CN217041266U - Intelligent sprint running training evaluation equipment - Google Patents

Abstract

The utility model relates to a laser detection technology, concretely relates to intelligent sprint runs training evaluation equipment. The technical problems that an existing sprint rod for individual-soldier tactical training sprint running evaluation equipment is heavy, difficult to carry, inaccurate in timing, low in evaluation efficiency and the like, and manual recording and statistics are needed are solved. The utility model comprises two punching rods, an acquisition control box and at least one photoelectric detection sensor; each punching rod is provided with one support navigation socket or one punching rod is provided with two support navigation sockets; the photoelectric detection sensor is arranged on the punching rod and used for detecting a signal of the student passing through the finishing line; the acquisition control box is electrically connected with the aerial socket of the bracket through a cable; the support navigation socket is electrically connected with the photoelectric detection sensor through a cable. The utility model discloses a photoelectric detection sensor combines with the acquisition control box, can carry out photoelectric type data detection, and the error rate is low, the data statistics analysis of being convenient for has just greatly improved the efficiency of sprint training and examination.

Description

Intelligent sprint running training evaluation equipment

Technical Field

The utility model relates to a laser detection technology, concretely relates to intelligent sprint runs training evaluation equipment.

Background

The single-soldier tactical training sprint running evaluation device is a commonly used tactical training device at present and is mainly used for evaluation and evaluation of soldier sprint running training. However, the existing sprint running evaluation equipment for individual soldier tactical training has the following defects:

1. the traditional punching rod is mainly made of iron, and is heavy and inconvenient to carry;

2. the examination adopts a stopwatch for timing, and the examination is manually scored, so that the examination is not accurate and objective enough and has large errors;

3. the device is inconvenient to move, is only suitable for fixed training places, and cannot meet the alternate use of different indoor and outdoor places, particularly the training requirements under extreme weather conditions;

4. training and assessment data need manual recording and statistics, and the work is complex and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose is to solve the heavy, the transport difficulty of sprint pole, inaccurate, the manual record of needs statistics and the technical problem such as examination inefficiency of current individual soldier tactics training sprint running evaluation equipment existence of solution, and provide an intelligent sprint running training evaluation equipment.

The technical solution of the utility model is that:

the utility model provides an intelligent sprint running training evaluation equipment, includes two sprint poles, its special character lies in: the device also comprises an acquisition control box and at least one photoelectric detection sensor; each piercing rod is provided with one support navigation socket or one piercing rod is provided with two support navigation sockets; the photoelectric detection sensor is arranged on the punching rod and used for detecting a signal of a student passing through a finishing line; the acquisition control box is electrically connected with the aerial socket of the bracket through a cable; the support navigation socket is electrically connected with the photoelectric detection sensor through a cable.

Furthermore, the two punching rods are two hollow punching rods, and the hollow punching rods are higher than two meters; the upper ends of the two hollow punching rods are connected through a hollow fixed balancing rod.

Furthermore, the upper end of the hollow sprint rod is connected with the hollow fixed balancing rod through a rectangular sleeve.

Furthermore, each puncture rod is provided with a support navigation socket, and cables electrically connected with the support navigation socket and the photoelectric detection sensor are laid in the hollow puncture rods respectively; or two support navigation sockets are arranged on one hollow puncture rod, and cables electrically connected with the photoelectric detection sensors are laid inside the two hollow puncture rods and the hollow fixed balance rod.

Furthermore, the photoelectric detection sensor is a laser correlation type photoelectric switch, the laser correlation type photoelectric switch is composed of a receiving end and an emitting end, and the receiving end and the emitting end are respectively installed on the two hollow punching rods and are aligned in opposite directions.

Furthermore, the hollow sprint rod is made of a light aluminum alloy section.

Furthermore, the acquisition control box comprises a shell, an MCU module, a wireless communication module, a buzzer and a rechargeable battery which are arranged in the shell, and an acquisition control box navigation socket, a radio frequency antenna, a status indicator lamp, a charging interface and a power switch which are arranged on the surface of the shell; the aerial socket of the acquisition control box is electrically connected with the aerial socket of the bracket through a cable; the MCU module is electrically connected with the aerial socket of the acquisition control box and is used for acquiring signals of the laser correlation type photoelectric switch, controlling the buzzer to alarm and transmitting timing information through the wireless communication module and the radio frequency antenna; the charging interface is electrically connected with a rechargeable battery; the rechargeable battery supplies power to the acquisition control box and the laser correlation type photoelectric switch under the control of the power switch; and the state indicator lamp is connected with the MCU module and is used for displaying the working state of the signal received by the acquisition control box.

Furthermore, the wireless communication frequency of the acquisition control box is 470-490 MHz.

Further, the collection control box further comprises an electric quantity indicator lamp which is arranged on the surface of the shell and electrically connected with the rechargeable battery.

The utility model has the advantages that:

1. the utility model discloses a light aluminum alloy section bar is towards thorn pole, and the structure is light, convenient transport.

