CN213208766U - Acousto-optic-electric simulation infantry mine-jumping device - Google Patents

Abstract

The utility model discloses an acoustoelectric simulation infantry mine-jumping device, which consists of a simulation mine main body, a fuse mechanism, a jumping cylinder, a control circuit mainboard, a light-emitting device, a light-emitting and smoke-generating device, a press-sending or pull-sending device, a spring frame control system, a safety device and a power switch; this utility model discloses the device is unanimous completely with real M16 infantry landmine appearance, operating procedure, theory of operation, weight to increased brand-new reputation electricity simulation device on the basis of traditional rubber simulation landmine, produced perception effect when having imitated the landmine blasting. The anti-infantry mine can completely replace an M16 anti-infantry mine or a traditional rubber mine during army training, achieves real effect on the basis of safety and reliability, ensures that officers and soldiers can know the performance of the anti-infantry mine more intuitively during training, and masters the using and removing method of the anti-infantry mine.

Description

Acousto-optic-electric simulation infantry mine-jumping device

Technical Field

The utility model belongs to the technical field of the training is equipped, in particular to sound photoelectricity simulation infantry mine-jumping device.

Background

The anti-infantry landmine or the traditional rubber landmine is a common landmine in a battlefield, is frequently used in army training, but has no device for simulating infantry mine jumping with good simulation function, and influences the development of army training.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an acoustoelectric simulation infantry mine-jumping device, which comprises a simulation mine main body, a fuse mechanism, a jumping cylinder, a control circuit main board, a light-emitting device, a light-emitting and smoke-generating device, a press-sending or pulling device, a spring frame control system, a safety device and a power switch;

the central position of the mine body is provided with a main fuze mechanism and a main mine tripping control body in a penetrating and serial mode;

the top end of the fuse is provided with an auxiliary fuse firing pin, and an auxiliary fuse pulling mechanism is arranged through a spring mechanism;

an auxiliary fuse pull ring is attached to the outer side of the auxiliary fuse pulling mechanism and led out of the main body;

the pull ring is used in an external force hair pulling mode, and an auxiliary fuse safety lock is arranged at the bottom side of the pull ring to prevent accidental actions from triggering hair pulling;

the auxiliary fuse pulling mechanism is directly arranged on the fuse main body, the main body internally comprises various sensors, and signals of the sensors are directly connected with the control circuit board;

the light-emitting device, the light-emitting and smoke-generating device and the control circuit board are uniformly installed at the upper end of the mine main body, the barrel-jumping ring is located at the top end of the mine main body, and the electric signals and the control signals of the light-emitting device, the light-emitting and smoke-generating device are connected into the control circuit board.

Preferably, the control circuit is provided with a power switch structure.

Preferably, the high-capacity explosion-proof lithium battery pack is selected as the lightning tripping device.

This utility model discloses the device is unanimous completely with real M16 infantry landmine appearance, operating procedure, theory of operation, weight to increased brand-new reputation electricity simulation device on the basis of traditional rubber simulation landmine, produced perception effect when having imitated the landmine blasting. The anti-infantry mine can completely replace an M16 anti-infantry mine or a traditional rubber mine during army training, achieves real effect on the basis of safety and reliability, ensures that officers and soldiers can know the performance of the anti-infantry mine more intuitively during training, and masters the using and removing method of the anti-infantry mine.

Drawings

Fig. 1 is the utility model discloses embodiment 1's sound photoelectricity emulation simulation infantry mine jumper's schematic structure drawing.

Fig. 2 is a flow chart of control circuit motherboard data processing.

In the figure, 1, a safety device; 2. a sound producing device; 3. a power switch; 4. a spring control system; 5. A fuse mechanism; 6. a mine body; 7. a light emitting, smoke generating device; 8. a control circuit main board; 9. jumping the cylinder; 10. a hair press or hair puller.

Detailed Description

As shown in fig. 1, the utility model relates to an acoustoelectric simulation infantry mine-jumping device is unanimous with M16 infantry mine-jumping appearance structure and real thunder, by simulation landmine main part, detonator mechanism, jump a section of thick bamboo, control circuit mainboard, sound production, luminous, smoke generating device, pressure hair or pulling device, play frame control system, safeties, switch etc. and constitute.

