each training module is in communication connection with the control terminal and is used for: generating a physical stimulation signal under the control of the control terminal, stopping generating the physical stimulation signal and obtaining user reaction duration if the human body part is detected to be close to the physical stimulation signal in the process of generating the physical stimulation signal, and feeding back the user reaction duration to the control terminal. The control terminal is thus configured to: and controlling any one of the plurality of training modules to generate a physical stimulation signal for a plurality of times so as to determine a training result according to the received reaction duration of the plurality of users. Compared with the prior art, the training instrument in the embodiment of the invention only comprises the control terminal and the plurality of training modules, and the training modules can be reasonably arranged according to daily environments such as families, so that the training instrument in the embodiment of the invention has a simpler structure and can be used by users in the daily environments such as the families.)

1. A training apparatus for testing the physical quality of a human body, comprising:

a control terminal;

the training modules are in communication connection with the control terminal; each of the training modules is configured to: generating a physical stimulation signal under the control of the control terminal, stopping generating the physical stimulation signal and obtaining user reaction duration if the human body part is detected to be close to the control terminal in the process of generating the physical stimulation signal, and feeding back the user reaction duration to the control terminal;

the control terminal is used for: and controlling any one of the plurality of training modules to generate a physical stimulation signal for a plurality of times so as to determine a training result according to the received reaction duration of the plurality of users.

2. The training apparatus for testing human body constitution according to claim 1, wherein said plurality of training modules are distributed, and the linear distance value between every two training modules is larger than the preset distance threshold.

3. The training apparatus for detecting human body constitution according to claim 1, wherein said training module is provided with an optical element and an acoustic element;

the physical stimulation signal generated by the training module comprises: a visual stimulus signal generated by the optical element and/or an auditory stimulus signal generated by the acoustic element.

4. The training apparatus for detecting human body constitution according to claim 1, wherein said training module is provided with a proximity sensor;

the training module detects whether a human body part approaches through the proximity sensor in the process of generating the physical stimulation signal.

5. The training apparatus for testing body constitution according to any one of claims 1 to 4, wherein said plurality of training modules comprises a master training module and a plurality of slave training modules;

the master training module is in communication connection with the control terminal and each slave training module.

6. The training instrument for detecting the physique of the human body according to claim 5, wherein the communication mode between the main training module and the control terminal comprises a Bluetooth connection mode;

the communication mode between the master training module and the slave training module comprises a radio frequency broadcasting mode and a Mesh networking mode, wherein the master training module transmits data to the slave training module in the radio frequency broadcasting mode, and the slave training module transmits data to the master training module in the Mesh networking mode.

7. The training apparatus for testing body constitution according to any one of claims 1 to 4, wherein the control terminal is further configured to: controlling any one of the plurality of training modules to generate a physical stimulation signal for a plurality of times according to a control parameter item input by a user, wherein the control parameter item comprises at least one of the following items: user personal information, control times, attribute information of physical stimulus signal, or control interval time.

8. The training apparatus for testing body constitution according to any one of claims 1 to 4, wherein the control terminal is further configured to: and when any one of the plurality of training modules is controlled to generate the physical stimulation signal, if the user reaction time length is not received within the preset time length, the next control is carried out.

9. A training apparatus for testing body constitution according to any one of claims 1 to 4, wherein said training result comprises at least one of: number of tests, number of validations, or average reaction duration.

10. The training apparatus for testing body constitution according to any one of claims 1 to 4, wherein the control terminal is further configured to: sending the reaction duration of the plurality of users to a server to receive a training result returned by the server; and/or the control terminal is further used for: and displaying and storing the training result.

Technical Field

The invention relates to the technical field of biological training instruments, in particular to a training instrument for detecting the physique of a human body.

Background

The response speed of human body to the stimulation signal is an important content in human body constitution detection, and particularly, the speed of dynamic reflection of the nervous system of the human body can be tested through the detection content, so that the quality, the health condition, the quality of the psychological state and certain pathological changes of the human body are reflected.

The existing training instrument basically adopts a large-scale luminous plate type visual motion reaction training device, so that the training instrument is large in size and usually placed in a professional laboratory, and in addition, the training instrument needs to be trained and used under the guidance of professional technicians. However, rehabilitation training of the reaction force, the attention force and the motor ability of the nervous system-injured patient and the cognitive disorder patient is a long-term process, and therefore a training instrument which has a simple structure and can be used by the user in daily environments such as a family is needed.

