CN219579817U - Intelligent foot ring assembly - Google Patents

Abstract

The utility model discloses an intelligent foot ring assembly, which comprises a shell, a flexible binding belt and a plurality of intelligent foot ring assemblies, wherein the flexible binding belt is fixed at two ends of the shell; wherein, a pressure sensor, an acceleration sensor, a timing chip and a microcontroller are arranged in the shell; the probe of the pressure sensor is arranged towards the inner side of the shell; the pressure sensor, the acceleration sensor, the timing chip and the buzzer are respectively connected with the microcontroller, and the timing chip is also connected with the buzzer. Through the technical scheme, the ankle pump movement counting device can count ankle pump movements and perform effective early warning detection on rehabilitation training.

Description

Intelligent foot ring assembly

Technical Field

The utility model relates to the technical field of medical equipment, in particular to an intelligent foot ring assembly.

Background

At present, a plurality of patients need ankle pump exercise clinically, especially orthopedic lower limb fracture and operation and patients lying in bed for a long time due to disease need, thrombus is high in risk, so the ankle pump exercise is a non-therapeutic key nursing for preventing venous thrombosis, but the compliance of patients is insufficient, the implementation is not in place, and the medical care is busy due to work, and the implementation condition of the patients cannot be monitored frequently clinically or effectively. Based on the reasons, the utility model needs to find equipment which can not only effectively increase patient compliance, but also lighten medical care workload and achieve the purpose of effectively monitoring daily implementation conditions of patients, and designs a foot ring and a foot ring component which can be used for monitoring ankle pump motion counting and early warning monitoring.

Disclosure of Invention

In order to solve the problem that the motion counting and early warning monitoring of the ankle pump cannot be effectively monitored in the prior art, the utility model provides an intelligent foot ring assembly which can count the motion of the ankle pump and effectively early warning and detecting the rehabilitation training of the ankle pump.

In order to achieve the technical purpose, the utility model provides the following technical scheme: an intelligent foot ring assembly, comprising:

the shell, the flexible binding bands and the flexible binding bands are fixed at two ends of the shell;

wherein, a pressure sensor, an acceleration sensor, a timing chip and a microcontroller are arranged in the shell; the probe of the pressure sensor is arranged towards the inner side of the shell; the pressure sensor, the acceleration sensor, the timing chip and the buzzer are respectively connected with the microcontroller, and the timing chip is also connected with the buzzer.

Optionally, a heart rate sensor is further arranged inside the shell; wherein the heart rate sensor is connected with the microcontroller.

Optionally, a battery is further arranged in the shell, wherein the battery is a miniature lithium battery, and the miniature lithium battery is connected with the pressure sensor, the acceleration sensor, the clock chip, the buzzer and the microcontroller;

optionally, a switch device is disposed on the housing, wherein the switch device is connected between the micro lithium battery and the pressure sensor, the acceleration sensor, the clock chip, the buzzer and the microcontroller.

Optionally, a communication device is further disposed inside the housing, wherein the communication device is connected with the microcontroller.

Optionally, the communication device adopts one of a bluetooth module, a wifi module and a 5G module;

optionally, the system further comprises an intelligent terminal, wherein the intelligent terminal is in wireless connection with the communication device;

optionally, the intelligent terminal comprises a mobile phone, a tablet computer and a computer.

The utility model has the following technical effects:

according to the technical scheme, the flexible binding band can be adjusted according to the ankle joint size of a patient, so that the ankle joint is suitable for being worn by related personnel; meanwhile, a pressure sensor, an acceleration sensor and a microcontroller are used for collecting the patient exercise frequency counting signals, so that effective monitoring of the exercise frequency is ensured. Simultaneously, a timing chip and a buzzer are adopted, the sound alarm of the buzzer is used for reminding a patient and medical care at a certain time interval; the intelligent terminal can display the signals, and can observe the patient movement number, the patient movement times and the data derivation of the patient in the disease area.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions of the prior art, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a system structure according to an embodiment of the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In order to solve the problems existing in the prior art, the utility model provides the following scheme:

as shown in fig. 1, the present utility model provides an intelligent foot ring assembly, comprising:

the shell, the flexible binding bands and the flexible binding bands are fixed at two ends of the shell; the pressure sensor, the acceleration sensor, the clock chip, the microcontroller and the buzzer are arranged in the shell, and a probe of the pressure sensor is arranged towards the inner side of the shell; the pressure sensor, the acceleration sensor, the clock core and the buzzer are respectively connected with the microcontroller.

