RU2135248C1 - Device for training single combat sportsmen - Google Patents

Abstract

FIELD: training equipment for boxing, karate, man-to-man fight, and so on. SUBSTANCE: sources and receivers of illumination, which are connected by light, are located in two perpendicular directions on opposite sides of target. Sources and receivers of illumination are arranged in assemblies which are designed as lines which are located in parallel to target surface. Output of address generator is connected in parallel to information inputs of decoders, selection inputs of multiplexers, and to recording device. Illumination sources are connected to outputs of respective decoders. Illumination receivers are connected to inputs of respective multiplexers, which outputs are connected to recording device. Indication units are connected to random code generator, which output is connected to recording device. Target is equipped with platform which is mounted on three spring members using ball hinges and clippers. Center of platform is connected to inductance coil which is connected to recording device. EFFECT: increased efficiency of training. 3 cl, 4 dwg

Description

 The invention relates to training devices for special sports, namely, simulators that record the tactical actions of athletes in sports such as boxing, karate, hand-to-hand combat, etc. and can be used to train martial arts athletes.

 A device for training martial arts athletes is known, comprising a target mounted in a support made in the form of a grid. At the nodes of the connection of the mesh threads there are marks of pain points of the enemy, there are also overlays for the limbs (see copyright certificate N 1680237, class A 63 B 69/00, 1991).

 The disadvantages of this device are the low accuracy of controlling the athlete’s impact in the enemy’s pain points and the need to use special pads.

 There is also known a device for determining the strength and speed of boxing attacks, containing a punching bag mounted on the shield using a spring to which metal rods are attached that move upon impact in the coils of inductive sensors. The output of the sensors through the converter is connected to a recording device (see copyright certificate N 961725, class A 63 B 69/32, 1982).

 The disadvantage of this device is the low accuracy of the assessment when a boxer conducts a series of strokes, due to the occurrence of natural oscillations of the spring.

 A device for measuring the impact velocity is known, comprising a target and a frame with optically connected light sources and receivers installed in it, while light rays coming from sources to light receivers are located in a plane perpendicular to the target surface (along the direction of impact). The target is fixed in the center of the frame, and the light sources and receivers are connected to the recording device by outputs. The device provides high measurement accuracy due to the use of a non-contact method using optically coupled light sources and receivers (see RF patent N 2000830, class A 63 V 69/00, 1993).

 The disadvantage of this device is its limited functionality, allowing you to use it only for measuring the speed of impact. Another disadvantage of the device is the need to rotate the frame in the right direction, which is impossible in a training battle. The ability to strike at the attachment points of the target to the frame is also a disadvantage of the device.

 The closest analogue of the claimed invention is a device for training athletes containing optically coupled light sources and receivers located in the perpendicular direction from opposite sides of the target, which are combined into blocks made in the form of rulers parallel to the surface of the target, and a recording device (see patent France N 2135512, class A 63 B 69/00, 1972). The technical result of the invention is to increase the efficiency of use.

 The specified technical result is achieved by the fact that in a known device for training athletes, containing optically coupled light sources and receivers located in the perpendicular direction from opposite sides of the target, which are combined in blocks made in the form of rulers parallel to the target surface and a recording device, according to the invention, additionally introduced an address former, decoders and multiplexers, while the output of the address former is connected in parallel to the information nnym decoders inputs, selection inputs of the multiplexers and to the recording device, the light sources are connected to the outputs of the respective decoders, and light receivers connected to the inputs of the respective multiplexers, whose outputs are connected to the recording device.

 To provide an estimate of the athlete’s reaction time, light indicators connected to a random code generator, the output of which is connected to a recording device, can be introduced into the device.

 To determine the impact force (energy), the target of the device for training athletes-martial artists may contain a platform mounted on three spring elements using ball bearings and limiters, while the center of the platform is connected to an inductive sensor connected to a recording device.

 The invention is illustrated by drawings, where in FIG. 1 shows a diagram of a device; in FIG. 2 is a diagram of the mutual arrangement of blocks with light sources and receivers; in FIG. 3 is a diagram of a target; in FIG. 4 - arrangement of spring elements of the target.

 A device for training martial arts athletes contains (Fig. 1) a target 1, light sources 2, combined in block 3, and light receivers 4, combined in block 5. Blocks 3 and 5 are made in the form of rulers located on opposite sides of the target 1 so that light sources 2 and light detectors 4 are optically coupled.

