BG2353U1 - A transformational block for signaling for functional diagnostics during physical exertion - Google Patents

Abstract

The transformational block for signaling for functional diagnostics during physical exertion is applicable to the medical insurance field, professional and amateur sport, medical physical education, wellness, fitness and other sports services, as well as in medicine. It allows for professional assessment of the optimal and recommended level of physical exertion to be concluded, and for minimalizing harmful effects which exercise might cause by analyzing constant values in specifically determined spans of time in different degrees of physical exertion by relaying the specific physiological values of the observed subject. The sensor block includes electronic units, placed in a metal box, comprising of an interface panel, connected through a USB cable and by a wireless link to a processor, which in turn is bidi connected both to a timer and to the operational memory

Description

(54) CONVERSION BLOCK FOR FUNCTIONAL DIAGNOSTIC SIGNALS FOR FUNCTIONAL DIAGNOSTICS

Field of technology

The conversion unit for signals for functional diagnostics in physical activity is used in the field of medical insurance, professional and non-professional sports, in facilities for physical therapy, wellness, fitness and other sports services, as well as in medicine.

BACKGROUND OF THE INVENTION

It has been proven that active physical activity has a significant impact on the health of the human body - it can help overcome certain health problems and improve the overall physiological condition of the individual, but at the same time carries a risk of injury and other adverse physiological consequences. Thus, for the needs of the training process for active athletes or non-professional athletes, it is necessary to prophylactically record the sports status. Prophylactic functional measurements are also performed in medical, sports centers, wellness and fitness clubs, as well as in schools.

Control devices such as heart rate monitors, cardio belts and GPS watches are known. Such devices measure the pulse rate, monitor a pre-established zone of maximum load (pulse limits). They can calculate an average / maximum value or do so on a closed, repeating loop / route.

Also known is a cardio belt for measuring and transmitting heart rate information, in which a special wireless communication technology instantly transmits the measured values to a mobile device. Also known is a watch with a heart rate monitor, designed for non-intensive athletes for continuous measurement in simple zones of heart rate.

The disadvantage of these devices is that they show a single measurement or an average value from a group of measurements.

The task of the utility model is to create a conversion unit for signals for functional diagnostics in physical activity in order to perform a personal assessment of the optimal and recommended level of physical activity and minimize the harmful effects of it, based on analysis of measured fixed values in certain set time intervals at different degrees of load and taking into account the physiological characteristics of the subject.

Technical essence of the utility model

The converter unit for signals for functional diagnostics during physical activity, according to the utility model, includes electronic equipment placed in a metal box, consisting of an interface panel connected to a processor through two types of connections - USB cable and wireless connection, and the processor is connected bilaterally with both timer and RAM.

The processor maintains a continuous connection with the measuring recording device (bracelet, belt) with the possibility of connection with other devices via a hardware channel. The processor is programmed to record the received pulse rate data in a rhythm corresponding to the active profile (at what minute to register the pulse according to the pre-set profile of functional load).

According to the selected profile of functional diagnostics, the pulse frequency of discrete specific points in the time of the achieved load stages on a linear or nonlinear scale is registered by the conversion unit.

The conversion unit is operated by interface buttons for profile selection, start and stop of the measurement.

An advantage of the conversion unit for signals for functional diagnostics during physical activity is the possibility to perform a personal assessment of the optimal and recommended level of physical activity and minimize its harmful effects, based on analysis of measured precisely fixed values in certain time intervals. at different degrees of load and taking into account the physiological characteristics of the subject.

2353 Ul

Explanation of the attached figure

The utility model is illustrated by the attached figure as follows:

Figure 1 is a block diagram of a conversion unit for signals for functional diagnostics under physical exertion.

Examples of implementation of the utility model

In FIG. 1 shows a block diagram of the conversion unit for signals for functional diagnostics in physical activity, which contains electronic equipment consisting of an interface panel 4 with interface buttons for profile selection, for start and stop of the measurement. The interface panel is connected to the processor 2 via two types of connections - a USB cable and a wireless connection, and the processor 2 in turn is connected in both directions, both with the timer 1 and with the RAM 3.

The processor 2 maintains a continuous connection with the measuring device (bracelet). The processor 2 records the received pulse rate data in a rhythm corresponding to the active profile, according to the predetermined functional load profile, performs the calculation process, generates the results and sends them to the RAM 3 for online storage. The electronic equipment of the conversion unit is housed in a metal box 5.

Using the utility model

The conversion unit for signals for functional diagnostics during physical activity is mounted on the registration device (bracelet, belt) and is in continuous connection with the measuring devices connected to it. The conversion unit is also connected to the computing complex via a wired or wireless connection.

Interface panel 4 initializes identification data (identification code or name, sex, age or date of birth) and static (from the point of view of a single study) anthropometric data, circumferences, height, weight, length of body parts and physiometric muscle strength, skin folds involved in the calculation process once. The required measurement profiles are loaded (more than one functional load profile can be loaded for a variety of measurement methods). The connection with the computer complex is interrupted. Timer 1 is set time timers 1, 2, 3, 5, 8 for capturing data in a strict time order - for example, for an even minute. A measurement profile is selected from the button on the interface panel 4 of the conversion unit. The bracelet / belt is placed on the subject and he / she goes out on the training ground. The "start" button on the interface panel of the conversion unit is activated at the beginning of the training, and the timer 1 is switched on with the beginning of the load.

The processor 2 sets the measurement scheme, determines the timing, stores the measurement data, performs the calculation process and generates the results.

In the process of examination the converter unit maintains the necessary timing, by registering the pulse rate and blood pressure measured by the respective devices at certain time intervals set by the processor, at the beginning and at the end of the load (series); calculates oxygen consumption without gas analysis and validates the data obtained.

The measured data are registered at predetermined time points, which depend on the type of load - running at a constant speed, running at an increasing pace, load according to a given scheme.

The RAM 3 stores the data for the subject, static anthropometric data, the current scheme and primary measured indicators.

Claims (1)

Claims 1. Conversion block for signals for functional diagnostics during physical activity, characterized in that it includes electronic equipment housed in a metal box (5), consisting of an interface panel (4) connected via a USB cable and via a wireless connection to a processor ( 2), which in turn is connected in both directions with both timer (1) and RAM (3).