2. The utility model discloses a photoelectric detection sensor combines with the acquisition control box, can carry out photoelectric type data detection, the error rate is low, the data statistics analysis of being convenient for and greatly improved examination efficiency and accuracy.

3. The utility model discloses lay the cable in the drift pole, make equipment safe and reliable more.

4. The utility model discloses simple structure, the installation of being convenient for is dismantled.

5. The utility model connects the upper ends of the two hollow punching rods through a hollow fixed balancing rod with the height more than two meters, thereby further fixing the relative positions of the two punching rods and preventing the position deviation of the photoelectric detection sensor; meanwhile, a connecting cable between the two punching rods can penetrate through the hollow fixed balancing rod, so that the hollow fixed balancing rod is not impacted by the outside.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an acquisition control box in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of another direction of the collection control box in the embodiment of the present invention.

Reference numerals are as follows: 1-a puncture rod, 2-an acquisition control box, 21-a shell, 22-an acquisition control box aerial socket, 23-a radio frequency antenna, 24-a status indicator lamp, 26-a charging interface, 27-a handle, 28-a buzzer interface, 29-a power switch, 20-an electric quantity indicator lamp, 3-a photoelectric detection sensor, 4-a support aerial socket, 5-a hollow fixed balancing rod and 6-a rectangular sleeve.

Detailed Description

The present embodiment will be described in detail below with reference to the drawings and examples.

The utility model relates to an intelligent sprint runs training evaluation equipment, as shown in figure 1, including two sprint poles 1, at least one photoelectric detection sensor 3, hollow fixed balancing pole 5 and acquisition control box 2. In this embodiment, the piercing rod 1 is a hollow piercing rod, the photoelectric detection sensor 3 is a laser correlation type photoelectric switch, and the laser correlation type photoelectric switch is two pairs and adopts a PNP normally open type.

The two hollow punching rods are arranged on the ground at a certain distance, the upper ends of the two hollow punching rods are detachably connected with the hollow fixed balancing rod 5 through the rectangular sleeve 6, the two hollow punching rods and the hollow fixed balancing rod 5 form a door frame structure, and the distance between the hollow fixed balancing rod 5 and the ground is more than two meters. The two pairs of laser correlation type photoelectric switches are distributed from top to bottom along the hollow sprint rod; the laser correlation type photoelectric switch consists of a receiving end and an emitting end, wherein the receiving end and the emitting end are respectively arranged on the two hollow punching rods and are aligned in opposite directions; the receiving end and the transmitting end can move up and down in a certain range on the hollow sprinting rod, so that the laser beams can be aligned conveniently; the receiving ends of the laser correlation type photoelectric switches are all arranged on one hollow punching rod, and the emitting ends of the laser correlation type photoelectric switches are all arranged on the other hollow punching rod.

The two hollow punching rods are made of light aluminum alloy sections, one hollow punching rod is provided with two support navigation sockets 4, and the acquisition control box 2 is electrically connected with the support navigation sockets 4 through cables; the support navigation socket 4 is electrically connected with the laser correlation type photoelectric switch through a cable; the cable that support boat socket 4 and laser correlation type photoelectric switch electricity are connected all lays inside two hollow punching pin poles and hollow fixed balancing pole 5. The cable is laid in two hollow sprint poles and hollow fixed balancing pole 5 insides and is followed same hollow sprint pole output, is connected with acquisition control box 2, avoids the cable to trip the training person or the cable is touched and leads to the socket not hard up.

As shown in fig. 2 and fig. 3, the collection control box 2 includes a casing 21, an MCU module, a wireless communication module, a buzzer, and a rechargeable battery, which are disposed in the casing 21, and a collection control box navigation socket 22, a radio frequency antenna 23, a status indicator lamp 24, a charging interface 26, a handle 27, a buzzer interface 28, a power switch 29, and an electric quantity indicator lamp 20, which are disposed on the surface of the casing 21. The acquisition control box navigation socket 22 is electrically connected with the support navigation socket 4 through a cable; the MCU module is electrically connected with the acquisition control box aerial socket 22 and is used for acquiring signals of the laser correlation type photoelectric switch, controlling the buzzer to alarm and transmitting timing information through the wireless communication module and the radio frequency antenna 23; the charging interface 26 is electrically connected with a rechargeable battery, and a 12Ah and 12VDC rechargeable lithium battery is adopted to supply power to the acquisition control box 2 and the laser correlation type photoelectric switch; the electric quantity indicator light 20 is electrically connected with the rechargeable battery and is used for displaying the residual electric quantity of the rechargeable battery; the MCU module processes the working state of the input laser correlation type photoelectric switch and displays the working state through the state indicator lamp; the wireless communication frequency of the acquisition control box 2 is 470-490 MHz.

