CN205192327U - Airborne enemy's of simulated gunnery work standard device - Google Patents

Abstract

The utility model provides an airborne enemy's of simulated gunnery work standard device, by trigger mechanism, emulation people mechanism and remote -control gear constitute, trigger mechanism is by the emulation rifle, and a housing, first power, transmission switch, control circuit and infrared emission unit constitute, first power, transmission switch, a control circuit arranged in the inner cavity of th, infrared emission unit pass through that the wire is connected and the shell install together on the emulation rifle, emulation people mechanism is by the plastic case, the emulation people, outer gas holder, interior gas holder, it is first, the second spiracle core print seat, it is first, and secondly, the third, the fourth, the 5th electromagnetism pneumatic valve, the second source, switch, infrared receiver, the control unit and wireless receiving unit are formed, it is first, and secondly, the third, the fourth, the 5th electromagnetism pneumatic valve, the second source, switch, infrared receiver, the control unit and wireless receiving unit pass through the wire and connect, all fitting ups are on the emulation people. The utility model discloses can simulate the various states of hostile paratrooper aloft the time to and the training personnel are with its state that shoots down.

Description

What enemy was dropped from the air in a kind of simulated gunnery makes training apparatus

Technical field

The utility model relates to the equipment that army's operational training at ordinary times uses, especially two-layer quality of rubber materials air accumulator is had below human simulation mechanism head, interior air accumulator inside is filled with helium, outer air accumulator inside is filled with air, in operational training, human simulation mechanism can swim in the air, coordinate the personnel of training to control to be positioned at aerial human simulation mechanism by remote-control gear to move vertically and horizontally, reach state when the hostile parachutist of simulation takes advantage of parachute to fall, trainer is trained to take advantage of parachute from the subject shot dead when falling in the air in hostile parachutist with this, in the trainer very first time, the infrared emission unit be arranged on trigger mechanism gun-simulation is aimed at the infrared receiver outside human simulation mechanism in the middle part of air accumulator outside front ends, after pressing the button being arranged on emission power switch on trigger mechanism gun-simulation, the first electromagnetic gas valve being positioned at human simulation mechanism air accumulator lower end under human simulation mechanism infrared receiver and interlock circuit effect can be opened, so, in human simulation mechanism, the helium of air accumulator inside is discharged, human simulation mechanism due to the buoyancy not having helium can from falling in the air, thus simulate hostile parachutist and shot down from state when falling in the air, that trains a kind of simulated gunnery of the effect reached to drop from the air enemy to trainer respond and fighting capacity level thus makes training apparatus.

Background technology

At present, known technology, there is no a kind of facility being applied to the enemy that army's trainer training shot is come to attack in the air, at ordinary times, owing to there is no suitable training facilities, trainer can not grasp the main points of shooting hostile parachutist, in actual operation, hostile parachutist take advantage of parachute from wafing in the air time, meeting affected by environment irregular movement aloft, shoot hostile parachutist to combatant in the case and bring great obstruction, the actual effect doing war shooting is had a greatly reduced quality, therefore, combatant seems particularly important by the simulation hostile parachutist of facility practice at shooting at ordinary times.

Utility model content

In order to overcome existing technology, there is no a kind of facility being applied to the enemy that army's trainer training shot is come to attack in the air, trainer can not grasp the main points of shooting hostile parachutist, in actual operation, hostile parachutist takes advantage of parachute from lower meeting affected by environment irregular movement aloft of wafing in the air, cause the drawback that combatant's fire effect is bad, the utility model provides below a kind of human simulation mechanism head two-layer quality of rubber materials air accumulator, interior air accumulator inside is filled with helium, outer air accumulator inside is filled with air, in operational training, human simulation mechanism can swim in the air, coordinate the personnel of training to control to be positioned at aerial human simulation mechanism by remote-control gear to move vertically and horizontally, reach state when the hostile parachutist of simulation takes advantage of parachute to fall, trainer is trained to take advantage of parachute from the subject shot dead when falling in the air in hostile parachutist with this, in the trainer very first time, the infrared emission unit be arranged on trigger mechanism gun-simulation is aimed at the infrared receiver outside human simulation mechanism in the middle part of air accumulator outside front ends, after pressing the button being arranged on emission power switch on trigger mechanism gun-simulation, the first electromagnetic gas valve being positioned at human simulation mechanism air accumulator lower end under human simulation mechanism infrared receiver and interlock circuit effect can be opened, so, in human simulation mechanism, the helium of air accumulator inside is discharged, human simulation mechanism due to the buoyancy not having helium can from falling in the air, thus simulate hostile parachutist and shot down from state when falling in the air, that trains a kind of simulated gunnery of the effect reached to drop from the air enemy to trainer respond and fighting capacity level thus makes training apparatus.

The utility model solves the technical scheme that its technical problem adopts:

What enemy was dropped from the air in simulated gunnery makes a training apparatus, it is characterized in that by trigger mechanism, human simulation mechanism and remote-control gear are formed, and trigger mechanism is by gun-simulation, shell, first power supply, emission power switch, control circuit and infrared emission unit composition, first power supply and control circuit are installed in the enclosure, emission power switch is arranged on the gun stock left part of gun-simulation, lower end in the middle part of the body of a gun that shell is arranged on gun-simulation, infrared emission unit is arranged on the left front end of gun barrel of gun-simulation, first positive source is connected by wire with emission power switch one end, the emission power switch other end is connected by wire with control circuit cathode power supply input, control circuit cathode power supply output is connected by wire with infrared emission unit cathode power supply input, the first power cathode and control circuit negative power supply input, infrared emission unit negative power supply input is by wired earth, and human simulation mechanism is by plastic casing, human simulation, outer air accumulator, interior air accumulator, first valve core print seat, duaspiracle core print seat, first electromagnetic gas valve, second electromagnetic gas valve, 3rd electromagnetic gas valve, 4th electromagnetic gas valve, 5th electromagnetic gas valve, second source, power switch, infrared receiver, control unit and radio receiving unit composition, human simulation, outer air accumulator, interior air accumulator adopts elastomeric material, it is inner that interior air accumulator is arranged on outer air accumulator, under outer air accumulator is arranged on human simulation head, first valve core print seat is arranged on the bottom right outboard end of interior air accumulator, duaspiracle core print seat is arranged on outer air accumulator bottom right outboard end, first electromagnetic gas valve is arranged on middle part outboard end under interior air accumulator, second electromagnetic gas valve is arranged on outer air accumulator lower left quarter outboard end, 3rd electromagnetic gas valve is arranged on outer air accumulator left portion outboard end, 4th electromagnetic gas valve is arranged on outer air accumulator right middle outboard end, 5th electromagnetic gas valve is arranged on the upper right outboard end of outer air accumulator, and infrared receiver is arranged in the middle part of outer air accumulator outside front ends, second source, control unit and radio receiving unit are arranged on plastic casing inside, and power switch is arranged on the left outside end in plastic casing bottom, and second source positive pole is connected by wire with power switch one end, the power switch other end and infrared receiver cathode power supply input, control unit cathode power supply input, radio receiving unit cathode power supply input is connected by wire, infrared receiver signal output part is connected by wire with control unit signal input part, control unit cathode power supply output is connected by wire with the first electromagnetic gas valve cathode power supply input, radio receiving unit four cathode power supply output respectively with the second electromagnetic gas valves, 3rd electromagnetic gas valve, 4th electromagnetic gas valve, the cathode power supply input of the 5th electromagnetic gas valve is connected by wire, second source negative pole and the first electromagnetic gas valve, second electromagnetic gas valve, 3rd electromagnetic gas valve, 4th electromagnetic gas valve, 5th electromagnetic gas valve, infrared receiver, control unit, the negative power supply input of radio receiving unit passes through wired earth, when being full of helium through the first valve core print seat toward interior air accumulator inside, after through duaspiracle core print seat, air accumulator inside is full of air outward, human simulation mechanism can swim in the air, remote-control gear is ZYO300/A72 type radio transmitter finished product, its wireless signal transmission distance is 300 meters, and ZYO300-A72 type radio transmitter finished product is from being furnished with a radio transmitter reserve battery, voltage is that 12V, ZYO300-A72 type radio transmitter finished product has four wireless signal transmission key switches, and the wireless signal that remote-control gear is launched acts on the radio receiving unit of human simulation mechanism.

