CN108159627B - Method for testing standing long jump of infant - Google Patents

Abstract

The invention relates to the technical field of long jump, in particular to a method for testing standing long jump of an infant, which comprises the following steps: a subject stands on the in-situ take-off electronic device behind the take-off wire to jump forwards and leaves the in-situ take-off electronic device, and the in-situ take-off sensor sends out a take-off signal to the distance measurement display device through a cable; when the subject skips over the photoelectric sensor, the photoelectric sensor sends a reflection signal to the distance measurement display device through the cable; when a subject jumps into one of the strip-shaped scale pads of the sponge sensing pad, the landing sensor of the strip-shaped landing electronic device sends a landing signal to the distance measurement display device through the cable. The structure is simple, the manufacture is convenient, and the production cost is low.

Description

Method for testing standing long jump of infant

Technical Field

The invention relates to the technical field of long jump, in particular to a method for testing standing long jump of an infant.

Background

At present, the infant standing long jump is generally tested by adopting a sand pit and a tape measure, a jumper wire is arranged at a position 20 cm away from the edge of the sand pit or a soft ground, and because more infants are tested, testers are hard and labor intensity is high.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a method for testing standing long jump of an infant.

In order to achieve the purpose, the invention adopts the following technical scheme:

a method for testing standing long jump of an infant adopts a device for testing standing long jump of the infant to test the explosive force of the infant, and comprises the following steps:

during testing, a test subject stands on the in-situ take-off electronic device after taking off the jumper;

when the subject jumps forwards and leaves the in-situ take-off electronic device, the in-situ take-off sensor sends a take-off signal to the distance measurement display device through the cable;

when the subject skips over the photoelectric sensor, the photoelectric sensor sends a reflection signal to the distance measurement display device through the cable;

when a subject jumps into one of the strip-shaped scale pads of the sponge sensing pad, a floor sensor of the strip-shaped floor electronic device sends a floor signal to the distance measuring display device through a cable;

the distance measurement display device receives a take-off signal sent by the in-situ take-off electronic device and a reflected signal of the photoelectric sensor, the processor processes the take-off signal and the reflected signal, the time of standing long jump is calculated, and the speed of standing long jump is calculated according to the distance of 20-100 centimeters from the take-off wire to the position on the front section of the sponge induction pad; then, according to the landing signals sent by the strip-shaped landing electronic device, the processor processes the landing signals and calculates the total time of standing long jump; then calculating the distance of standing long jump;

and meanwhile, the processor displays the total time of the standing long jump, the distance of the standing long jump and the speed of the standing long jump through the distance measurement display device.

Due to the adoption of the technical scheme, the invention has the following advantages:

a device and a method for testing standing long jump of an infant can quickly detect the standard movement of the standing long jump of the infant, achieve the fitness of the whole population, grab the infant, reduce the labor amount of a tester, give the infant the fun of playing and prompt the time of using through voice. The structure is simple, the manufacture is convenient, and the production cost is low.

Drawings

Fig. 1 is a schematic structural view of a standing long jump device for testing infants.

Detailed Description

The following is a more detailed description of specific embodiments, and is provided in connection with the accompanying drawings.

As shown in fig. 1, a method for testing standing long jump of an infant is to test the explosive force of the infant by using a device for testing standing long jump of the infant, and comprises the following steps:

during testing, a subject stands on the in-situ take-off electronic device behind the platform take-off wire 5;

when the subject jumps forwards and leaves the in-place take-off electronic device, the in-place take-off sensor sends a take-off signal to the distance measurement display device 6 through a cable;

when the subject skips over the photoelectric sensor 3, the photoelectric sensor 3 sends a reflection signal to the distance measurement display device through the cable;

when a subject jumps into one of the strip-shaped scale pads of the sponge sensing pad 1, a floor sensor of the strip-shaped floor electronic device sends a floor signal to the distance measuring display device 6 through a cable;

the distance measurement display device receives a take-off signal sent by the in-situ take-off electronic device and a reflected signal of the photoelectric sensor, the processor processes the take-off signal and the reflected signal, the time of standing long jump is calculated, and the speed of standing long jump is calculated according to the distance of 20-100 centimeters from the take-off wire to the position on the front section of the sponge induction pad; then, according to the landing signals sent by the strip-shaped landing electronic device, the processor processes the landing signals and calculates the total time of standing long jump; then calculating the distance of standing long jump;

and meanwhile, the processor displays and gives out the total time of the standing long jump, the distance of the standing long jump and the speed of the standing long jump through the distance measurement display device by voice.