Disclosure of Invention

Therefore, the invention aims to provide the training instrument for detecting the physique of the human body, which has a simple structure and can be used by users in daily environments such as families.

The embodiment of the invention provides a training instrument for detecting the physique of a human body, which comprises:

a control terminal;

the training modules are in communication connection with the control terminal; each of the training modules is configured to: generating a physical stimulation signal under the control of the control terminal, stopping generating the physical stimulation signal and obtaining user reaction duration if the human body part is detected to be close to the control terminal in the process of generating the physical stimulation signal, and feeding back the user reaction duration to the control terminal;

the control terminal is used for: and controlling any one of the plurality of training modules to generate a physical stimulation signal for a plurality of times so as to determine a training result according to the received reaction duration of the plurality of users.

Optionally, the plurality of training modules are arranged in a distributed manner, and a linear distance value between every two training modules is greater than a preset distance threshold.

Optionally, the training module is provided with an optical element and an acoustic element;

the physical stimulation signal generated by the training module comprises: a visual stimulus signal generated by the optical element and/or an auditory stimulus signal generated by the acoustic element.

Optionally, the training module is provided with a proximity sensor;

the training module detects whether a human body part approaches through the proximity sensor in the process of generating the physical stimulation signal.

Optionally, the plurality of training modules include a master training module and a plurality of slave training modules;

the master training module is in communication connection with the control terminal and each slave training module.

Optionally, the communication mode between the main training module and the control terminal includes a bluetooth connection mode;

the communication mode between the master training module and the slave training module comprises a radio frequency broadcasting mode and a Mesh networking mode, wherein the master training module transmits data to the slave training module in the radio frequency broadcasting mode, and the slave training module transmits data to the master training module in the Mesh networking mode.

Optionally, the control terminal is further configured to: controlling any one of the plurality of training modules to generate a physical stimulation signal for a plurality of times according to a control parameter item input by a user, wherein the control parameter item comprises at least one of the following items: user personal information, control times, attribute information of physical stimulus signal, or control interval time.

Optionally, the control terminal is further configured to: and when any one of the plurality of training modules is controlled to generate the physical stimulation signal, if the user reaction time length is not received within the preset time length, the next control is carried out.

Optionally, the training result includes at least one of: number of tests, number of validations, or average reaction duration.

Optionally, the control terminal is further configured to: sending the reaction duration of the plurality of users to a server to receive a training result returned by the server; and/or the control terminal is further used for: and displaying and storing the training result.

The embodiment of the invention provides a training instrument for detecting human physique, which comprises a control terminal and a plurality of training modules, wherein each training module is in communication connection with the control terminal, and is used for: generating a physical stimulation signal under the control of the control terminal, stopping generating the physical stimulation signal and obtaining user reaction duration if the human body part is detected to be close to the physical stimulation signal in the process of generating the physical stimulation signal, and feeding back the user reaction duration to the control terminal. The control terminal is thus configured to: and controlling any one of the plurality of training modules to generate a physical stimulation signal for a plurality of times so as to determine a training result according to the received reaction duration of the plurality of users. Compared with the prior art, the training instrument in the embodiment of the invention only comprises the control terminal and the plurality of training modules, and the training modules can be reasonably arranged according to daily environments such as families, so that the training instrument in the embodiment of the invention has a simpler structure and can be used by users in the daily environments such as the families.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a training apparatus for testing human body constitution according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an exemplary structure of a training module in an embodiment of the invention;

FIG. 3 is a schematic view of another embodiment of the training apparatus of the present invention;

fig. 4 is a schematic diagram of an exemplary circuit structure of the training module in the embodiment of the present invention.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the examples set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art.

Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided to give a thorough understanding of embodiments of the application. One skilled in the relevant art will recognize, however, that the subject matter of the present application can be practiced without one or more of the specific details, or with other methods, components, devices, steps, and so forth. In other instances, well-known methods, devices, implementations, or operations have not been shown or described in detail to avoid obscuring aspects of the application.

The block diagrams shown in the figures are functional entities only and do not necessarily correspond to physically separate entities. I.e. these functional entities may be implemented in the form of software, or in one or more hardware modules or integrated circuits, or in different networks and/or processor means and/or microcontroller means.

The embodiment of the invention provides a training instrument for detecting the physique of a human body, which comprises a control terminal and a plurality of training modules, wherein each training module is in communication connection with the control terminal, as shown in figure 1.