First power supply of described trigger mechanism is four joint No.5 cells, and voltage is 6V.

The emission power switch of described trigger mechanism is button-type point dynamic formula power switch.

The control circuit of described trigger mechanism is by time-base integrated circuit, resistance and ceramic disc capacitor composition, time-base integrated circuit model is NE555, resistance has two, ceramic disc capacitor has two, 4 pin of time-base integrated circuit are connected by wire with 8 pin and first resistance one end, 7 pin of time-base integrated circuit and first resistance other end, second resistance one end is connected by wire, 2 pin of time-base integrated circuit and 6 pin and second resistance other end, first ceramic disc capacitor one end is connected by wire, 5 pin of time-base integrated circuit are connected by wire with second ceramic disc capacitor one end, 1 pin of time-base integrated circuit and first ceramic disc capacitor other end, second ceramic disc capacitor other end passes through wired earth.

The infrared emission unit of described trigger mechanism is made up of the first plastics lens barrel, the first convex lens, resistance and infrarede emitting diode, first plastics lens barrel right-hand member is hermetically-sealed construction, first convex lens are arranged on the left front end of the first plastics lens barrel, it is inner that infrarede emitting diode and resistance are arranged on the first plastics lens barrel, infrarede emitting diode is positioned at the first convex lens right-hand member, and resistance one end is connected by wire with infrarede emitting diode positive pole.

The second source of described human simulation mechanism is lithium storage battery, voltage is 6V.

The infrared receiver of described human simulation mechanism is made up of the second plastics lens barrel, the second convex lens, phototriode and resistance, second plastic lens tube rear end is hermetically-sealed construction, second convex lens are arranged on plastics lens barrel front end, it is inner that phototriode and resistance are arranged on the second plastics lens barrel, phototriode sensitive surface is positioned at the second convex lens rear end, and phototriode pipe collector is connected by wire with resistance one end.

The control unit of described human simulation mechanism is by amplifier integrated circuit, audio coding integrated circuit, ceramic disc capacitor, resistance, adjustable resistance, electrochemical capacitor, silicon rectifier diode, PNP triode, relay and one-way SCR composition, ceramic disc capacitor has three, resistance has three, electrochemical capacitor has two, amplifier integrated circuit model is LM741, audio coding integrated circuit model is LM567, resistance one end, first first, ceramic disc capacitor one end is connected by wire, first resistance other end and second resistance one end, 2 pin of amplifier integrated circuit are connected by wire, second resistance other end and second ceramic disc capacitor one end, 6 pin of amplifier integrated circuit are connected by wire, second ceramic disc capacitor other end is connected by wire with 3 pin of audio coding integrated circuit, 8 pin of audio coding integrated circuit are connected by wire with the negative pole of silicon rectifier diode, 5 pin of audio coding integrated circuit are connected by wire with adjustable resistance one end, 6 pin of audio coding integrated circuit and the adjustable resistance other end, 3rd ceramic disc capacitor one end is connected by wire, 2 pin of audio coding integrated circuit are connected by wire with first electrochemical capacitor positive pole, 1 pin of audio coding integrated circuit is connected by wire with second electrochemical capacitor positive pole, the positive pole of silicon rectifier diode is connected by wire with PNP triode base stage, PNP triode colelctor electrode is connected by wire with relay cathode power supply input, 7 pin of amplifier integrated circuit and 4 pin of audio coding integrated circuit, PNP triode emitter stage, relay one normally opened contact end, one-way SCR anode is connected by wire, another normally opened contact end of relay is connected by wire with the 3rd resistance one end, 3rd the resistance other end is controlled pole with one-way SCR and is connected by wire, 7 pin of 3 pin of amplifier integrated circuit and 4 pin and audio coding integrated circuit, 3rd the ceramic disc capacitor other end, first electrochemical capacitor negative pole, second electrochemical capacitor negative pole, relay negative power supply input passes through wired earth.

The radio receiving unit of described human simulation mechanism is by silicon rectifier diode, wireless receiving circuit, resistance, NPN triode and relay composition, resistance has four, NPN triode has four, relay has four, wireless receiving circuit is the wireless receiving circuit finished product used that matches with ZYO300-A72 type radio transmitter finished product, 1 pin of wireless receiving circuit and the negative pole of silicon rectifier diode, four relay cathode power supply inputs, four relay one normally opened contact ends are connected by wire, 3 pin of wireless receiving circuit and four NPN transistor emitters pass through wired earth, 4 pin of wireless receiving circuit are connected by wire with first resistance one end, first resistance other end is connected by wire with first NPN transistor base, first NPN transistor collector is connected by wire with first relay negative power supply input, 5 pin of wireless receiving circuit are connected by wire with second resistance one end, second resistance other end is connected by wire with second NPN transistor base, second NPN transistor collector is connected by wire with second relay negative power supply input, 6 pin of wireless receiving circuit are connected by wire with the 3rd resistance one end, 3rd the resistance other end is connected by wire with the 3rd NPN transistor base, 3rd NPN transistor collector is connected by wire with the 3rd relay negative power supply input, 7 pin of wireless receiving circuit are connected by wire with the 4th resistance one end, 4th the resistance other end is connected by wire with the 4th NPN transistor base, 4th NPN transistor collector is connected by wire with the 4th relay negative power supply input.