The utility model discloses a theory of operation does:

firstly, accurately calibrating two pairs of laser correlation type photoelectric switches on the hollow punching rod; then the aerial sockets 22 of the acquisition control box are respectively connected with the aerial sockets 4 of the bracket, when the aerial sockets are connected, the aerial sockets are sequentially connected according to the cable identification, and the aerial sockets are provided with wrong-insertion-prevention mechanisms; after the connection is finished, the power switch 29 is turned on, so that a laser beam with the diameter of 1mm can be seen to irradiate the light receptor at the receiving end, and when the laser beam has deviation, the fine adjustment operation can be carried out on the receiving end and the transmitting end of the laser correlation type photoelectric switch; after the laser correlation type photoelectric switch is installed and aligned, the receiving end receives the laser beam, and when the laser beam is not shielded, a signal line of the receiving end outputs 0V voltage; when the laser beam is shielded, the signal line at the receiving end of the sensor outputs +12V voltage, and the corresponding status indicator lamp 24 on the acquisition control box 2 is lightened; meanwhile, after passing through a level conversion circuit of the optical coupling isolation plate, 12V is converted into a 3.3V low level signal and then is input into the MCU module for analysis, judgment and processing, if the score is unqualified, buzzing alarm is carried out, and meanwhile, information is transmitted out through the wireless module; the MCU module is real-time for monitoring the working voltage of the laser correlation type photoelectric switch, and the wireless transmission mode is directional transmission, so that later networking and information intercommunication with other equipment are facilitated.

The utility model is suitable for a time that dash and stab and run the training and finish judges, when the soldier touches the laser beam promptly the current end time of automatic recording, in time accurate to can be qualified according to the time and carry out the police dispatch newspaper.

Claims (9)

1. The utility model provides an intelligent sprint runs training evaluation equipment, includes two sprint pole (1), its characterized in that:

the device also comprises an acquisition control box (2) and at least one photoelectric detection sensor (3);

each piercing rod (1) is provided with one support navigation socket (4) or one piercing rod is provided with two support navigation sockets (4);

the photoelectric detection sensor (3) is arranged on the punching rod (1) and is used for detecting a signal of a student passing through the finishing line;

the acquisition control box (2) is electrically connected with the bracket navigation socket (4) through a cable;

the support air faucet (4) is electrically connected with the photoelectric detection sensor (3) through a cable.

2. The intelligent sprint running training evaluation device according to claim 1, wherein: the two punching rods (1) are two hollow punching rods, and the hollow punching rods are not less than two meters; the upper ends of the two hollow punching rods are connected through a hollow fixed balancing rod (5).

3. The intelligent sprint running training evaluation device according to claim 2, wherein: the upper end of the hollow sprint rod is connected with the hollow fixed balancing rod (5) through a rectangular sleeve (6).

4. The intelligent sprint running training evaluation device according to claim 3, wherein:

each puncture rod (1) is provided with a support navigation socket (4), and cables electrically connected with the support navigation socket (4) and the photoelectric detection sensor (3) are laid in the hollow puncture rods respectively;

or two support navigation sockets (4) are arranged on one hollow puncture rod, and cables electrically connected with the photoelectric detection sensors (3) through the support navigation sockets (4) are laid inside the two hollow puncture rods and the hollow fixed balancing rod (5).

5. The intelligent sprint training assessment device according to any one of claims 1 to 4, wherein:

the photoelectric detection sensor (3) is a laser correlation type photoelectric switch which consists of a receiving end and an emitting end, wherein the receiving end and the emitting end are respectively arranged on the two hollow punching rods and are aligned oppositely.

6. The intelligent sprint running training evaluation device according to claim 5, wherein:

the hollow punching rod is made of light aluminum alloy section.

7. The intelligent sprint running training evaluation device of claim 6, wherein:

the acquisition control box (2) comprises a shell (21), an MCU module, a wireless communication module, a buzzer and a rechargeable battery which are arranged in the shell (21), and an acquisition control box navigation socket (22), a radio frequency antenna (23), a state indicator lamp (24), a charging interface (26) and a power switch (29) which are arranged on the surface of the shell;

the acquisition control box navigation socket (22) is electrically connected with the support navigation socket (4) through a cable;

the MCU module is electrically connected with the acquisition control box navigation socket (22) and is used for acquiring signals of the laser correlation type photoelectric switch, controlling the buzzer to alarm and transmitting timing information through the wireless communication module and the radio frequency antenna (23);

the charging interface (26) is electrically connected with a rechargeable battery; the rechargeable battery supplies power to the acquisition control box (2) and the laser correlation type photoelectric switch under the control of the power switch (29);

and the state indicator lamp (24) is connected with the MCU module and is used for displaying the working state of the signal received by the acquisition control box (2).

8. The intelligent sprint running training evaluation device according to claim 7, wherein: the wireless communication frequency of the acquisition control box (2) is 470-490 MHz.

9. The intelligent sprint running training evaluation device according to claim 8, wherein:

the acquisition control box (2) further comprises an electric quantity indicator lamp (20) which is arranged on the surface of the shell (21) and is electrically connected with the rechargeable battery.

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