RU2811545C1 - System for determining time parameters of individual technical phases of overcoming obstacle course elements - Google Patents

Abstract

FIELD: determining the time parameters of individual technical phases of overcoming elements. SUBSTANCE: claimed invention relates to devices for determining the time parameters of individual technical phases of overcoming elements of an obstacle course in order to further use the obtained indicators in the development of a program and training methods for physical training of military personnel. The essence of the invention consists in installing a system for determining the time parameters of individual technical phases of overcoming obstacle course elements on obstacle course elements, including two strain gauge platforms, a programmable microcontroller, a display, and a battery and a stabilizer, rank obstacles according to the complexity of overcoming them, adjust the program and methodology of classes and training. EFFECT: technical result achieved by the claimed invention consists in determining the time parameters of individual technical phases of overcoming the elements of the obstacle course in order to further use the obtained indicators in the development of a program and methodology for training in physical training of military personnel according to the adjusted program and training methodology.

2 cl, 6 dwg

Description

The claimed invention relates to a method and system for determining the time parameters of individual technical phases of overcoming elements of an obstacle course with the aim of further using the obtained indicators in the development of a program and training methodology for the physical training of military personnel.

Technical solutions with the features of the claimed invention are not known and do not follow explicitly from the prior art. This allows us to consider that the claimed invention is new and has an inventive step.

The basis of the technique for overcoming an individual obstacle is the run-up, push, flight, support on the obstacle, actually overcoming the obstacle, landing, avoiding the obstacle. The time result of completing the entire exercise directly depends on the correct execution of these elements.

Biomechanical analysis of the technique of overcoming obstacles shows that when performing an exercise, military personnel alternate between accelerated and slow movements. In this case, acyclic actions occur against the background of slow running, and acyclic actions are followed by accelerated movement. The skill of a serviceman lies in the ability to maintain the speed chosen in running when performing acyclic actions and increase it as much as possible in the final phase.

A rational technique for overcoming obstacles and good time performance of the exercise are based on the soldier’s ability to make a continuous forward movement due to minimal delays in the supporting elements (phases) of the technique for overcoming obstacles.

Analysis of the time indicators of the technique of overcoming obstacles by military personnel, its phases - entering an obstacle, pushing off, flying, overcoming the entire obstacle, landing, avoiding an obstacle, obtained using a strain gauge platform, provides information about the formation of skills in overcoming elements and the obstacle course as a whole, lagging links in overcoming techniques, labor-intensive obstacles according to the degree of their assimilation, for further ranking of obstacles according to the degree of labor-intensive assimilation (expenses of educational and training time).

It is impossible to train military personnel with a low level of physical fitness and who do not have the necessary skills to overcome individual elements and the obstacle course as a whole in the allotted time. The claimed invention provides data to solve this problem.

Within each unit, all military personnel are “divided” into groups “with a low level of physical fitness” and “with a high level of physical fitness.” By the difference in time indicators in overcoming each individual obstacle between these groups, one can judge the level of physical fitness.

The results of the experiment indicate that military personnel with a relatively low level of physical development and physical fitness have indicators in overcoming techniques and general performance indicators of the control exercise that differ from the indicators of military personnel with a high level of physical development and physical fitness.

Thus, representatives of the group “with a low level of physical fitness” overcome the fence 2.1 seconds more than representatives of the group “with a high level of physical fitness,” which is 60% of the latter’s time. Similar results are shown when overcoming machines and other obstacles. The average time shown by military personnel of the experimental group - 1, experimental group - 2 and the control group when overcoming the wall - 4.5, 4.6, 4.5 seconds, respectively. However, the differences between “high fitness” and “low fitness” are 1.7, 1.8 and 1.8 seconds, representing a slack time of 51%, 52.9% and 53%, respectively.

Analysis of the time indicators of the technique for overcoming obstacles by military personnel, its phases: run-up, repulsion, flight, support on an obstacle, actually overcoming an obstacle, landing, avoiding an obstacle, obtained using a strain gauge platform and a computer program for its operation (“PROGRAM FOR DETERMINING THE TIME PARAMETERS OF INDIVIDUAL TECHNICAL PHASES IN OVERCOMING ELEMENTS OF OBSTACLES BY MILITARY SERVICEMEN” certificate No. 2022616622 dated 04/15/2022), provides information about the level of skill in overcoming each element of an obstacle, both individual elements and the obstacle course as a whole; lagging links in overcoming technology; labor-intensive obstacles according to the degree of their assimilation, to rank obstacles according to the degree of labor-intensive assimilation (cost of training time). To do this, the lagging links are identified, a program is developed, and the methodology for developing the skills of the lagging link among students is adjusted.

The method includes: obtaining information about the time of overcoming the elements of the obstacle course, and information about the multiple phases of overcoming the elements of the obstacle course includes information about the run-up, repulsion, flight, support on the obstacle, actually overcoming the obstacle, landing, avoiding the obstacle; ranking the elements of the obstacle course according to time-consuming labor (see Figs. 5, 6); ranking of students by level of physical fitness; adjustment of the program and methods of teaching physical training and training of military personnel.

The essence of the invention is illustrated by drawings, where:

Figure 1 shows a functional diagram of the system for determining the time to overcome individual technical phases of obstacle course elements:

1 - lead battery;

2 - stabilizer;

3 - programmable microcontroller;

4 - display;

5 - strain gauge platform for determining the repulsion time when overcoming a wall with breaks;

6 - strain gauge platform for determining the time of departure from the wall with breaks.