According to the foot ring assembly, the shell is fixed at the ankle of a detection person through the flexible binding band, when the detection person performs rehabilitation training of ankle pump movement, the angle of the upper surface of the ankle joint is reduced, the probe arranged on the inner side of the shell is extruded, so that signals output by the pressure sensor are changed, and the change of the displacement of the ankle position under the ankle pump movement is reduced, so that the change amount of the acceleration sensor is reduced, and the possibility of misjudgment caused by foot movement is reduced.

According to the foot ring assembly, the shell is fixed at the ankle through the flexible binding band, the probe on the inner side of the shell is contacted with the upper surface of the ankle, when the ankle pump moves, the pressure sensor detects pressure change at the ankle, the generated pressure signal is transmitted to the microcontroller, meanwhile, the acceleration sensor also transmits acceleration signals, and the pressure signals and the acceleration signals are transmitted to the microcontroller; the microcontroller judges the conventional threshold value, generates a signal to the timing chip, records the frequency of signal generation through conventional logic control, uses the signal corresponding to the frequency as the exercise frequency of a patient, resets the timing chip through conventional initialization of the timing chip, and when the micro control does not transmit related signals to the timing chip, generates a signal to the buzzer through the conventional logic control when the timing reaches a certain time through a conventional timing function, and the buzzer operates to generate sound to remind the patient to perform rehabilitation exercise.

In the structure, the pressure sensor adopts the MEMS pressure sensor chip, and the chip has small volume and high precision and can effectively detect the pressure at the ankle. The acceleration sensor adopts a triaxial MEMS acceleration sensor, has small volume and high precision, can effectively detect acceleration signals, and the microcontroller adopts an RL78/G15MCU, so that the acceleration sensor has small volume, is easy to integrate, has larger application range and high precision, can effectively collect signals and transmit signals, and simultaneously has simple threshold judgment and signal generation by internally loading a conventional and existing logic control program. The timing chip adopts an SD3068 series clock chip, realizes the functions of full-automatic and high-reliability timing without user intervention in normal temperature and wide temperature range, generates a signal for controlling the starting of the buzzer through the existing logic control program, triggers the buzzer, reminds relevant detection personnel to perform rehabilitation training, and ensures the motion degree of the relevant detection personnel.

The shell and the flexible binding belt can be conventional shells in the prior art, the shape and the characteristics of the shells are not limited, meanwhile, the flexible binding belt adopts the existing elastic devices such as magic tape, watchband or rubber band and the like, and the flexible binding belt is fixed on the shell through binding or hinging, and the proper wearing of related detection personnel is ensured through adjusting the connection length of the flexible binding belt.

The pressure sensor probe is arranged at the inner side of the shell, the pressure sensor is fixed in the shell in a conventional fixing mode such as an adhesive bonding mode or a welding mode, the acceleration sensor, the clock chip, the microcontroller and the buzzer are not required to be fixed in the shell in an adhesive bonding mode or other fixing modes, the pressure sensor of the device is required to be conventionally fixed according to the probe, the positions of other devices in the shell can be adjusted according to the requirements, namely, the positions in the shell are not particularly limited, and the pressure sensor is only ensured to be in the shell, and meanwhile, the circuit connection structures of different devices are ensured.

The pressure sensor, the acceleration sensor, the clock core and the buzzer are respectively connected with the microcontroller, and the signal transmission is ensured by adopting a conventional circuit connection mode or a conventional circuit integrated connection mode. The utility model mainly protects and limits the connection structure among devices, and adopts a conventional logic control processing mode;

the heart rate sensor is also used for detecting heart rate data of related detection personnel, and the MAX30102 heart rate sensor is adopted as the heart rate sensor, so that the monitored personnel are sick personnel, and information of the personnel at ordinary times is required to be detected, and the heart rate sensor can effectively detect heart rate signals of the sick personnel, so that the related medical personnel can know physiological conditions of patients. The heart rate sensor is small in size and easy to integrate, and can be fixed in the shell through an adhesive fixing mode. The heart rate sensor and the microcontroller can be connected through a conventional circuit connection mode and also can be connected through a conventional circuit integration connection mode;

the shell is internally provided with a battery, the battery is a miniature lithium battery, the lithium battery is fixed inside the shell and is adhered and fixed inside the shell, the battery provides electric energy for different sensors, the energy consumption of the sensors and devices is low, the miniature lithium battery can effectively supply power to the sensors and devices, the effective use of the miniature lithium battery is ensured, and the miniature lithium battery is connected with different devices through a circuit connection mode.