 In the perpendicular direction with respect to blocks 3 and 5, on the opposite sides of the target 1 are light sources 6, combined in block 7, and light receivers 8, combined in block 9. Blocks 7 and 9 are also made in the form of rulers and are arranged so that light sources 6 and light receivers 8 were optically coupled. The lines of light sources 2 and 6 and light receivers 4 and 8 are parallel to the surface of the target 1. Light sources 2 and 6 are connected to the outputs of the corresponding decoders 10 and 11, and light receivers 4 and 8 are connected to the corresponding outputs of the multiplexers 12 and 13, the outputs of which are connected to the registering device 14. The output of the address generator 15 is connected in parallel to the information (address) inputs of the decoders 10 and 11, the selection inputs of the multiplexers 12 and 13, and to the recording device 14.

 On the target 1 can be applied, for example, pain points 16 of the enemy. In this case, light sources 2 and 6 and light detectors 4 and 8 should be placed in blocks 3, 5, 7 and 9 so that each pain point 16 is at the intersection of the axes of the optically coupled light sources and light detectors.

 Optically coupled pairs of light sources and receivers can be located in one plane, and can be located (Fig. 2) in two parallel planes 17 and 18, located at a distance of "L" from each other.

 The device may contain (Fig. 1) light indicators 19 connected to a random code generator 20, the output of which is connected to a recording device 14. The light indicators 19 can be located to the right and left of the target 1.

The target can be made in the form of a wall cushion (Fig. 3), mounted on a rigid base 21. The wall cushion consists of a housing 22 with an elastic coating 23. Inside the housing 22 there is a round platform 24 with an elastic coating 25 installed using three ball bearings 26 on the spring elements 27 and held by three stops 28. The center of the platform 24 is connected to the core 29 of the inductive sensor, the coil 30 of which is mounted on the base 21. The coil 30 is connected to the recording device 14. Ball bearings 26, spring elements 27 and restrictions ate 28 are located (FIG. 4) circumferentially at 120 ^o to each other.

 AL178 D infrared emitting diodes can be used as light sources, and KFDM photodiodes as light detectors. Light indicators can be made on the basis of AL307KM LEDs.

 The address generation unit can be made according to a generator circuit based on two inverters on a K155 LNZ chip connected to the input of a binary counter on K155IE2 microcircuits, the capacity of which is equal to the number of pairs of light sources and receivers.

 Decoders can be performed on the K155IDZ chip, and multiplexers on the K155KP7 chip.

 The random code generator can be performed, for example, by the method of generating random pulses from noise "emissions".

 The recording device may include a stable time interval generator, a time interval generator, a binary counter, a binary code decoder and digital indicators, while a stable time interval generator can be implemented according to a crystal oscillator circuit with a period of 1 μs on a 531GG1 chip, a time interval generator can be implemented on 533 series chips, a binary counter can be implemented on a 555IE5 chip, a binary code decoder can be implemented on K514ID2 chips, and Numeric displays can be performed on the basis of seven-segment digital ALS324B indicators.

 The operation of the device is as follows.

 At the output of the address shaper 15 (Fig. 1), a parallel binary code that changes at a given frequency appears, corresponding to the serial number of each light source and the light receiver optically connected to it. This code enters the information inputs of the decoders 10 and 11, causing the light sources 2 and 6 to be switched on alternately, to the multiplexers 12 and 13 selection inputs, causing the synchronous switching of the light detectors 4 and 8 optically coupled to the light sources 2 and 6, and to the recording device 14. The light from each light source enters the optically coupled light receiver, causing a certain level of signal to appear at its output. These signals are transmitted through multiplexers 12 and 13 to the recording device 14. Due to the fact that the light sources 2 and 6 and the light receivers 4 and 8 are switched on in pairs in turn and, despite the fact that each light source illuminates several light receivers at once, the electric the signal is removed only from the light receiver located opposite the corresponding switched on light source. This allows to exclude the mutual influence of light sources and receivers, to exclude the influence of spurious illumination. When hitting the target 1, the athlete crosses the light rays coming from the light sources 2 located in block 3 and from the light sources 6 located in block 7, blocking the light entering the respective light detectors 4 in block 5 and light detectors 8 in block 9 As a result, the signal level at their outputs changes. The recording device 14 determines the serial numbers of the light receivers at which the signal level has changed by the current value of the parallel binary code supplied to its input from the address shaper 15 and thus registers the hit in a certain area of the target 1, for example, at the pain point 16 of the enemy.