The utility model is full of helium from the first valve core print seat toward interior air accumulator inside, is full of air in air accumulator inside outward from duaspiracle core print seat before using.The utility model beneficial effect is: during use, under the buoyancy that human simulation mechanism produces at helium, float on aerial, coordinate the personnel of training by four wireless signal transmission key switches on operating and remote controlling mechanism ZYO300/A72 type radio transmitter finished product, make second, 3rd, 4th, 5th electromagnetic gas valve opens or closes as required, when the air of outer air accumulator inside is discharged from four electromagnetic gas valves respectively, can control imitation robot mechanism aloft to the left or to the right, move up or down, simulate hostile parachutist from state when taking advantage of parachute to fall in the air, training trainer grasps the rule of engagemeut of hostile parachutist aloft under different conditions, when the trainer very first time, the infrared emission unit be arranged on trigger mechanism gun-simulation is aimed at the infrared receiver of human simulation mechanism, after pressing the button being arranged on emission power switch on trigger mechanism gun-simulation, the first electromagnetic gas valve being positioned at human simulation mechanism air accumulator lower end under the interlock circuit effect of human simulation mechanism can be opened, so, in human simulation mechanism, the helium of air accumulator inside can be discharged, human simulation mechanism due to the buoyancy not having helium can from falling in the air, thus simulate hostile parachutist and shot down from state when falling in the air, thus the effect reached is trained to trainer respond and fighting capacity level.

Accompanying drawing explanation

Fig. 1 is the utility model trigger mechanism structural representation;

Fig. 2 is the utility model human simulation mechanism structure schematic diagram;

Fig. 3 is the utility model trigger mechanism first power supply, emission power switch, circuit diagram between control circuit and infrared emission unit;

Fig. 4 is the utility model human simulation mechanism first electromagnetic gas valve, the second electromagnetic gas valve, the 3rd electromagnetic gas valve, the 4th electromagnetic gas valve, the 5th electromagnetic gas valve, second source, power switch, infrared receiver, circuit diagram between control unit and radio receiving unit;

Fig. 5 is the circuit diagram of the utility model remote-control gear.