A main detonator mechanism and a main mine tripping control body are installed in a penetrating and serial mode at the center position of a mine body of an acoustic-optical-electrical simulation infantry mine tripping device. The top end of the fuse is provided with an auxiliary fuse firing pin, and the auxiliary fuse is pulled and sent out by a spring mechanism. An auxiliary fuse pull ring is attached to the outer side of the auxiliary fuse pulling mechanism and led out of the main body. The pull ring is used in an external force hair pulling mode, and an auxiliary fuse safety lock is arranged on the bottom side of the pull ring to prevent accidental actions from triggering hair pulling. The auxiliary fuse hair-pulling mechanism is directly arranged on the fuse main body, the main body internally comprises various sensors, and signals of the sensors are directly connected with the control circuit board.

The luminous device, luminous, smoke generating device and control circuit board are installed in the land mine main part upper end in unison, and the jump barrel ring is in its top, and luminous device, luminous, smoke generating device's signal of telecommunication and control signal are connected in control circuit board, and when the detonator triggered, control circuit board will send trigger signal, arouse luminous device, luminous, smoke generating device, send out sound, light, signal of telecommunication.

The control circuit is internally provided with a power switch structure, after the power supply is started, the fuze mechanism is utilized to press and send out to simulate the firing process, the control circuit is arranged in the detonator body, the display part is arranged in the middle of the detonator body and is triggered by the main fuze pressure spring linkage device, and when the mine is mined or a trip wire is pulled, the press-sending safety or the pull-sending safety is respectively unlocked.

An acoustoelectric simulation infantry mine-jumping device can trigger a fuse by adopting two triggering modes of wake-up and pressure-firing, wherein the detonation tension is 3-5 kilograms of force, and the detonation pressure is 5-20 kilograms of force. The fire light during explosion is simulated through the built-in flash lamp, and the smoke and the sound during explosion are simulated through the shell, so that the whole simulation process of the M16 infantry landmine is achieved.

The whole artificial lightning body has the take-off function, and the take-off height is 0.6-2 m; after the landmine is triggered, the process of the take-off of the landmine can be simulated, and the alarm is given in the modes of sound, light, smoke and the like; the safety fuse also has related functions of hair pressing, hair pulling, primary safety, secondary safety, safety dismantling, fuse dismantling and the like; the projectile body adopts a standard 95 empty package projectile to assist in pushing and jumping, and the standard 95 empty package projectile belongs to conventional ammunition for troops, and is convenient to train and use.

The utility model relates to an acoustoelectric simulation infantry torpedo device utilizes a fuse mechanism to simulate a firing process, a display part is arranged in the middle of a mine body, an ammunition combustion chamber is arranged at the lower part, 95-type hollow shells are arranged in the combustion chamber inside the mine body and are triggered through a fuse firing pin linkage device, when a mine is pressed or a trip wire is pulled, a pressure fuse or a pull fuse is respectively unlocked, a firing spring pushes a machine needle to move downwards to impact the primer of the hollow shells so as to enable the hollow shells to burn, a large amount of gas is generated in the combustion chamber to push the mine body to jump upwards under the reaction force of a jump cylinder, when the mine body jumps out by about 1 meter, a control circuit is triggered, a central processing module controls a flash device to flash white light according to the delay time of the mine, a smoke generating device to generate a simulated explosion effect, and after the whole process is finished, the central processing unit controls the central processing unit to generate red and blue flashing lights and different sounds, the detonator body is retrieved for the next reuse.

The utility model discloses a control circuit mainboard among sound photoelectricity emulation simulation infantry torpedo device mainly gathers processing to each fuze received trigger information, realizes receiving various parameters and sets up, functions such as received instruction, communication control. The control circuit mainboard information processing core adopts a high-performance digital signal microcontroller, the operation speed of 180MHz can reach 225DMIPS at most, the control circuit mainboard has a memory unit with 2M, and high-efficiency operation and information processing capabilities can be provided. The data processing flow is shown in fig. 2:

the working modes of the device for simulating the infantry mine jump by the aid of the sound and light and electricity are divided into a standby working mode and an explosion working mode, the infantry mine simulator is in the standby working mode under normal conditions, and when an explosion signal is received, the infantry mine simulator is prevented from entering the explosion working mode. In the standby working mode, only the information processing unit in the control circuit main board works. When the trigger condition is detected, the information processing unit controls all the modules to start working, and the system enters an explosion working state.