In some embodiments, the control terminal may include a smart phone, and the smart phone may install a designated application program to control each training module.

In some embodiments, each training module is to: generating a physical stimulation signal under the control of the control terminal, stopping generating the physical stimulation signal and obtaining user reaction duration if the human body part is detected to be close to the physical stimulation signal in the process of generating the physical stimulation signal, and feeding back the user reaction duration to the control terminal. That is, the training module starts timing when generating the physical stimulation signal, and stops timing when detecting that a human body part is close to, so that the user response time length can be obtained.

Based on this, the control terminal is configured to: and controlling any one of the plurality of training modules to generate a physical stimulation signal for a plurality of times so as to determine a training result according to the received reaction duration of the plurality of users.

In the embodiment of the invention, the user can start the test in a man-machine interaction mode, and the whole test process comprises a plurality of single tests. Under normal circumstances, a single test refers to: the control terminal controls any one of the training modules to generate a physical stimulation signal, so that a user can approach the training module by using a human body part (such as a hand), and the training module feeds back the user response time length to the control terminal. It can be understood that the control terminal can control any one training module to generate the physical stimulation signal for multiple times so as to determine the training result according to the received reaction durations of the multiple users, namely, the human body constitution test result.

In some embodiments, the training results may include at least one of: number of tests, number of validations, or average reaction duration. Illustratively, the number of times of the multiple control of the control terminal is 12, wherein 11 times can successfully receive the user reaction duration, the number of times of the test is 12, the number of times of the validity is 11, and the average reaction duration is an average value of the user reaction durations.

In summary, the training apparatus in the embodiment of the present invention only includes the control terminal and the plurality of training modules, and the training modules can be reasonably placed according to the daily environments of the family and the like, so the structure of the training apparatus in the embodiment of the present invention is simple, and the training apparatus can be used by the user in the daily environments of the family and the like.

In some embodiments, the plurality of training modules are distributed, and the straight-line distance value between every two training modules is greater than a preset distance threshold.

Specifically, in order to ensure the accuracy of the training result, a plurality of training modules need to be distributed, which can be simply understood as a distributed arrangement, for example, the training modules can be arranged on the ground, a table, a wall, and the like. Meanwhile, a certain distance must be kept between every two training modules, that is, the straight-line distance value between every two training modules must be greater than a preset distance threshold (for example, greater than 10 meters).

In some embodiments, the training module is provided with optical elements, acoustic elements, proximity sensors, power circuitry, and communication circuitry.

The power circuit is used for providing a working power supply for the training module, the communication circuit is used for being in communication connection with other modules (for example, in communication connection with the control terminal), and it should be noted that the power circuit and the communication circuit can be reasonably set according to actual conditions, and the embodiment of the present invention is not limited.

The optical element is used for generating a visual stimulation signal, the acoustic element is used for generating an auditory stimulation signal, namely, the training module can generate the visual stimulation signal through the optical element and can also generate the auditory stimulation signal through the acoustic element. It is understood that the physical stimulation signals generated by the training module include visual stimulation signals and/or auditory stimulation signals.

The proximity sensor is used for detecting whether a human body part is close to the training module, namely, the training module detects whether the human body part is close to the training module through the proximity sensor in the process of generating a physical stimulation signal.

For example, fig. 2 is an exemplary structural schematic diagram of the training module, as shown in the figure, the optical element may include 8 multi-color LED lamp beads, the acoustic element may include a micro-speaker, and the proximity sensor has a human proximity detection accuracy of 1 ms (for example, the proximity sensor employs APDS-9960).

In some embodiments, as shown in FIG. 3, the plurality of training modules includes a master training module and a number of slave training modules. The master training module is in communication connection with the control terminal and each slave training module.

Specifically, the communication mode between the main training module and the control terminal includes a bluetooth connection mode, that is, data transmission is performed between the main training module and the control terminal through bluetooth. The communication mode between the master training module and the slave training module comprises a radio frequency broadcasting mode and a Mesh networking mode, namely, the master training module transmits data to the slave training module in the radio frequency broadcasting mode, and the slave training module transmits the data to the master training module in the Mesh networking mode. Therefore, the main training module and the slave training module respectively receive and send out through the two communication modules, the mutual interference phenomenon can be reduced, the stability of data transmission is ensured, and the reliability of the training instrument is improved.