Detailed description of the invention

Shown in Fig. 1 and Fig. 2, what enemy was dropped from the air in a kind of simulated gunnery makes training apparatus, by trigger mechanism, human simulation mechanism and remote-control gear are formed, trigger mechanism is by gun-simulation 101, shell 102, first power supply 103, emission power switch 104, control circuit 105 and infrared emission unit composition, first power supply 103 and control circuit 105 are arranged in shell 102, emission power switch 104 is arranged on the gun stock left part of gun-simulation 101, lower end in the middle part of the body of a gun that shell 102 is arranged on gun-simulation 101, infrared emission unit is arranged on the left front end of gun barrel of gun-simulation 101, first power supply 103 positive pole is connected by wire with emission power switch 104 one end, emission power switch 104 other end is connected by wire with control circuit 105 cathode power supply input, control circuit 105 cathode power supply output is connected by wire with infrared emission unit cathode power supply input, first power supply 103 negative pole and control circuit 105 negative power supply input, infrared emission unit negative power supply input passes through wired earth, human simulation mechanism is by plastic casing 201, human simulation 202, outer air accumulator 203, interior air accumulator 204, first valve core print seat 205, duaspiracle core print seat 206, first electromagnetic gas valve 207, second electromagnetic gas valve 208, 3rd electromagnetic gas valve 209, 4th electromagnetic gas valve 210, 5th electromagnetic gas valve 211, second source 212, power switch 213, infrared receiver, control unit 215 and radio receiving unit 216 form, human simulation 202, outer air accumulator 203, interior air accumulator 204 adopts elastomeric material, it is inner that interior air accumulator 204 is arranged on outer air accumulator 203, under outer air accumulator 203 is arranged on human simulation 202 head, first valve core print seat 205 is arranged on the bottom right outboard end of interior air accumulator 204, duaspiracle core print seat 206 is arranged on outer air accumulator 203 bottom right outboard end, first electromagnetic gas valve 207 is arranged on interior air accumulator 204 times middle part outboard ends, second electromagnetic gas valve 208 is arranged on outer air accumulator 203 lower left quarter outboard end, 3rd electromagnetic gas valve 209 is arranged on outer air accumulator 203 left portion outboard end, 4th electromagnetic gas valve 210 is arranged on outer air accumulator 203 right middle outboard end, 5th electromagnetic gas valve 211 is arranged on the upper right outboard end of outer air accumulator 203, infrared receiver is arranged in the middle part of outer air accumulator 203 outside front ends, second source 212, it is inner that control unit 215 and radio receiving unit 216 are arranged on plastic casing 201, power switch 213 is arranged on the left outside end in plastic casing 201 bottom, second source 212 positive pole is connected by wire with power switch 213 one end, power switch 213 other end and infrared receiver cathode power supply input, control unit 215 cathode power supply input, radio receiving unit 216 cathode power supply input is connected by wire, infrared receiver signal output part is connected by wire with control unit 215 signal input part, control unit 215 cathode power supply output is connected by wire with the first electromagnetic gas valve 207 cathode power supply input, radio receiving unit 216 4 cathode power supply output respectively with the second electromagnetic gas valves 208, 3rd electromagnetic gas valve 209, 4th electromagnetic gas valve 210, the cathode power supply input of the 5th electromagnetic gas valve 211 is connected by wire, second source 212 negative pole and the first electromagnetic gas valve 207, second electromagnetic gas valve 208, 3rd electromagnetic gas valve 209, 4th electromagnetic gas valve 210, 5th electromagnetic gas valve 211, infrared receiver, control unit 215, the negative power supply input of radio receiving unit 216 passes through wired earth, when being full of helium through the first valve core print seat 205 toward interior air accumulator 204 inside, after through duaspiracle core print seat 206, air accumulator 203 inside is full of air outward, human simulation mechanism can swim in the air, remote-control gear is ZYO300/A72 type radio transmitter finished product, its wireless signal transmission distance is 300 meters, ZYO300-A72 type radio transmitter finished product is from being furnished with a radio transmitter reserve battery, voltage is 12V, ZYO300-A72 type radio transmitter finished product there are four wireless signal transmission key switches, the wireless signal that remote-control gear is launched acts on the radio receiving unit of human simulation mechanism.The infrared emission unit of trigger mechanism is made up of the first plastics lens barrel 106-1, the first convex lens 106-2, resistance and infrarede emitting diode 106-3, first plastics lens barrel 106-1 right-hand member is hermetically-sealed construction, first convex lens 106-2 is arranged on the left front end of the first plastics lens barrel 106-1, it is inner that infrarede emitting diode 106-3 and resistance are arranged on the first plastics lens barrel 106-1, infrarede emitting diode 106-3 is positioned at the first convex lens 106-2 right-hand member, and resistance one end is connected by wire with infrarede emitting diode 106-3 positive pole.The infrared receiver of human simulation mechanism is made up of the second plastics lens barrel 214-1, the second convex lens 214-2, phototriode 214-3 and resistance, second plastics lens barrel 214-1 rear end is hermetically-sealed construction, second convex lens 214-2 is arranged on plastics lens barrel 214-1 front end, it is inner that phototriode 214-3 and resistance are arranged on the second plastics lens barrel 214-1, phototriode 214-3 sensitive surface is positioned at the second convex lens 214-2 rear end, and phototriode 214-3 colelctor electrode is connected by wire with resistance one end.When the present invention uses, remote-control gear is carried by the people coordinating trainer to train; Before using, be full of helium from the first valve core print seat 205 toward interior air accumulator 204 inside, after from duaspiracle core print seat 206, air accumulator 203 inside is full of air outward, human simulation mechanism can float in the air; After the power switch 213 of human simulation mechanism is opened, second source 212 can input to infrared receiver, control unit 215, radio receiving unit 216 power input, so infrared receiver, control unit 215, radio receiving unit 216 electricly must be in holding state.When needs human simulation mechanism aloft to the left or to the right, simulate hostile parachutist up or down from the state taking advantage of parachute to fall in the air, training trainer grasps the rule of engagemeut of hostile parachutist aloft under different conditions, when coordinating the people of trainer training to be pressed by the wireless signal transmission key switch button of first on remote-control gear, remote-control gear can launch the wireless closure signal of the first via, after the radio receiving unit 216 of human simulation mechanism receives the wireless closure signal of the first via, second electromagnetic gas valve 208 can obtain electric work, its gas circuit is opened, so, the air of outer air accumulator 203 inside can discharge from the second electromagnetic gas valve 208 gas outlet, under the opposite direction active force of air is discharged in air accumulator 203 inside outside, human simulation mechanism can aloft move upward, simulating hostile parachutist takes advantage of parachute from the state moved upward when falling and affect by surrounding environment ascending air in the air, when coordinating the people of trainer training again to be pressed by the wireless signal transmission key switch button of first on remote-control gear, after the radio receiving unit 216 of human simulation mechanism receives the wireless cut-off signal of the first via, second electromagnetic gas valve 208 can dead electricity quit work, its gas circuit is closed, so, human simulation mechanism no longer moves upward, when coordinating the people of trainer training to be pressed by the wireless signal transmission key switch button of second on remote-control gear, remote-control gear can launch the second wireless closure signal in road, after human simulation mechanism radio receiving unit 216 receives the second wireless closure signal in road, 3rd electromagnetic gas valve 209 can obtain electric work, its gas circuit is opened, so, the air of outer air accumulator 203 inside can discharge from the 3rd electromagnetic gas valve 209 gas outlet, under the opposite direction active force of air is discharged in air accumulator 203 inside outside, human simulation mechanism can aloft move right, simulating hostile parachutist takes advantage of parachute from falling the state moved right when lateral airflow affects from left to right by surrounding environment in the air, when coordinating the people of trainer training again to be pressed by the wireless signal transmission key switch button of second on remote-control gear, after the radio receiving unit 216 of human simulation mechanism receives the second wireless cut-off signal in road, 3rd electromagnetic gas valve 209 can dead electricity quit work, its gas circuit is closed, so, human simulation mechanism no longer moves right, when coordinating the people of trainer training to be pressed by the wireless signal transmission key switch button of the 3rd on remote-control gear, remote-control gear can launch the 3rd wireless closure signal in road, after human simulation mechanism radio receiving unit 216 receives the 3rd wireless closure signal in road, 4th electromagnetic gas valve 210 can obtain electric work, its gas circuit is opened, so, the air of outer air accumulator 203 inside can discharge from the 4th electromagnetic gas valve 210 gas outlet, under the opposite direction active force of air is discharged in air accumulator 203 inside outside, human simulation mechanism can aloft to left movement, simulating hostile parachutist takes advantage of parachute from the state to left movement when falling that lateral airflow affects from right to left by surrounding environment in the air, when coordinating the people of trainer training again to be pressed by the wireless signal transmission key switch button of the 3rd on remote-control gear, after the radio receiving unit 216 of human simulation mechanism receives the 3rd wireless cut-off signal in road, 4th electromagnetic gas valve 210 can dead electricity quit work, its gas circuit is closed, so, human simulation mechanism is no longer to left movement, when coordinating the people of trainer training to be pressed by the wireless signal transmission key switch button of the 4th on remote-control gear, remote-control gear can launch the 4th wireless closure signal in road, after human simulation mechanism radio receiving unit 216 receives the 4th wireless closure signal in road, 5th electromagnetic gas valve 211 can obtain electric work, its gas circuit is opened, so, the air of outer air accumulator 203 inside can discharge from the 5th electromagnetic gas valve 211 gas outlet, under the opposite direction active force of air is discharged in air accumulator 203 inside outside, human simulation mechanism can aloft move downward, simulate the state that hostile parachutist takes advantage of parachute to move downward under gravity, when coordinating the people of trainer training again to be pressed by the wireless signal transmission key switch button of the 4th on remote-control gear, after the radio receiving unit 216 of human simulation mechanism receives the 4th wireless cut-off signal in road, 5th electromagnetic gas valve 211 can dead electricity quit work, its gas circuit is closed, so, human simulation mechanism no longer moves downward, more than passing through, by coordinating the button of people's operating and remote controlling mechanism four wireless signal transmission key switches of trainer training, the skyborne running status of human simulation mechanism can be controlled.When human simulation mechanism floats in the air, within the scope of 150 meters, the infrared emission unit be arranged on trigger mechanism gun-simulation 101 is aimed at the infrared receiver of human simulation mechanism by the trainer very first time, when pressing the button being arranged on emission power switch 104 on trigger mechanism gun-simulation 101, first power supply 103 can input to infrared emission unit, then, the infrarede emitting diode 106-3 of infrared emission unit obtains and electricly launches IR, the IR launched is through front first convex lens 106-2 effect, become and be a branch ofly similar to parallel infrared pulse light beam and penetrate forward, aim at the prerequisite of human simulation mechanism infrared receiver second convex lens 214-2 at trainer under, the light beam received focuses on the sensitive surface of infrared receiver phototriode 214-3 by human simulation mechanism infrared receiver second convex lens 214-2, so, under control unit 215 acts on, first electromagnetic gas valve 207 obtains electric work, its gas circuit is opened, in human simulation mechanism, the helium of air accumulator 204 inside can be discharged, human simulation mechanism due to the buoyancy not having helium can from falling in the air, thus simulate hostile parachutist and shot down from state when falling in the air, in actual use, human simulation mechanism shoots down and represents that achievement is better by trainer within the shorter time, human simulation mechanism is shot down and represent that achievement is poorer within the longer time.

