CN213910256U - Wearable equipment based on noninvasive cardiac function instrument real-time assessment motion intensity - Google Patents

Abstract

Based on the utility model discloses a wearable equipment based on do not have real-time aassessment motion intensity of wound heart function appearance, including do not have heart function monitor, flesh oxygen monitor, signal converter and terminal processor. Specifically, no heart function monitor of creating includes monitor body, electrode pad group, blood pressure sleeve area, cable conductor, rechargeable battery group, and muscle oxygen monitor includes shank bandage body, muscle oxygen sensor, bluetooth transmitter, rechargeable battery group, and terminal processor includes operating system, memory, display screen, bluetooth receiver, data processing module, rechargeable battery group. The noninvasive cardiac function monitor can obtain a plurality of hemodynamic parameter indexes, the myooxygen monitor can obtain myooxygen evaluation indexes, and the terminal processing can further obtain real-time exercise intensity. The utility model discloses help the user scientifically to carry out real-time supervision to the motion intensity, reduce the condition emergence excessive or not enough to the motion, make the exercise effect can keep under the most ideal motion intensity.

Description

Wearable equipment based on noninvasive cardiac function instrument real-time assessment motion intensity

Technical Field

The utility model relates to a motion monitoring facilities field especially relates to a wearable equipment based on there is not real-time aassessment motion intensity of wound cardiac function appearance

Background

The muscle oxygen is a blood oxygen saturation parameter in human skeletal muscle tissue, is used for evaluating the oxygen consumption and oxygen transportation capacity of target muscle, is simple to collect and can effectively reflect exercise intensity, and the existing exercise intensity monitoring equipment usually adopts a single index to evaluate the exercise intensity, but has the problem of single evaluation index, and is difficult to comprehensively reflect the exercise intensity from multiple angles. The hemodynamics is the physics of blood moving in the circulatory system, and the movement of blood in the circulatory system is observed and researched by analyzing three factors of acting force, flow and volume. The noninvasive cardiac function monitor can monitor hemodynamics indexes such as initial continuous cardiac output CO, heart rate HR, stroke volume SV, stroke volume variation SVV, stroke volume index SVI, noninvasive blood pressure NIBP, total peripheral resistance TPR, total peripheral resistance index TPRI, cardiac power CP, cardiac power index CPI, thoracic cavity body fluid trend dTFC and the like, has the advantages of noninvasiveness, accuracy and real-time performance, can effectively avoid infection and vascular injury caused by a traditional invasive method, and has the problem of unreliable evaluation results.

Therefore, the exercise intensity is evaluated from multiple angles by combining the muscle oxygen parameter index and the selected partial haemodynamics index, the real-time monitoring of the exercise is carried out, the occurrence of the condition of excessive exercise or insufficient exercise is reduced, and the exercise effect can be kept under the optimal exercise intensity.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a wearable equipment based on do not have real-time aassessment motion intensity of wound heart function appearance to solve the problem that can real-time, accurately monitor motion intensity in the original place motion.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model aims at providing a wearable equipment based on do not have real-time aassessment exercise intensity of heart function appearance of wound, including do not have heart function monitor, flesh oxygen monitor, signal converter and terminal processor.

The noninvasive cardiac function monitor comprises a monitor body, an electrode patch group, a blood pressure cuff, a cable and a rechargeable battery pack.

Muscle oxygen monitor includes shank bandage body, muscle oxygen sensor, bluetooth transmitter, rechargeable battery group.

The terminal processor comprises an operating system, a memory, a display screen, a Bluetooth receiver, a data processing module and a rechargeable battery pack.

Preferably, the noninvasive cardiac function monitor can obtain a plurality of hemodynamic parameter indexes, the myooxygen monitor can obtain myooxygen parameter indexes, and the terminal processor combines the indexes to process to obtain real-time exercise intensity.

Preferably, the utility model discloses equipment is applicable to the motion intensity assessment of original place motion scene

Preferably, each data index of the utility model device is obtained by a non-invasive acquisition means, and three devices of an electrode patch group, a blood pressure cuff and a leg bandage are used.

Preferably, the rechargeable battery pack can be repeatedly charged and used to provide power support for each device.

