CN114001595A - Fuming anti-infantry training mine - Google Patents

Abstract

The invention belongs to the technical field of military equipment, and particularly relates to a fuming anti-infantry training mine; the technical scheme is as follows: the inside of simulation landmine body is provided with smoke generation module, linkage display mechanism, sound generator and power, a power supply, electric connection between sound generator and the smoke generation module, smoke generation module includes the piece of giving out smoke, hit piece and separation blade, the separation blade sets up between the piece of giving out smoke and the piece of hitting, and the separation blade is located the upper end of the piece of giving out smoke, the intermediate position of separation blade is equipped with acupuncture cap, it is provided with the felting needle with the relative position of acupuncture cap to hit the piece, the lower extreme of piece of giving out smoke is provided with a plurality of elastomeric element, smoke generation module's lateral wall passes through the connecting plate and links to each other with linkage display mechanism, the both ends of connecting plate are articulated with smoke generation module and linkage display mechanism respectively, when smoke generation module triggered, the position of simulation landmine body can be shown through the outstanding hole of simulation landmine body up end to the linkage display mechanism.

Description

Fuming anti-infantry training mine

Technical Field

The invention belongs to the technical field of military equipment, and particularly relates to a fuming anti-infantry training mine.

Background

The anti-infantry training mine is widely applied to scenes such as military teaching, military training and the like, and meanwhile, along with the national international strategy guidance, the anti-infantry mine which is buried in the past needs to be cleaned, a large amount of mine sweeping equipment is born by the accident, and accordingly the performance requirement of the training mine for actual combat is improved.

Most of the currently used anti-infantry training land mines are filled with gypsum, a shell and a detachable end cover are arranged outside the anti-infantry training land mines, the anti-infantry training land mines can only simulate the appearance, weight, burying training and other functions of the actual land mines, and can not effectively verify the corresponding percussion function of the training land mines on mine sweeping equipment, or the land mines need to be disassembled to check whether indentations occur on internal gypsum blocks or witness plates to judge whether the land mines are excited, the operation is complex, the remote and high-efficiency judgment can not be carried out, smoke blocks need to be replaced again every time, which smoke blocks are triggered can not be identified during replacement, and if the simulated land mines are completely disassembled, a large amount of time is consumed; meanwhile, the existing training mines cannot reflect the real triggering situation in real time and store the real data of the trainers.

Disclosure of Invention

The invention overcomes the defects in the prior art and provides a smokeable anti-infantry training mine.

In order to solve the technical problems, the invention adopts the technical scheme that: the fuming anti-infantry training mine comprises a simulated mine body, a remote control configuration module and a portable simulator, wherein the remote control configuration module is used for receiving data information of the simulated mine body and the portable simulator and carrying out comparative analysis;

the simulated mine body is internally provided with a smoke generating module, a linkage display mechanism, a sound generator and a power supply, the power supply, the sound generator and the smoke generating module are electrically connected, the smoke generating module comprises a smoke generating block, a striking piece and a blocking piece, the blocking piece is arranged between the smoke generating block and the striking piece, the baffle plate is positioned at the upper end of the smoke generating block, the middle position of the baffle plate is provided with a needle-pricked fire cap, the striking piece is provided with a pricker at the position opposite to the needle-pricked fire cap, the lower end of the smoke block is provided with a plurality of elastic components, the outer side wall of the smoke generating module is connected with the linkage display mechanism through a connecting plate, two ends of the connecting plate are respectively hinged with the smoke generating module and the linkage display mechanism, when the smoke generation module is triggered, the linkage display mechanism can penetrate through a protruding hole in the upper end face of the simulated mine body to display the position of the simulated mine body.

The separation blade includes first separation blade and second separation blade, first separation blade sets up in the lower terminal surface of second separation blade, first separation blade sets up with the laminating of the piece of fuming, the through-hole diameter of first separation blade is D1, the acupuncture cap of angering sets up in the through-hole of second separation blade, the through-hole diameter of second separation blade is D2, the diameter of acupuncture cap of angering is D.

The relationship between the through hole diameter D1 of the first flap, the through hole diameter D2 of the second flap, and the diameter D of the needle-piercing cap is: d1 < D2.

Linkage display mechanism is including articulating movable rod and the display piece in the inside bottom of simulation landmine body, the movable rod sets up between display piece and smog emergence module, be provided with between movable rod and the simulation landmine body bottom and promote the movable rod to display piece direction pivoted torsional spring, the one end and the torsional spring of movable rod all set up on the base, the top that the movable rod deviates from smog emergence module one side is provided with horizontal limiting plate.