Shown in Fig. 3, the first power supply G1 of trigger mechanism is four joint No.5 cells, and voltage is 6V.The emission power switch S 1 of trigger mechanism is button-type point dynamic formula power switch.By time-base integrated circuit A1, resistance R1, R2 and ceramic disc capacitor C1, C2 forms the control circuit of trigger mechanism, time-base integrated circuit A1 model is NE555, resistance has two, ceramic disc capacitor has two, 4 pin of time-base integrated circuit A1 are connected by wire with 8 pin and first resistance R1 one end, 7 pin of time-base integrated circuit A1 and first resistance R1 other end, second resistance R2 one end is connected by wire, 2 pin of time-base integrated circuit A1 and 6 pin and second resistance R2 other end, first ceramic disc capacitor C1 one end is connected by wire, 5 pin of time-base integrated circuit A1 are connected by wire with second ceramic disc capacitor C2 one end, 1 pin of time-base integrated circuit A1 and first ceramic disc capacitor C1 other end, second ceramic disc capacitor C2 other end passes through wired earth.The infrared emission unit of trigger mechanism is made up of the first plastics lens barrel, the first convex lens, resistance R3 and infrarede emitting diode VL, first plastics lens barrel right-hand member is hermetically-sealed construction, first convex lens are arranged on the left front end of the first plastics lens barrel, it is inner that infrarede emitting diode VL and resistance R3 is arranged on the first plastics lens barrel, infrarede emitting diode VL is positioned at the first convex lens right-hand member, and resistance R3 one end is connected by wire with infrarede emitting diode VL positive pole.First power supply G1 positive pole is connected by wire with emission power switch S 1 one end, emission power switch S 1 other end is connected by wire with 8 pin with 4 pin of control circuit cathode power supply input time-base integrated circuit A1,3 pin of control circuit cathode power supply output time-base integrated circuit A1 are connected by wire with the infrared emission unit cathode power supply input pickup resistance R3 other end, and 1 pin, the infrared emission unit negative power supply input infrarede emitting diode VL negative pole of the first power supply G1 negative pole and control circuit negative power supply input time-base integrated circuit A1 pass through wired earth.

Shown in Fig. 4, DC1 is the first electromagnetic gas valve of human simulation mechanism, and DC2 is the second electromagnetic gas valve of human simulation mechanism, and DC3 is the 3rd electromagnetic gas valve of human simulation mechanism, DC4 is the 4th electromagnetic gas valve of human simulation mechanism, and DC5 is the 5th electromagnetic gas valve of human simulation mechanism.The second source G2 of human simulation mechanism is lithium storage battery, voltage is 6V.The infrared receiver of human simulation mechanism is made up of the second plastics lens barrel, the second convex lens, phototriode VT1 and resistance R4, second plastic lens tube rear end is hermetically-sealed construction, second convex lens are arranged on plastics lens barrel front end, it is inner that phototriode VT1 and resistance R4 is arranged on the second plastics lens barrel, phototriode VT1 sensitive surface is positioned at the second convex lens rear end, and phototriode VT1 colelctor electrode is connected by wire with resistance R4 one end.By amplifier integrated circuit A2, audio coding integrated circuit A3, ceramic disc capacitor C3, C4, C5, resistance R5, R6, R11, adjustable resistance RP, electrochemical capacitor C6, C7, silicon rectifier diode VD1, PNP triode VT2, relay K 1 and one-way SCR VS form the control unit of human simulation mechanism, ceramic disc capacitor has three, resistance has three, electrochemical capacitor has two, amplifier integrated circuit A2 model is LM741, audio coding integrated circuit A3 model is LM567, resistance R5 one end, first first, ceramic disc capacitor C3 one end is connected by wire, first resistance R5 other end and second resistance R6 one end, 2 pin of amplifier integrated circuit A2 are connected by wire, second resistance R6 other end and second ceramic disc capacitor C4 one end, 6 pin of amplifier integrated circuit A2 are connected by wire, second ceramic disc capacitor C4 other end is connected by wire with 3 pin of audio coding integrated circuit A3, 8 pin of audio coding integrated circuit A3 are connected by wire with the negative pole of silicon rectifier diode VD1, 5 pin of audio coding integrated circuit A3 are connected by wire with adjustable resistance RP one end, 6 pin of audio coding integrated circuit A3 and the adjustable resistance RP other end, 3rd ceramic disc capacitor C5 one end is connected by wire, 2 pin of audio coding integrated circuit A3 are connected by wire with first electrochemical capacitor C6 positive pole, 1 pin of audio coding integrated circuit A3 is connected by wire with second electrochemical capacitor C7 positive pole, the positive pole of silicon rectifier diode VD1 is connected by wire with PNP triode VT2 base stage, PNP triode VT2 colelctor electrode is connected by wire with relay K 1 cathode power supply input, 7 pin of amplifier integrated circuit A2 and 4 pin of audio coding integrated circuit A3, PNP triode VT2 emitter stage, relay K 1 one normally opened contact end, one-way SCR VS anode is connected by wire, another normally opened contact end of relay K 1 is connected by wire with the 3rd resistance R11 one end, 3rd the resistance R11 other end is controlled pole with one-way SCR VS and is connected by wire, 7 pin of 3 pin of amplifier integrated circuit A2 and 4 pin and audio coding integrated circuit A3, 3rd the ceramic disc capacitor C5 other end, first electrochemical capacitor C6 negative pole, second electrochemical capacitor C7 negative pole, relay K 1 negative power supply input passes through wired earth.By silicon rectifier diode VD2, wireless receiving circuit A4, resistance R7, R8, R9, R10, NPN triode VT3, VT4, VT5, VT6 and relay K 2, K3, K4, K5 forms human simulation mechanism radio receiving unit, resistance has four, NPN triode has four, relay has four, wireless receiving circuit A4 is the wireless receiving circuit finished product used that matches with ZYO300-A72 type radio transmitter finished product, 1 pin of wireless receiving circuit A4 and the negative pole of silicon rectifier diode VD2, four relay K 2, K3, K4, K5 cathode power supply input, four relay K 2, K3, K4, K5 mono-normally opened contact end is connected by wire, 3 pin of wireless receiving circuit A4 and four NPN triode VT3, VT4, VT5, VT6 emitter stage passes through wired earth, 4 pin of wireless receiving circuit A4 are connected by wire with first resistance R7 one end, first resistance R7 other end is connected by wire with first NPN triode VT3 base stage, first NPN triode VT3 colelctor electrode is connected by wire with first relay K 2 negative power supply input, 5 pin of wireless receiving circuit A4 are connected by wire with second resistance R8 one end, second resistance R8 other end is connected by wire with second NPN triode VT4 base stage, second NPN triode VT4 colelctor electrode is connected by wire with second relay K 3 negative power supply input, 6 pin of wireless receiving circuit A4 are connected by wire with the 3rd resistance R9 one end, 3rd the resistance R9 other end is connected by wire with the 3rd NPN triode VT5 base stage, 3rd NPN triode VT5 colelctor electrode is connected by wire with the 3rd relay K 4 negative power supply input, 7 pin of wireless receiving circuit A4 are connected by wire with the 4th resistance R10 one end, 4th the resistance R10 other end is connected by wire with the 4th NPN triode VT6 base stage, 4th NPN triode VT6 colelctor electrode is connected by wire with the 4th relay K 5 negative power supply input.Second source G2 positive pole is connected by wire with power switch S2 one end, the power switch S2 other end and the infrared receiver cathode power supply input pickup resistance R4 other end, 7 pin of control unit cathode power supply input amplifier integrated circuit A2, the positive pole of radio receiving unit cathode power supply input silicon rectifier diode VD2 is connected by wire, the colelctor electrode of infrared receiver signal output part phototriode VT1 is connected by wire with the control unit signal input part ceramic disc capacitor C3 other end, control unit cathode power supply output one-way SCR VS negative electrode is connected by wire with the first electromagnetic gas valve DC1 cathode power supply input, radio receiving unit four cathode power supply output relay K 2, K3, K4, another normally opened contact end respectively with the second electromagnetic gas valve DC2 of K5, 3rd electromagnetic gas valve DC3, 4th electromagnetic gas valve DC4, the cathode power supply input of the 5th electromagnetic gas valve DC5 is connected by wire, second source G2 negative pole and the first electromagnetic gas valve DC1, second electromagnetic gas valve DC2, 3rd electromagnetic gas valve DC3, 4th electromagnetic gas valve DC4, the negative power supply input of the 5th electromagnetic gas valve DC5, the emitter stage of the negative power supply input phototriode VT1 of infrared receiver, 4 pin of the negative power supply input amplifier integrated circuit A2 of control unit, 3 pin of radio receiving unit negative power supply input wireless receiving circuit A4 pass through wired earth.