Figure 2 shows the program algorithm for determining the time to overcome individual technical phases of obstacle course elements using strain gauge platforms. Figure 3 shows the blocks:

A - power supply. The power supply includes a 12-volt lead-acid battery (1) and a step-down stabilizer L4940V5 (2). To power the microcontroller from a lead battery, an L4940V5 stabilizer is installed between them to convert 12 volts to a nominal 5 volts for operation of the microcontroller.

B - sensor block. The sensor block includes two strain gauge platforms (5,6) with clamping triggers. The platform (5) is connected with one contact to the 5 volt contact on the power supply and, through a 10 kOhm resistor R1, is connected with the second contact to the GND contact on the power supply. The connection is made using detachable wires (7). Pins G2 and G3 from the platforms are connected to microcontroller pins 2 and 3, respectively.

C - visual block. The visual unit includes an LCD display 1602 (4). The display is powered by a power supply, and the values are output via the Inter-Integrated Circuit interface via an LCD converter.

D - control unit. The control unit includes a programmable microcontroller based on the 1887BE7T processor. Implementation of the invention.

The operation of the system for determining the time parameters of individual technical phases of the obstacle course elements is shown in Fig. 2.

1. Strain gauge plates (5, 6) with a built-in non-fixed button are installed before and after the obstacle. Stepping on the strain gauge platform (5) closes its contact and the microcontroller (3) starts the time spent in front of the obstacle, its own overcoming of the obstacle and avoidance of it.

2. When the strain gauge platform (5) is released, the repulsion phase timer stops, recording the time the load is on the platform. The general timer continues to run during the time it takes to overcome the entire obstacle.

3. After overcoming the entire obstacle, stepping on the strain gauge platform (6), the timer for the obstacle avoidance phase starts and runs until the load is removed.

4. When the load is removed from the platform (6), the time spent after leaving the obstacle is recorded and the total time spent passing the element of the obstacle course is displayed.

To rank obstacles according to the degree of difficulty in mastering them, the indicators are combined into one general group. So in first place, that is, the most labor-intensive obstacle in terms of training time was the Fence, a destroyed bridge, a destroyed staircase, a wall with a breach (see Fig. 5).

To clarify the program, methods of conducting classes and training, use the information received about the time of overcoming the leading phases of repulsion, actually overcoming the obstacle, flight, landing and avoiding the obstacle. When fixing the time parameters that ensure the effectiveness of the entire technique and the method of overcoming as a whole (see Fig. 6), both at the department of physical training and military units, the formation of skills in the technique of overcoming obstacles and the results of overcoming the general control exercise on a single obstacle course by military personnel significantly have improved.

The use of the claimed invention makes it possible to reduce the time for developing the necessary skills to overcome individual elements and the obstacle course as a whole, using time indicators for overcoming individual technical phases of the elements of the obstacle course, according to an adjusted program and teaching methodology.

The technical result achieved by the claimed invention is to determine the time parameters of individual technical phases of overcoming elements of the obstacle course with the aim of further using the obtained indicators in the development of a program and training methodology for physical training of military personnel according to the adjusted program and training methodology.

List of sources used

1. Manual on physical training in the Armed Forces of the Russian Federation. Ministry of Defense of the Russian Federation, Moscow, 2009. 140 p.

2. Thesis. Ph.D. honey. Sciences: 19.00.02 / Gabueva Fatima Abdulbarievna, Military Medical Academy named after. CM. Kirov. St. Petersburg, 2018. 105 p.

3. Gerbach, Zh.V. Woman in the army: formation and dynamics of the gender structure of the Russian army: monograph / Zh.V. Gerbach. - Rostov-on-Don: Publishing house RVI RV, 2010. 199 p.

4. Sokolova, E.P. Optimization of training sessions on physical training of female military personnel: dis. Ph.D. ped. Sciences: 13.00.04 / Sokolova Elena Petrovna. St. Petersburg, 1999. 205 p.

5. Dissertation for the academic degree of candidate of pedagogical sciences in 1999. Topic of work: Preparing motorized riflemen to overcome obstacles using training equipment. Applicant Gorobets V.I.

6. Monograph part 2. The problem of improving the physical training of troops in the field. Published by the Mikhailovsky Military Artillery Academy - 2022. Author Gorobets V.I.

7. Training manual Methodology for training military personnel to overcome defensive structures and obstacles using a special complex obstacle course. Academy publication - 2022. Gorobets V.I. and etc.

Claims (2)

1. A method for determining the time parameters of individual technical phases of overcoming elements of an obstacle course, which consists in collecting and processing the obtained indicators on the elements of an obstacle course, ranking obstacles according to the complexity of overcoming them, adjusting the program and methodology for conducting classes and training. 2. A system for determining the time parameters of individual technical phases of overcoming obstacle course elements, consisting of strain gauge platforms 5 and 6, which are installed in front of the obstacle and after the obstacle with a built-in non-fixed button, stepping on the strain gauge platform 5 closes its contacts and the programmable microcontroller 3 starts the time being in front of an obstacle, overcoming the obstacle on your own and moving away from it, when the tensometric platform 5 is released, the repulsion phase timer stops, recording the time the load is on the platform, the general timer continues to work during the time of overcoming the entire obstacle, after overcoming the entire obstacle, stepping on the tensometric platform 6 , the timer for the obstacle avoidance phase starts and runs until the load is removed; when the load is removed from platform 6, the time spent after leaving the obstacle is recorded and the total time spent passing the obstacle course element, display 4, battery 1 and stabilizer 2 is displayed.