The shell is also fixedly provided with a switching device in a conventional fixing mode, the switching device adopts a miniature key switch or a miniature knob, and the switching device is electrically connected with a power supply bus of the battery to control the battery to supply power through the switch so as to achieve the switching control of different devices in the foot ring.

The shell is internally provided with a communication device, the communication device is fixedly bonded with the shell, the communication device is electrically connected with the microcontroller, signals generated by the pressure sensor, the acceleration sensor, the timing chip and the heart rate sensor are transmitted to the communication device in a conventional signal data transmission mode, the communication device wirelessly transmits the signals to the intelligent terminal, and the intelligent terminal is used as a display terminal to display the data. The communication device adopts one of a Bluetooth module, a wifi module and a 5G module, can be adjusted according to requirements, has small size and is easy to integrate, and the communication device is fixed in the shell and can effectively perform data transmission.

The communication device wirelessly transmits the pressure signal, the acceleration signal, the heart rate signal and the signals corresponding to the recording times to the intelligent terminal, the intelligent terminal is used as a display terminal, the transmitted signals are displayed in a conventional manner, the number of each group of signals is displayed, the signals can be regarded as the number of people in sports, the signals are displayed, remote data checking and detection are carried out, and the intelligent terminal can adopt one or more of a mobile phone, a tablet personal computer and a computer.

Meanwhile, when the intelligent terminal adopts a computer, the computer is used as a remote detection terminal to print relevant data of a patient on paper in a conventional printing mode, and the data of the patient is exported.

Through the technical scheme, the ankle pump motion of a patient can be effectively counted through the connection mode of the pressure sensor, the acceleration sensor and the microcontroller, the rehabilitation training is effectively early-warning and detected through the connection structure of the timing chip and the buzzer, meanwhile, the communication device is used for remotely monitoring signals by a method of wirelessly connecting the communication device with a computer, data are exported, and effective monitoring of a patient is guaranteed.

The technical scheme of the utility model protects the connection structure between the devices, and the devices adopt the conventional logic control program or other conventional programs.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims (8)

1. An intelligent foot ring assembly, comprising:

the shell, the flexible binding bands and the flexible binding bands are fixed at two ends of the shell;

wherein, a pressure sensor, an acceleration sensor, a timing chip and a microcontroller are arranged in the shell; the probe of the pressure sensor is arranged towards the inner side of the shell; the pressure sensor, the acceleration sensor, the timing chip and the buzzer are respectively connected with the microcontroller, and the timing chip is also connected with the buzzer.

2. An intelligent foot ring assembly according to claim 1, wherein:

a heart rate sensor is also arranged in the shell; wherein the heart rate sensor is connected with the microcontroller.

3. An intelligent foot ring assembly according to claim 1, wherein:

the shell is internally provided with a battery, wherein the battery is a miniature lithium battery, and the miniature lithium battery is connected with a pressure sensor, an acceleration sensor, a clock chip, a buzzer and a microcontroller.

4. An intelligent foot ring assembly according to claim 3, wherein:

the shell is provided with a switch device, wherein the switch device is connected between the miniature lithium battery and the pressure sensor, the acceleration sensor, the clock chip, the buzzer and the microcontroller.

5. An intelligent foot ring assembly according to claim 1, wherein:

and a communication device is also arranged in the shell, wherein the communication device is connected with the microcontroller.

6. The intelligent foot ring assembly according to claim 5, wherein:

the communication device adopts one of a Bluetooth module, a wifi module and a 5G module.

7. The intelligent foot ring assembly according to claim 6, wherein:

the intelligent terminal is connected with the communication device in a wireless mode.

8. The intelligent foot ring assembly according to claim 7, wherein:

the intelligent terminal comprises a mobile phone, a tablet personal computer, a computer and a computer.