The utility model discloses an acoustoelectric simulation infantry mine-jumping device chooses for use explosion-proof lithium cell group of large capacity. The standby working mode and the explosion working mode are comprehensively considered during system design, the polymer lithium battery pack with the electric quantity of 500mAh is bound together according to the performance index of the system and the total power output requirement, the polymer lithium battery pack is placed in an explosion-proof cabin, the high and low temperature resistance is realized, and the continuous working time is not less than 24h after the battery pack is fully charged.

The utility model can be used repeatedly after the initiating explosive device is replaced, and the service life is not less than 50 times; and the initiating explosive device mounting position and the charging device adopt a public waterproof joint plugging mode, and the device has the advantages of convenience in mounting and good waterproof performance.

The utility model discloses an acoustoelectric simulation infantry torpedo device contains the luminous, the power generation facility module of high emulation, when control circuit board detected the landmine and detonates the signal, triggers this light-emitting device after the landmine springs, and the flashing of control flashing light punishs simultaneously and sends out cigarette cap and bee calling organ, produces smog and does not have sound to sound, light, electric effect when emulation landmine detonates, automatic switch-over in the dormant state when no practical condition.

The utility model discloses a detonator device among sound light electricity emulation simulation infantry torpedo device has can dismantle the function, can be at the concrete operating function of detonator of simulation thunder removing, more presses close to the actual combat effect.

The shell of the acoustic-optical-electrical simulation infantry mine-jumping device adopts the same material as the actual M16 infantry mine-jumping, so that the device can be conveniently detected by a mine detector or explosive detection equipment; is convenient for searching and recovering after explosion.

The utility model discloses a sound photoelectricity emulation simulation infantry is jumped a thunderbolt and is adopted stereoplasm metal material one shot forming to simulate training and jump a section of thick bamboo, and it is tight to combine with the thunder body, and the surface does not have the welded joint and adopts high temperature baking finish to spout the system and form, and rust-resistant rain proofness can be good. The bounce bin adopts a large-space chamber-returning shooting technology, ammunition residue is safely and conveniently recovered, and the ammunition residue is not influenced by terrain conditions.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. An acoustoelectric and photoelectric simulation infantry mine-jumping device is characterized by comprising a simulation mine main body, a fuse mechanism, a jumping cylinder, a control circuit mainboard, a light-emitting device, a light-emitting and smoke-generating device, a press-sending or pull-sending device, a spring frame control system, a safety device and a power switch;

the central position of the mine body is provided with a main fuze mechanism and a main mine tripping control body in a penetrating and serial mode;

the top end of the fuse is provided with an auxiliary fuse firing pin, and an auxiliary fuse pulling mechanism is arranged through a spring mechanism;

an auxiliary fuse pull ring is attached to the outer side of the auxiliary fuse pulling mechanism and led out of the main body;

the pull ring is used in an external force hair pulling mode, and an auxiliary fuse safety lock is arranged at the bottom side of the pull ring to prevent accidental actions from triggering hair pulling;

the auxiliary fuse pulling mechanism is directly arranged on the fuse main body, the main body internally comprises various sensors, and signals of the sensors are directly connected with the control circuit board;

the light-emitting device, the light-emitting and smoke-generating device and the control circuit board are uniformly installed at the upper end of the mine main body, the barrel-jumping ring is located at the top end of the mine main body, and the electric signals and the control signals of the light-emitting device, the light-emitting and smoke-generating device are connected into the control circuit board.

2. The acousto-optic electro-optic simulation infantry mine tripper device according to claim 1, wherein a power switch structure is installed in the control circuit.

3. The acoustoelectric simulation infantry mine-jumping device of claim 1, wherein a high-capacity explosion-proof lithium battery pack is selected as the mine-jumping device.

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