Shown in Fig. 5, remote-control gear is ZYO300/A72 type radio transmitter finished product, its wireless signal transmission distance is 300 meters, ZYO300-A72 type radio transmitter finished product A5 is 12V from being furnished with radio transmitter reserve battery G3, a voltage, ZYO300-A72 type radio transmitter finished product A5 has four wireless signal transmission key switches SB1, SB2, SB3, SB4, and the wireless signal that remote-control gear is launched acts on the radio receiving unit of human simulation mechanism.

Below in conjunction with Fig. 3, Fig. 4, Fig. 5, trigger mechanism of the present invention, operation principle between human simulation mechanism and remote-control gear and function are made an explanation.

Fig. 3, when the button of emission power switch S 1 is pressed, the first power supply G1 can input to control circuit power input, so control circuit obtains electric in running order.In control circuit: by time-base integrated circuit A1 and peripheral cell resistance R1 thereof, R2, ceramic disc capacitor C1, C2 composition multivibrator obtain electric after produce vibration, and be the rectangular wave pulse of 10KHz from the 3 pin output frequencies of time-base integrated circuit A1, rectangular wave pulse enters the infrarede emitting diode VL cathode power supply input of infrared emission unit through resistance R3 current limliting, so, infrarede emitting diode VL obtains the modulation light that scattering is forwards launched in electroluminescence, the modulation light of scattering becomes a branch of and is similar to parallel infrared pulse light beam after the first convex lens effect of infrared emission unit.