The display part comprises an infrared column and a main spring, the top end of the main spring is provided with a round table which is extended outwards, the center position of the upper end of the round table is connected with the infrared column, and the horizontal limiting plate is abutted against the upper end face of the round table to enable the main spring to be in a tightening state.

The simulating mine is characterized in that a horizontal guide piece is arranged on the inner side wall, close to the infrared column, of the simulating mine body, a guide hole is formed in the horizontal guide piece, and the infrared column penetrates through the guide hole.

The circumference surface of infrared post is provided with the phosphor strip, and its top is cone structure.

The remote control configuration module comprises a data monitoring and processing unit and a wireless receiving unit, wherein the output end of the wireless receiving unit is connected with the input end of the data monitoring and processing unit, the data monitoring and processing unit is connected with a discrimination analysis unit and an algorithm unit, the discrimination analysis unit and the algorithm unit can analyze and process digital signals in the data monitoring and processing unit and feed back processed results to the data monitoring and processing unit.

The simulation mine body and the portable simulator are provided with wireless communication modules, are connected with a wireless receiving unit and send position information and explosion data to the data monitoring and processing unit.

The data monitoring and processing unit also comprises a data storage unit which is communicated with the data monitoring and processing unit, and the data monitoring and processing unit can transmit the data information processed by the discriminant analysis unit to the data storage unit.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention adopts the advantages that the smoke generating module can reflect the physical characteristics and the action principle of a typical mine, can generate smoke and warn after excitation so as to facilitate remote observation, integrally simulates the appearance, materials, action pressure, appearance size, weight and environmental adaptability of a training mine to be consistent with those of a real mine, and has the characteristics of convenient operation, safety, reliability and no explosion hazard.

2. According to the invention, the linkage display mechanism and the smoke generation module are matched with each other, once the smoke generation module is triggered, the infrared column in the linkage display mechanism jumps out of the protruding hole, when a smoke block is replaced, a conventional practice mine needs to be disassembled to check the indentation of the gypsum block or be completely disassembled to determine whether the smoke block is used, the efficiency is improved, and the labor intensity is reduced.

3. The invention adopts the wireless communication module arranged in the simulated mine body to be matched with the portable simulator and the remote control configuration module in real time, and the information of the simulated mine body and the portable simulator of each participant is embedded into the remote control configuration module in advance, so as to transmit the data information of the training mine and the participant in real time.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a simulated mine body according to the present invention;

FIG. 3 is an enlarged view of FIG. 2A of the present invention;

FIG. 4 is an enlarged view of FIG. 2B of the present invention;

FIG. 5 is a schematic structural view of the torsion spring and the movable rod of the present invention;

fig. 6 is a top view of the simulated mine body of the present invention.

In the figure: the simulation landmine comprises a simulation landmine body 1, a remote control configuration module 2, a portable simulator 3, a sound generator 4, a smoke block 5, a striking plate 6, a needle-prick fire cap 7, a pricker 8, an elastic component 9, a connecting plate 10, a protruding hole 11, a first blocking plate 12, a second blocking plate 13, a movable rod 14, a torsion spring 15, a base 16, a horizontal limiting plate 17, an infrared column 18, a main spring 19, a circular truncated cone 20, a horizontal guiding piece 21 and a smoke exhaust hole 22.

Detailed Description

As shown, in the first embodiment: the fuming anti-infantry training mine comprises a simulated mine body 1, a remote control configuration module 2 and a portable simulator 3, wherein the remote control configuration module 2 is used for receiving data information of the simulated mine body 1 and the portable simulator 3 and carrying out comparative analysis; before training, the information of the simulated mine body 1 and the portable simulators 3 of each participant is embedded into the remote control configuration module 2 (the portable simulators are carried by the participants).

The remote control configuration module 2 comprises a data monitoring and processing unit and a wireless receiving unit, wherein the output end of the wireless receiving unit is connected with the input end of the data monitoring and processing unit, the data monitoring and processing unit is connected with a discrimination analysis unit and an algorithm unit, the discrimination analysis unit compares and analyzes data information of the portable simulator with data information of the simulated mine body to determine the position information of the personnel involved in training, whether the personnel involved in training detonate, the detonation condition, the damage condition and the like are transmitted in real time, the algorithm unit can calculate and analyze the data information, the data information is presented in the form of an excel table, and the processed result is fed back to the data monitoring and processing unit.