When the subject jumps, the subject cannot have the action of jumping with the mat.

A device for testing standing long jump of a child, comprising: the device comprises a platform 2, a sponge induction pad 1, a photoelectric sensor 3 and a distance measurement display device 6, wherein the platform 2 and the sponge induction pad 1 are combined in a flush manner, one end of the rectangular platform 2 is provided with a take-off wire 5, and the rear end part of the take-off wire 5 is provided with an in-situ take-off electronic device; the front section of the sponge sensing pad 1 is provided with a photoelectric sensor 3, and the rear section of the sponge sensing pad 1 is provided with a plurality of block-shaped scale pads 4; each strip-shaped block-shaped scale pad 4 is uniformly provided with strip-shaped floor electronic devices; the in-situ take-off electronic device, the photoelectric sensor and each strip-shaped landing electronic device are respectively connected with the distance measurement display device 6 through cables.

The photoelectric sensor 3 is arranged at a position which is 20-100 cm away from the starting jumper 5 to the front section of the sponge sensing pad 1.

The sponge induction pad 1 is 1.5-3 m long and 1.0-1.2 m wide.

The in-situ take-off electronic device is a rectangular flat plate type in-situ take-off sensor.

The strip-shaped floor electronic device is a floor sensor.

The distance measurement display device 6 is formed by electrically connecting a timer, a processor, a voice device and a display.

Claims (1)

1. A method for testing standing long jump of infant adopts a device for testing standing long jump of infant to test explosive force of infant; the device for testing standing long jump of infant comprises: the photoelectric sensing device comprises a platform (2), a sponge sensing pad (1) and a photoelectric sensor (3), wherein the platform (2) and the sponge sensing pad (1) are combined in a flush manner, one end of the rectangular platform (2) is provided with a jumper wire (5), and the sponge sensing pad (1) is 1.5-3 meters long and 1.0-1.2 meters wide; the front section of the sponge sensing pad (1) is provided with a photoelectric sensor (3), and the rear section of the sponge sensing pad (1) is provided with a plurality of block-shaped scale pads (4); the method is characterized in that: the rear end part of the take-off wire (5) is provided with an in-situ take-off electronic device; each strip-shaped block-shaped scale pad (4) is uniformly distributed with a strip-shaped floor electronic device;

further comprising: the in-situ take-off electronic device, the photoelectric sensor and each strip-shaped landing electronic device are respectively connected with the ranging display device (6) through cables; the distance measurement display device (6) is formed by electrically connecting a timer, a processor, a voice device and a display; the adopted in-situ take-off electronic device is a rectangular flat plate type in-situ take-off sensor; the strip-shaped landing electronic device is a landing sensor;

the adopted photoelectric sensor (3) is arranged at a position which is 20-100 cm away from the starting jumper (5) to the front section of the sponge induction pad (1); the specific test steps are as follows:

during testing, a test subject stands on the in-situ take-off electronic device after taking off the jumper;

when the subject jumps forwards and leaves the in-situ take-off electronic device, the in-situ take-off sensor sends a take-off signal to the distance measurement display device through the cable;

when the subject skips over the photoelectric sensor, the photoelectric sensor sends a reflection signal to the distance measurement display device through the cable;

when a subject jumps into one of the strip-shaped scale pads of the sponge sensing pad, a floor sensor of the strip-shaped floor electronic device sends a floor signal to the distance measuring display device through a cable;

the distance measurement display device receives a take-off signal sent by the in-situ take-off electronic device and a reflected signal of the photoelectric sensor, the processor processes the take-off signal and the reflected signal, the time of standing long jump is calculated, and the speed of standing long jump is calculated according to the distance of 20-100 centimeters from the take-off wire to the position on the front section of the sponge induction pad; then, according to the landing signals sent by the strip-shaped landing electronic device, the processor processes the landing signals and calculates the total time of standing long jump; then calculating the distance of standing long jump;

and meanwhile, the processor displays the total time of the standing long jump, the distance of the standing long jump and the speed of the standing long jump through the distance measurement display device by voice.

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