Preferably, a rear panel wire serial port arranged in the monitor body can be connected with the receiving end of the signal converter through a USB data line, and the signal converter can receive the monitoring data of the monitor body and send the monitoring data from the sending end.

Preferably, the noninvasive cardiac function monitor is processed through a USB data line and is sent to the terminal in real time through a signal converter, and the myooxygen monitor is sent to the terminal in real time through a built-in Bluetooth transmitter.

Compared with the prior art, the beneficial effects of the utility model are that:

first, the utility model provides a wearable equipment based on do not have real-time aassessment intensity of motion of wound cardiac function appearance utilizes the do not have the cardiac function monitor of wound to obtain a plurality of hemodynamic parameter indexes, utilizes the flesh oxygen monitor to obtain flesh oxygen evaluation index, combines flesh oxygen parameter index and the partial hemodynamic index of choosing to make the index of choosing more comprehensive, can assess intensity of motion from the multi-angle.

Second, the utility model provides a pair of wearable equipment based on do not have real-time aassessment motion intensity of wound heart function appearance, through the monitoring data based on medical special instrument equipment gathers, monitoring data is accurate reliable, is different from traditional motion intensity monitoring facilities error and obviously exists the not enough that influences the authenticity of result.

Third, the utility model provides a pair of wearable equipment based on do not have real-time aassessment motion intensity of heart function appearance of wound is applied to monitoring devices on the wearable equipment to through wireless and the wire communication between the network with monitoring data real-time transmission to terminal processor, can reach the effect of real-time supervision motion intensity.

Drawings

Fig. 1 is a structural diagram of the working principle of a wearable device system for real-time evaluation of exercise intensity based on a noninvasive cardiac function instrument provided by the utility model;

fig. 2 is a schematic diagram of a wearable device noninvasive cardiac function monitor body for real-time assessment of exercise intensity based on a noninvasive cardiac function monitor provided by the utility model;

fig. 3 is a schematic view of a structure of a leg strap of a wearable device for real-time evaluation of exercise intensity based on a noninvasive cardiac function instrument provided by the present invention;

fig. 4 is a front view of the wearable device terminal processing device for real-time evaluation of exercise intensity based on the noninvasive cardiac function device provided by the utility model;

fig. 5 shows the correct position of the wearable device user's upper body relative device for real-time assessment of exercise intensity based on the noninvasive cardiac function device of the present invention;

fig. 6 shows the correct position of the wearable device user's lower body related device for real-time assessment of exercise intensity based on the noninvasive cardiac function device of the present invention;

in the figure: 1: there is not heart function monitor body, 2 of wound: LED touch screen, 3: the device comprises keys, a bandage body 4, a muscle oxygen sensor 6, a Bluetooth emitter 7, a bandage fixing clip 8, a terminal processor body 9, a Bluetooth receiver 10, a terminal processor display screen 11, terminal processor keys 12, a terminal processor power supply 13, an electrode patch group 14 and a blood pressure cuff 15.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

Example 1:

the embodiment provides a wearable device for real-time assessment of exercise intensity based on a noninvasive cardiac function instrument, as shown in fig. 2, 3, 4, 5 and 6. Specifically, in this embodiment, the introduced noninvasive cardiac function monitor is a special NICOM medical instrument, so that the collection of important hemodynamic indexes is facilitated, and a reliable guarantee is provided for obtaining accurate monitoring data, and the noninvasive cardiac function monitor comprises an electrode patch group 14, a blood pressure cuff 15, a cable and a monitor body 1. The electrode sheet group comprises 4 electrode patches, 1 external sensor is arranged in each electrode patch and used for sending low-level current, 1 internal sensor detects an electric signal and sends the electric signal back to a connected monitor, the sensor is attached to the skin according to a chart quadrant according to the indication of the electrode patches, a sentry box positioned in an upper quadrant is attached to an orthorhombic muscle, and a sensor positioned in a lower line is positioned at the junction of the umbilical level and the thoracic cavity vertical of a user, so that the heart of the user is fully enclosed. The cable connection mode is that a white cable is connected with a black interface, and a red cable is connected with a red interface. The blood pressure cuff automatically records the blood pressure of a user using an NIBP cuff attached to an NICOM device and measures the resistance, and the midpoint of the cuff needs to be kept at the heart level. The LED touch screen 2 and the buttons 3 are arranged in the front panel of the monitor body 1, and the touch screen is convenient for a user to input user information such as age, sex, height and weight, selects a view switching interface and provides an interactive function. The back panel of the monitor body is internally provided with a plurality of wire grooves which are matched and connected with the signal converter.