 To determine the speed of impact, the light sources and receivers (Fig. 2) are located in two planes 17 and 18. Upon impact, the athlete first crosses plane 18, causing a change in signal at light receivers 8, and then - plane 17, causing a change in signal at light receivers 4 The signals from the light receivers are sequentially fed through the multiplexers 12 and 13 to the recording device 14, which determines the time interval T between the moments of change of the signals at the light receivers 8 and 4. The rate of impact is determined by the formula V = L / T, where L ra -being between the planes 17 and 18.

 The random code generator 20 (FIG. 1) includes one of the light indicators 19 according to a random law. The signal from the random generator 20 is also sent to the recording device 14. The athlete strikes the target 1 with the right or left hand, respectively, by the light signal from the indicator. The recording device 14 determines the time interval between the beginning of the light signal on the indicator 19 and the moment of crossing when the plane 17 is hit (Fig. 2), which is the reaction time of the athlete.

 When hitting a target made in the form of a wall cushion (Fig. 3), the athlete, through the elastic coating 25, acts on a round platform 24, which transfers pressure to the spring elements 27 through ball bearings 26, causing them to deform. The magnitude of the deformation of the spring elements 27 is proportional to the force of the impact energy. The circular platform 24 moves, causing the movement of the core 29 relative to the coil 30 of the inductive sensor. The signal from the coil 30 enters the recording device 14, which determines the strength (energy) of the impact. After the end of the impact, the platform 24 under the action of the spring elements 27 returns to its original position all the way to the stops 28. The elastic coating 23 applied to the housing 22 protects the athlete from hitting the target.

 If the athlete struck the center of the round platform 24 (Fig. 4), the deformation of all three spring elements 27 is the same and equal to the movement of the core 29. If the blow of the same energy on the round platform 24 is not at its center, the deformation of the spring elements 27 will be different, but the amount of movement of the core 29 will remain the same.

By striking a predetermined portion of the target 1, the athlete first crosses the rays coming from the light sources, blocking the light from entering the respective photodetectors. This allows you to evaluate the strength (energy) of the impact in aggregate on the accuracy and speed of the impact, thus selecting static pressure on the target (impact at low speed) and impacts that did not fall into a given section of the target,
The ability to implement the device is confirmed by the above calculation. If the impact velocity is 5 ... 10 m / s, then with the distance between the planes 17 and 18 (Fig. 2), in which optically coupled light sources and receivers are located, having different directions equal to 50 mm, the travel time of this distance will be 5. .. 10 ms. So that the alternating switching on of pairs of light sources and receivers does not introduce a significant error, it is necessary that the cycle time of the series connection of light sources and receivers in one unit does not exceed 0.5. . . 1 ms When the number of light sources (receivers) in the unit is 10, the clock frequency of their switching should not be lower than 20 kHz. Implementation of a device with such a switching frequency of sources (receivers) is not a technical difficulty.

 The proposed device for training martial arts athletes has advanced functionality and allows you to evaluate the technical and tactical actions of the athlete by registering the accuracy of the strike, the speed of the strike, the strength (energy) of the strike and the reaction time of the athlete; allows you to evaluate the actions of the athlete in the totality of the parameters of the impact, which makes it possible to select, for example, strikes delivered at high speed, but not falling in a given section of the target, strokes of high strength, but delivered at low speed, etc .; the device excludes the influence of spurious external illumination of the light receivers due to the pairwise switching on of the light sources and receivers; the device provides the ability to register impact parameters for each of the points (sections) plotted on the target without restructuring the device.

Claims (3)

 1. A device for training martial artists, containing located in the perpendicular direction from opposite sides of the target, optically coupled light sources and receivers, which are combined in blocks made in the form of rulers located parallel to the target surface, and a recording device, characterized in that the address former, decoders and multiplexers are additionally introduced to it, while the output of the address former is connected in parallel to the information inputs of the decoders, inputs for selecting mul typelexers and to the recording device, light sources are connected to the outputs of the corresponding decoders, and light receivers are connected to the inputs of the corresponding multiplexers, the outputs of which are connected to the recording device.  2. The device according to claim 1, characterized in that light indicators are connected to it, connected to a random code generator, the output of which is connected to a recording device.  3. The device according to paragraphs. 1 and 2, characterized in that the target contains a platform mounted on three spring elements using ball bearings and stops, and the center of the platform is connected to an inductive sensor connected to a recording device.

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