Fig. 4, when after power switch S2, second source G2 can input to radio receiving unit, infrared receiver, control unit power input, so radio receiving unit, infrared receiver, control unit obtain and be electricly in holding state.In radio receiving unit: the 6V dc source that second source G2 exports is through silicon rectifier diode VD2 voltage drop effect, reduce to about 5.2V, reach work required voltage about the 5V of wireless receiving circuit A4, when coordinating the people of trainer training to be pressed by first wireless signal transmission key switch SB1 button of Fig. 5 remote-control gear ZYO300/A72 type radio transmitter finished product A5, remote-control gear can launch the wireless closure signal of the first via, now, wireless receiving circuit A4 can receive the wireless closure signal of the first via, so, 4 pin of wireless receiving circuit A4 export high level, the high level exported enters NPN triode VT3 base stage through resistance R7 current limliting, through NPN triode VT3 power amplification, paraphase enters relay K 2 negative power supply input, so, relay K 2 obtains two normally opened contact end of electric adhesive and closes, due to, second electromagnetic gas valve DC2 cathode power supply input is connected by wire with another normally opened contact end of relay K 2, so now, second electromagnetic gas valve DC2 can obtain its gas circuit of electric work and open, when coordinating the people of trainer training again to be pressed by the wireless signal transmission key switch SB1 button of first on remote-control gear, after wireless receiving circuit A4 receives the wireless cut-off signal of the first via, wireless receiving circuit A4 the 4th pin stops exporting high level, so, second electromagnetic gas valve DC2 can dead electricity quit work, its gas circuit is closed, when coordinating the people of trainer training to be pressed by second wireless signal transmission key switch SB2 button of Fig. 5 remote-control gear ZYO300/A72 type radio transmitter finished product A5, remote-control gear can launch the second wireless closure signal in road, now, wireless receiving circuit A4 can receive the second wireless closure signal in road, so, 5 pin of wireless receiving circuit A4 export high level, the high level exported enters NPN triode VT4 base stage through resistance R8 current limliting, through NPN triode VT4 power amplification, paraphase enters relay K 3 negative power supply input, so, relay K 3 obtains two normally opened contact end of electric adhesive and closes, due to, 3rd electromagnetic gas valve DC3 cathode power supply input is connected by wire with another normally opened contact end of relay K 3, so now, 3rd electromagnetic gas valve DC3 can obtain its gas circuit of electric work and open, when coordinating the people of trainer training again to be pressed by the wireless signal transmission key switch SB2 button of second on remote-control gear, after wireless receiving circuit A4 receives the second wireless cut-off signal in road, wireless receiving circuit A4 the 5th pin stops exporting high level, so, 3rd electromagnetic gas valve DC3 can dead electricity quit work, its gas circuit is closed, when coordinating the people of trainer training to be pressed by the 3rd the wireless signal transmission key switch SB3 button of Fig. 5 remote-control gear ZYO300/A72 type radio transmitter finished product A5, remote-control gear can launch the 3rd wireless closure signal in road, now, wireless receiving circuit A4 can receive the 3rd wireless closure signal in road, so, 6 pin of wireless receiving circuit A4 export high level, the high level exported enters NPN triode VT5 base stage through resistance R9 current limliting, through NPN triode VT5 power amplification, paraphase enters relay K 4 negative power supply input, so, relay K 4 obtains two normally opened contact end of electric adhesive and closes, due to, 4th electromagnetic gas valve DC4 cathode power supply input is connected by wire with another normally opened contact end of relay K 4, so now, electromagnetic gas valve DC4 can obtain its gas circuit of electric work and open, when coordinating the people of trainer training again to be pressed by the wireless signal transmission key switch SB3 button of the 3rd on remote-control gear, after wireless receiving circuit A4 receives the 3rd wireless cut-off signal in road, wireless receiving circuit A4 the 6th pin stops exporting high level, so, 4th electromagnetic gas valve DC4 can dead electricity quit work, its gas circuit is closed, when coordinating the people of trainer training to be pressed by the 4th the wireless signal transmission key switch SB4 button of Fig. 5 remote-control gear ZYO300/A72 type radio transmitter finished product A5, remote-control gear can launch the 4th wireless closure signal in road, now, wireless receiving circuit A4 can receive the 4th wireless closure signal in road, so, 7 pin of wireless receiving circuit A4 export high level, the high level exported enters NPN triode VT6 base stage through resistance R10 current limliting, through NPN triode VT6 power amplification, paraphase enters relay K 5 negative power supply input, so, relay K 5 obtains two normally opened contact end of electric adhesive and closes, due to, 5th electromagnetic gas valve DC5 cathode power supply input is connected by wire with another normally opened contact end of relay K 5, so now, 5th electromagnetic gas valve DC5 can obtain its gas circuit of electric work and open, when coordinating the people of trainer training again to be pressed by the wireless signal transmission key switch SB4 button of the 4th on remote-control gear, after wireless receiving circuit A4 receives the 4th wireless cut-off signal in road, wireless receiving circuit A4 the 7th pin stops exporting high level, so, 5th electromagnetic gas valve DC5 can dead electricity quit work, its gas circuit is closed.In infrared receiver: when infrared receiver obtain electric be in holding state time, phototriode VT1 colelctor electrode no signal exports, the audio coding integrated circuit A3 of subsequent control unit exports high level, relay K 1 attonity owing to not having signal to input its 8th pin; When the emission power switch S 1 on Fig. 3 trigger mechanism is pressed by trainer, when the light that infrarede emitting diode VL sends aims at the second convex lens of phototriode VT1 sensitive surface front end, phototriode VT1 sensitive surface can receive infrared signal, so phototriode VT1 colelctor electrode can output voltage signal.In control unit: the voltage signal that infrared receiver phototriode VT1 colelctor electrode exports is through ceramic disc capacitor C3, resistance R5 is coupled to after amplifier integrated circuit A2 amplifies, the 3rd pin of audio coding integrated circuit A3 is input to by ceramic disc capacitor C4, identify after decoding through audio coding integrated circuit A3, the 8 pin output low levels of audio coding integrated circuit A3, the low level exported enters PNP triode VT2 base stage through silicon rectifier diode VD2, through PNP triode VT2 power amplification, relay K 1 cathode power supply input is entered after paraphase, so, relay K 1 obtains two normally opened contact end of electric adhesive and closes, relay K 1 electric adhesive two normally opened contact ends closed after, power supply can trigger one-way SCR VS through resistance R11, so, one-way SCR VS is in conducting state, due to, first electromagnetic gas valve DC1 cathode power supply input is connected by wire with one-way SCR VS negative electrode, so now, first electromagnetic gas valve DC1 can obtain electric work, its gas circuit is opened, then, helium in human simulation mechanism in air accumulator can be discharged, human simulation mechanism is from falling in the air, simulate the fallen state of hostile parachutist.

Fig. 3, in the control circuit of trigger mechanism, time-base integrated circuit model is NE555, and resistance R1 resistance is 2.5K, and resistance R2 resistance is 13K, and ceramic disc capacitor C1 specification is 1000P, and ceramic disc capacitor C2 specification is 0.01UF.In the infrared emission unit of trigger mechanism, resistance R3 resistance is 51 Ω, and infrarede emitting diode model is 5GLB.

Fig. 4, in the infrared receiver of human simulation mechanism: phototriode VT1 model is 3DU5C, resistance R4 resistance is 130K.In the control unit of human simulation mechanism: ceramic disc capacitor C3 specification is 0.1UF, ceramic disc capacitor C4 specification is 0.1UF, ceramic disc capacitor C5 specification is 0.01UF, resistance R5 resistance is 1.2K, resistance R6 resistance is 100K, resistance R11 resistance is 1K, adjustable resistance specification is 15K, electrochemical capacitor C6 specification is 2.2UF/25V, electrochemical capacitor C7 specification is 1UF/25V, and silicon rectifier diode VD1 model is 1N4001, and PNP triode VT2 model is 9012, relay K 1 model is JRC/21F/YG4100/DC5V, and one-way SCR is MAC97A6 shape envelope one-way SCR.In human simulation mechanism radio receiving unit: silicon rectifier diode model is 1N4001, resistance R7, R8, R9, R10 resistance is 1K, NPN triode VT3, VT4, VT5, VT6 model is 9013, relay K 2, K3, K4, K5 model are JRC/21F/YG4100/DC5V, and the first electromagnetic gas valve DC1, the second electromagnetic gas valve DC2, the 3rd electromagnetic gas valve DC3, the 4th electromagnetic gas valve DC4, the 5th electromagnetic gas valve DC5 adopt operating voltage to be the electromagnetic gas valve of direct current 3V.