Specifically, in this embodiment, flesh oxygen monitor includes shank bandage body 4, flesh oxygen sensor 6, bluetooth transmitter 7, bandage fixing clip pastes 8, flesh oxygen sensor chooses for use Moxy flesh oxygen sensor to gather flesh oxygen index, bluetooth transmitter supports bluetooth v52.0 transmission technology and realizes and the external device between wireless communication, the bandage fixing clip pastes and uses powerful magic subsides material to it avoids the unexpected bandage that violent motion caused to drop to add fixed round buckle rope in the bandage outside.

Specifically, in the present embodiment, the terminal processor includes the rechargeable battery pack 5, the terminal processor display 11, the bluetooth receiver 10, a memory, a data processing application, and an operating system. The Bluetooth receiver supports a Bluetooth v5.0 transmission technology, the memory is a 32GB flash memory, the memory automatically loads configuration files, operation files and data processing application programs when the system is started every time, the operating system supports a PC (personal computer) end running under a Windows system, the exercise intensity is generally divided into five exercise intensities of extremely low intensity, medium intensity, large intensity and ultimate intensity, the terminal processor obtains real-time oxygen uptake by using a built-in data processing application program through wired and wireless communication with an external monitor, and the current oxygen uptake accounts for the maximum oxygen uptake, so that the corresponding real-time exercise intensity is positioned.

Further, in this embodiment, the non-invasive cardiac function monitor and the myooxygen monitor built-in rechargeable battery pack both use lithium batteries and can operate without an external power supply.

Further, in the present embodiment, the non-invasive cardiac function monitor, the muscle oxygen monitor and the terminal processor are all provided with a power button to control the on/off operation of the monitoring device.

The utility model discloses the principle and the implementation mode of the utility model are explained by applying the concrete examples, and the explanation of the above examples is only used for helping to understand the method and the core idea of the utility model; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present description should not be construed as a limitation of the present invention.

Claims (5)

1. The utility model provides a wearable equipment based on do not have real-time aassessment exercise intensity of wound cardiac function appearance ware which characterized in that: including not having heart function monitor, flesh oxygen monitor, signal converter and terminal treater, specifically, not having heart function monitor and including monitor body, electrode sticker group, blood pressure sleeve area, cable conductor, rechargeable battery group, flesh oxygen monitor includes shank bandage body, bluetooth transmitter, and the terminal treater includes operating system, memory, display screen, bluetooth receiver, data processing module, rechargeable battery group.

2. The wearable device for real-time assessment of exercise intensity based on noninvasive cardiac function equipment as claimed in claim 1, wherein the device is suitable for the scene of real-time assessment of exercise intensity of athletes during in-situ exercise, the assessment input data is collected by three wearable devices, namely an electrode patch group, a blood pressure cuff and a leg strap, and the real-time exercise intensity obtained by the terminal is displayed for the athletes to exercise and monitor their own exercise intensity to perform timely adjustment.

3. The wearable device for real-time assessment of exercise intensity based on noninvasive cardiac function equipment of claim 1, wherein the rechargeable battery pack is rechargeable for use to provide power support for each device.

4. The wearable device for real-time assessment of exercise intensity based on noninvasive cardiac function equipment as claimed in claim 1, wherein the monitor body is provided with a built-in back panel wire serial port connected with the receiving end of the signal converter through a USB data line, and the signal converter can receive the monitoring data of the monitor body and send the data from the sending end.

5. The wearable device for real-time assessment of exercise intensity based on noninvasive cardiac function equipment of claim 1, wherein the noninvasive cardiac function monitor is processed by a USB data line through a signal converter and sent to the terminal in real time, and the myooxygen monitor is sent to the terminal in real time through a built-in Bluetooth transmitter.

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