For example, as shown in fig. 4, the communication circuit in the training module may include two communication chips BK2461 and TLSR 8266. The BK2461 communication chip has a broadcast type transparent transmission wireless 2.4G function and a real-time transceiving function, so that a radio frequency broadcasting mode between the master training module and the slave training module can be realized through the BK2461 communication chip, for example, the master training module transmits data sent by the control terminal to the slave training module through the BK2461 communication chip. The TLSR8266 communication chip has functions of automatic connection and automatic data transceiving, so that the TLSR8266 communication chip of the master training module and the TLSR8266 communication chips of the slave training modules jointly form a Mesh network, that is, the Mesh networking mode between the master training module and the slave training modules can be realized through the TLSR8266 communication chip, for example, the slave training module transmits the obtained user reaction duration to the master training module through the TLSR8266 communication chip. In addition, the training module can also comprise a master control circuit (such as an ESP32 single chip microcomputer), so that data transmission can be carried out between the master training module and the control terminal through Bluetooth.

Based on this, in the whole test process, on one hand, the control terminal can directly control the main training module to generate a physical stimulation signal, and meanwhile, the main training module can directly feed back the obtained user response duration to the control terminal; on the other hand, the control terminal can control the slave training module to generate a physical stimulation signal through the master training module, and meanwhile, the user reaction duration obtained by the slave training module can be fed back to the control terminal through the master training module. Therefore, after the control terminal controls for multiple times, the training result can be determined according to the received reaction duration of the multiple users.

In some embodiments, the control terminal is further configured to: controlling any one of the plurality of training modules to generate the physical stimulation signal for a plurality of times according to a control parameter item input by a user, wherein the control parameter item comprises at least one of the following items: user personal information, control times, attribute information of physical stimulus signal, or control interval time.

In the embodiment of the invention, a user can control the whole test process in a man-machine interaction mode. Specifically, after the user inputs the user personal information on the control terminal, the control terminal may verify whether the user personal information input by the user is legal. In case of legitimacy, the user may continue to input at least one of the number of controls, the attribute information of the physical stimulus signal, or the control interval time on the control terminal. The control times refer to the total times of the control terminal controlling the training module to generate the physical stimulation signals, the attribute information of the physical stimulation signals refers to which physical stimulation signals the user wants the training module to generate, and the control interval time refers to the time between two adjacent control.

Illustratively, if the number of controls input by the user is 3, the attribute information of the physical stimulation signal is red light, and the control interval time is 0.5 second, the whole test process is as follows: the control terminal firstly controls any one training module (marked as a training module 1) to generate red light, when the human body part of a user approaches the training module 1, the training module 1 feeds back user reaction duration to the control terminal, the control terminal controls any one training module (marked as a training module 2) to generate red light after 0.5 second, when the human body part of the user approaches the training module 2, the training module 2 feeds back the user reaction duration to the control terminal, when the control terminal controls any one training module (marked as a training module 3) to generate red light after 0.5 second, when the training module 3 feeds back the user reaction duration to the control terminal when the human body part of the user approaches the training module 3, and the control terminal can determine the training result according to the three user reaction durations. It should be noted that, specifically, which training module is the training module 1, the training module 2, and the training module 3 may be determined by the control terminal, for example, randomly determined, which is not limited in this embodiment of the present invention.

In some embodiments, the control terminal is further configured to: when any one of the plurality of training modules is controlled to generate the physical stimulation signal, if the user reaction time length is not received within the preset time length, the next control is carried out.

Specifically, when the control terminal controls any one training module to generate the physical stimulation signal at a certain time, if the user response time fed back by the training module is not received within a certain time (namely within a preset time), the user response time is invalid at this time, so that the control terminal can directly perform the next control, and the reliability of the training instrument is improved.

In some embodiments, the control terminal is further configured to: sending the reaction duration of the plurality of users to a server to receive a training result returned by the server; and/or the control terminal is further used for: and displaying and storing the training result.

Specifically, after obtaining the user reaction durations, the control terminal may send the user reaction durations to the server through the network, so that the server may perform calculation and the like according to the user reaction durations to obtain a training result and return the training result to the control terminal. Obviously, after the control terminal obtains the training result, the training result can be displayed for the user to check, and the training result can be stored.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, so that any simple modification, equivalent change and modification made to the above embodiment according to the technical spirit of the present invention will still fall within the scope of the technical solution of the present invention without departing from the content of the technical solution of the present invention.