The simulation mine body 1 and the portable simulator 3 are provided with wireless communication modules, are connected with a wireless receiving unit and send position information and explosion data to the data monitoring and processing unit.

The data monitoring and processing unit further comprises a data storage unit, the data storage unit is communicated with the data monitoring and processing unit, the data monitoring and processing unit can transmit data information processed by the discriminant analysis unit to the data storage unit, previous training information can be obtained in the training process in the future, comparison is carried out, and the training effect of parameter personnel is improved.

Example two: the simulated mine is characterized in that a smoke generation module, a linkage display mechanism, a sound generator 4 and a power supply are arranged in the simulated mine body 1, the power supply, the sound generator 4 and the smoke generation module are electrically connected, the smoke generation module comprises a smoke generation block 5, a striking piece 6 and a blocking piece, the blocking piece is arranged between the smoke generation block 5 and the striking piece 6, the blocking piece is positioned at the upper end of the smoke generation block 5, a needle-pricked fire cap 7 is assembled at the middle position of the blocking piece, a pricking pin 8 is arranged at the position, opposite to the striking piece 6 and the needle-pricked fire cap 7, when the striking piece 6 is pressed, the pricking pin 8 is driven to enter the needle-pricked fire cap 7, the smoke generation block 5 is triggered, the smoke generation module integrally descends, a plurality of elastic components 9 are arranged at the lower end of the smoke generation block 5, the elastic components 9 are springs, the outer side wall of the smoke generation module is connected with the linkage display mechanism through a connecting plate 10, the two ends of the connecting plate 10 are respectively hinged with the smoke generation module and the linkage display mechanism, and when the smoke generation module is triggered, the linkage display mechanism can penetrate through a protruding hole 11 on the upper end face of the simulated mine body 1 to display the position of the simulated mine body 1.

The blocking piece of the second real-time embodiment comprises a first blocking piece 12 and a second blocking piece 13, the first blocking piece 12 is arranged on the lower end face of the second blocking piece 13, the first blocking piece 12 is attached to the smoke generating block 5, the diameter of a through hole of the first blocking piece 12 is D1, the acupuncture fire cap 7 is arranged in the through hole of the second blocking piece 13, the diameter of the through hole of the second blocking piece 13 is D2, and the diameter of the acupuncture fire cap 7 is D; the relationship between the through hole diameter D1 of the first shutter 12, the through hole diameter D2 of the second shutter 13 and the diameter D of the needle-piercing cap 7 is: d1 < D2.

In this embodiment, linkage display mechanism is including articulating at the movable rod 14 and the display part of the inside bottom of simulation landmine body 1, movable rod 14 sets up between display part and smog generation module, smog generation module triggers the back whole decline, thereby connecting plate 10 rotates to the direction of the piece 5 of fuming and drives movable rod 14 to the equidirectional motion, be provided with between movable rod 14 and the 1 bottom of simulation landmine body and promote movable rod 14 to display part direction pivoted torsional spring 15, the one end and the torsional spring 15 of movable rod 14 all set up on base 16, the top that movable rod 14 deviates from smog generation module one side is provided with horizontal limiting plate 17.

The display part comprises an infrared column 18 and a main spring 19, a round table 20 which extends outwards is arranged at the top end of the main spring 19, the center position of the upper end of the round table 20 is connected with the infrared column 18, when the smoke generation module is triggered, the movable rod 14 moves, the horizontal limiting plate 17 is not abutted to the upper end face of the round table 20 any more, the main spring 19 is in a loose state, and at the moment, the infrared column 18 pops out of the upper end face of the simulated mine body 1.

A horizontal guide piece 21 is arranged on the inner side wall of the simulated mine body 1 close to the infrared column 18, a guide hole is formed in the horizontal guide piece 21, and the infrared column 18 penetrates through the guide hole; the upper end face of the simulated mine body 1 is provided with a smoke vent 22; the circumferential outer surface of the infrared column 18 is provided with a fluorescent strip, and the top end of the fluorescent strip is of a cone structure.

The above embodiments are merely illustrative of the principles of the present invention and its effects, and do not limit the present invention. It will be apparent to those skilled in the art that modifications and improvements can be made to the above-described embodiments without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications or changes be made by those skilled in the art without departing from the spirit and technical spirit of the present invention, and be covered by the claims of the present invention.

