RU82127U1 - DEVICE FOR EVALUATING THE VALUE OF JUMPING - Google Patents

Abstract

A device for estimating the value of jumps, containing a block of radiation sources installed with equal steps, a block of radiation receivers according to the number of radiation sources installed with the same step and oriented against the same radiation sources, so that the same radiation sources and receivers are optocouplers, as well as connected to a block of radiation receivers an information processing unit, in which the inputs of threshold elements are connected to the outputs of the same radiation sources, and an indicator, characterized in that a base with a mounted level for leveling and hinges with clamps at the ends for attaching blocks of radiation sources and receivers is given, as well as a discrete information filter, a device for evaluating the dispersion of parameters, and a second display unit.

Description

The utility model "Device for assessing the size of jumps" refers to the equipment of sports grounds for high and / or long jumps.

Known "Device for estimating the value of high jumps" containing N sources and N radiation receivers installed vertically, an information processing unit and an indicator, and the information processing unit has threshold elements, a signal selector and a computer [1]. Italicized features common with the proposed utility model.

Its main drawback is the inapplicability to assess the long jump.

It is known "Device for estimating the length of long jumps", containing a block of radiation sources with radiation sources installed with an equal pitch, a block of radiation receivers with receivers installed with the same step, according to the number of radiation sources: each radiation receiver is located opposite the corresponding radiation source and is with it an optocoupler, as well as a block of threshold elements connected to the block of radiation receivers, a computer, the input of which is connected to the register of the installation value, and the output is connected to the indicator, general a clock generator, an optocoupler address generation unit, a radiation source control unit and a signal switch, in which a clock generator is connected to an optocoupler address generation unit, the outputs of which are connected to a radiation source control unit, control inputs of the signal switch and the second inputs of the calculator, and the radiation sources are connected to the outputs of the control unit radiation sources, inputs

the signal switch is connected to the outputs of the block of threshold elements, and the output to the third input of the calculator. This device may contain additional identical to the main block of radiation sources, a block of radiation receivers, a block of threshold elements and a signal switch [2]. Italicized features common with the proposed utility model.

Its main drawback is the inapplicability to assess the high jump.

The purpose of the utility model is to expand the functionality, i.e. applicability for assessing both high jumps, incl. - with a pole, and for evaluating long jumps, incl. - triple jumps, as well as simplicity and safety of use.

The task is achieved by the fact that in the "Device for estimating the value of jumps", containing a block of radiation sources installed with equal steps, a block of radiation receivers, according to the number of radiation sources installed with the same step and oriented against the same radiation sources, so that the sources of the same name and radiation receivers constitute optocouplers, as well as an information processing unit connected to the radiation receiver block, in which inputs of threshold elements are connected to outputs of the same radiation sources And the indicator are introduced with built base level for leveling and hinges with brakes, at their ends for connection of blocks of radiation sources and receivers, as well as in the information processing unit, put the filter of discrete information, the dispersion parameter estimation device and a second display unit.

"Device for estimating the value of jumps", contains (see figure 1) base 1 with mounted level 2, blocks of sources 3 and receivers 4 of radiation connected to the ends of the base 1 by hinges 5 with clamps 6, clamps 7 of the base relative to the ground and block 8 processing

information. In blocks 3 of radiation sources, sources of 3 ₁ ÷ 3 _n radiation are installed with equal steps, and in block 4 of radiation receivers are installed, according to the number of radiation sources and with the same step, receivers 4 ₁ ÷ 4 _{n of} radiation, and radiation patterns of sources 3 ₁ ÷ 3 _n and receivers 4 ₁ ÷ 4 _{n are} directed towards each other, so that each radiation receiver 4 _i is located against the same source of radiation 3 _i and forms an optocouple with it, as well as blocks 3 and 4, due to hinges 5, can be fixed, clamps 6, both in horizontal and vertical floor zhenii furthermore - latch 7 base relative to ground. In the information processing unit 8 (see Fig. 2) connected by the inputs of the same name to the outputs of the radiation receiver unit 4, there is a discrete information filter 9, a parameter dispersion estimation device 10 connected by information inputs bitwise with the outputs of the discrete information filter 9 and two indicators 11 and 12, connected bitwise with the same groups of outputs of the device 10 for estimating the variance of the parameters. The discrete information filter 9 [3] (see FIG. 3) includes a voltage adjuster 14, a threshold regulator 15 and threshold elements 16 (16 ₁ ÷ 16 _n ), and a dispersion estimation device for parameters 9 [4] (see FIG. 4 ) includes groups of elements AND 19, 28, 29, trigger 20, memory registers 21, 32, 33, elements OR 22, 26, 27 36, element HE 23, drivers 24, 30, 31, 37 pulses, delay elements 25 and 38 and comparison items 34 and 35.

"Device for estimating the size of the jumps" works as follows.

With the vertical position of the blocks of sources 3 and receivers 4, the device serves to estimate the size of the high jumps, and with the horizontal position of the blocks of sources 3 and receivers 4 - to assess the size of the long jumps.

The intersection by an athlete of an optocoupler (one or more) is fixed by a filter 9 of discrete information, while sequentially in time

extreme numbers of triggered receivers of 4 emissions are recorded, the first result reflects the span, and the second - the maximum value of the controlled parameter (height or length of the jump). The device 10 at the outputs of the first group generates a binary code of the triggered receiver 4 with the maximum number, and with a time delay - the maximum number of the failed receiver 4 emissions. In the display nodes 11 and 12, the numbers above the indicated receivers 4 by decoders (not shown in FIG. 2) are converted into codes of seven-segment indicators and visualized. The first indicator reflects a violation of the rules (spacing), and the second indicates the actual value (in units of measurement) of the parameter being monitored.

Thus, the proposed "Device for estimating the size of jumps" has advanced functionality that is applicable for assessing jumps as high, incl. - with a pole, and in length, incl. - triple jumps, and also it is quite simple to use for its intended purpose and does not contain traumatic elements for an athlete, i.e. safe to use.

Claims (1)

A device for estimating the value of jumps, containing a block of radiation sources installed with equal steps, a block of radiation receivers according to the number of radiation sources installed with the same step and oriented against the same radiation sources, so that the same radiation sources and receivers are optocouplers, as well as connected to a block of radiation receivers, an information processing unit, in which the inputs of threshold elements are connected to the outputs of the same radiation sources, and an indicator, characterized in that a base with a mounted level for leveling and hinges with clamps at the ends for attaching blocks of radiation sources and receivers is given, as well as a discrete information filter, a device for evaluating the variance of parameters, and a second display unit.