Claims (10)

1. The fuming anti-infantry training mine is characterized by comprising a simulated mine body (1), a remote control configuration module (2) and a portable simulator (3), wherein the remote control configuration module (2) is used for receiving data information of the simulated mine body (1) and the portable simulator (3) and carrying out comparative analysis;

the simulated mine is characterized in that a smoke generation module, a linkage display mechanism, a sound generator (4) and a power supply are arranged in the simulated mine body (1), the power supply, the sound generator (4) and the smoke generation module are electrically connected, the smoke generation module comprises a smoke generation block (5), a striking piece (6) and a blocking piece, the blocking piece is arranged between the smoke generation block (5) and the striking piece (6), the blocking piece is positioned at the upper end of the smoke generation block (5), a needle-pricked fire cap (7) is assembled at the middle position of the blocking piece, a pricking needle (8) is arranged at the position, opposite to the needle-pricked fire cap (7), of the striking piece (6), a plurality of elastic components (9) are arranged at the lower end of the smoke generation block (5), the outer side wall of the smoke generation module is connected with the linkage display mechanism through a connecting plate (10), and the two ends of the connecting plate (10) are respectively hinged with the smoke generation module and the linkage display mechanism, when the smoke generation module is triggered, the linkage display mechanism can penetrate through a protruding hole (11) on the upper end face of the simulated mine body (1) to display the position of the simulated mine body (1).

2. The smokable anti-infantry training mine of claim 1, wherein said barrier sheet comprises a first barrier sheet (12) and a second barrier sheet (13), said first barrier sheet (12) is disposed on the lower end face of said second barrier sheet (13), said first barrier sheet (12) is attached to said smoke block (5), the diameter of said through hole of said first barrier sheet (12) is D1, said fire-piercing cap (7) is disposed in said through hole of said second barrier sheet (13), the diameter of said through hole of said second barrier sheet (13) is D2, and the diameter of said fire-piercing cap (7) is D.

3. A smokable anti-infantry training mine according to claim 2, wherein said relationship between said through hole diameter D1 of said first flap (12), said through hole diameter D2 of said second flap (13) and said diameter D of said needle fire cap (7) is: d1 < D2.

4. The smokeable anti-infantry training mine of claim 1, wherein the linkage display mechanism comprises a movable rod (14) and a display part hinged at the bottom end inside the simulated mine body (1), the movable rod (14) is arranged between the display part and the smoke generation module, a torsion spring (15) capable of pushing the movable rod (14) to rotate towards the display part is arranged between the movable rod (14) and the bottom end of the simulated mine body (1), one end of the movable rod (14) and the torsion spring (15) are both arranged on the base (16), and a horizontal limiting plate (17) is arranged at the top end of one side of the movable rod (14) departing from the smoke generation module.

5. The smokeable anti-infantry training mine according to claim 4, wherein the display member comprises an infrared column (18) and a main spring (19), a round platform (20) which expands outwards is arranged at the top end of the main spring (19), the center of the upper end of the round platform (20) is connected with the infrared column (18), and the horizontal limiting plate (17) is abutted against the upper end face of the round platform (20) to enable the main spring (19) to be in a compact state.

6. A smokeable anti-infantry training mine according to claim 5, wherein a horizontal guide (21) is provided on the inner side wall of the simulated mine body (1) near the infrared column (18), a guide hole is provided on the horizontal guide (21), and the infrared column (18) is arranged through the guide hole.

7. A smokable anti-infantry training mine according to claim 6, wherein said outer circumferential surface of said infrared column (18) is provided with a fluorescent strip having a conical configuration at its apex.

8. The smokeable anti-infantry training mine according to claim 1, wherein the remote control configuration module (2) comprises a data monitoring and processing unit and a wireless receiving unit, an output end of the wireless receiving unit is connected with an input end of the data monitoring and processing unit, the data monitoring and processing unit is connected with a discrimination analysis unit and an algorithm unit, and both the discrimination analysis unit and the algorithm unit can analyze and process digital signals in the data monitoring and processing unit and feed back processed results to the data monitoring and processing unit.

9. The smokeable anti-infantry training mine according to claim 8, wherein the simulation mine body (1) and the carry-on simulator (3) are provided with wireless communication modules, and are connected with a wireless receiving unit to send position information and explosion data to the data monitoring and processing unit.

10. The smokeable anti-infantry trainer mine according to claim 8, wherein the data monitoring and processing unit further comprises a data storage unit, the data storage unit is communicated with the data monitoring and processing unit, and the data monitoring and processing unit can transmit the data information processed by the discriminant analysis unit to the data storage unit.

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