Claims (6)

1. what enemy was dropped from the air in simulated gunnery makes a training apparatus, it is characterized in that by trigger mechanism, human simulation mechanism and remote-control gear are formed, and trigger mechanism is by gun-simulation, shell, first power supply, emission power switch, control circuit and infrared emission unit composition, first power supply and control circuit are installed in the enclosure, emission power switch is arranged on the gun stock left part of gun-simulation, lower end in the middle part of the body of a gun that shell is arranged on gun-simulation, infrared emission unit is arranged on the left front end of gun barrel of gun-simulation, first positive source is connected by wire with emission power switch one end, the emission power switch other end is connected by wire with control circuit cathode power supply input, control circuit cathode power supply output is connected by wire with infrared emission unit cathode power supply input, the first power cathode and control circuit negative power supply input, infrared emission unit negative power supply input is by wired earth, and human simulation mechanism is by plastic casing, human simulation, outer air accumulator, interior air accumulator, first valve core print seat, duaspiracle core print seat, first electromagnetic gas valve, second electromagnetic gas valve, 3rd electromagnetic gas valve, 4th electromagnetic gas valve, 5th electromagnetic gas valve, second source, power switch, infrared receiver, control unit and radio receiving unit composition, human simulation, outer air accumulator, interior air accumulator adopts elastomeric material, it is inner that interior air accumulator is arranged on outer air accumulator, under outer air accumulator is arranged on human simulation head, first valve core print seat is arranged on the bottom right outboard end of interior air accumulator, duaspiracle core print seat is arranged on outer air accumulator bottom right outboard end, first electromagnetic gas valve is arranged on middle part outboard end under interior air accumulator, second electromagnetic gas valve is arranged on outer air accumulator lower left quarter outboard end, 3rd electromagnetic gas valve is arranged on outer air accumulator left portion outboard end, 4th electromagnetic gas valve is arranged on outer air accumulator right middle outboard end, 5th electromagnetic gas valve is arranged on the upper right outboard end of outer air accumulator, and infrared receiver is arranged in the middle part of outer air accumulator outside front ends, second source, control unit and radio receiving unit are arranged on plastic casing inside, and power switch is arranged on the left outside end in plastic casing bottom, and second source positive pole is connected by wire with power switch one end, the power switch other end and infrared receiver cathode power supply input, control unit cathode power supply input, radio receiving unit cathode power supply input is connected by wire, infrared receiver signal output part is connected by wire with control unit signal input part, control unit cathode power supply output is connected by wire with the first electromagnetic gas valve cathode power supply input, radio receiving unit four cathode power supply output respectively with the second electromagnetic gas valves, 3rd electromagnetic gas valve, 4th electromagnetic gas valve, the cathode power supply input of the 5th electromagnetic gas valve is connected by wire, second source negative pole and the first electromagnetic gas valve, second electromagnetic gas valve, 3rd electromagnetic gas valve, 4th electromagnetic gas valve, 5th electromagnetic gas valve, infrared receiver, control unit, the negative power supply input of radio receiving unit passes through wired earth, when being full of helium through the first valve core print seat toward interior air accumulator inside, after through duaspiracle core print seat, air accumulator inside is full of air outward, human simulation mechanism can swim in the air, remote-control gear is ZYO300/A72 type radio transmitter finished product, its wireless signal transmission distance is 300 meters, and ZYO300-A72 type radio transmitter finished product is from being furnished with a radio transmitter reserve battery, voltage is that 12V, ZYO300-A72 type radio transmitter finished product has four wireless signal transmission key switches, and the wireless signal that remote-control gear is launched acts on the radio receiving unit of human simulation mechanism.

2. what enemy was dropped from the air in a kind of simulated gunnery according to claim 1 makes training apparatus, it is characterized in that the control circuit of trigger mechanism is by time-base integrated circuit, resistance and ceramic disc capacitor composition, time-base integrated circuit model is NE555, resistance has two, ceramic disc capacitor has two, 4 pin of time-base integrated circuit are connected by wire with 8 pin and first resistance one end, 7 pin of time-base integrated circuit and first resistance other end, second resistance one end is connected by wire, 2 pin of time-base integrated circuit and 6 pin and second resistance other end, first ceramic disc capacitor one end is connected by wire, 5 pin of time-base integrated circuit are connected by wire with second ceramic disc capacitor one end, 1 pin of time-base integrated circuit and first ceramic disc capacitor other end, second ceramic disc capacitor other end passes through wired earth.

3. what enemy was dropped from the air in a kind of simulated gunnery according to claim 1 makes training apparatus, it is characterized in that the infrared emission unit of trigger mechanism is made up of the first plastics lens barrel, the first convex lens, resistance and infrarede emitting diode, first plastics lens barrel right-hand member is hermetically-sealed construction, first convex lens are arranged on the left front end of the first plastics lens barrel, it is inner that infrarede emitting diode and resistance are arranged on the first plastics lens barrel, infrarede emitting diode is positioned at the first convex lens right-hand member, and resistance one end is connected by wire with infrarede emitting diode positive pole.

4. what enemy was dropped from the air in a kind of simulated gunnery according to claim 1 makes training apparatus, it is characterized in that the infrared receiver of human simulation mechanism is made up of the second plastics lens barrel, the second convex lens, phototriode and resistance, second plastic lens tube rear end is hermetically-sealed construction, second convex lens are arranged on plastics lens barrel front end, it is inner that phototriode and resistance are arranged on the second plastics lens barrel, phototriode sensitive surface is positioned at the second convex lens rear end, and phototriode pipe collector is connected by wire with resistance one end.

5. what enemy was dropped from the air in a kind of simulated gunnery according to claim 1 makes training apparatus, it is characterized in that the control unit of human simulation mechanism is by amplifier integrated circuit, audio coding integrated circuit, ceramic disc capacitor, resistance, adjustable resistance, electrochemical capacitor, silicon rectifier diode, PNP triode, relay and one-way SCR composition, ceramic disc capacitor has three, resistance has three, electrochemical capacitor has two, amplifier integrated circuit model is LM741, audio coding integrated circuit model is LM567, resistance one end, first first, ceramic disc capacitor one end is connected by wire, first resistance other end and second resistance one end, 2 pin of amplifier integrated circuit are connected by wire, second resistance other end and second ceramic disc capacitor one end, 6 pin of amplifier integrated circuit are connected by wire, second ceramic disc capacitor other end is connected by wire with 3 pin of audio coding integrated circuit, 8 pin of audio coding integrated circuit are connected by wire with the negative pole of silicon rectifier diode, 5 pin of audio coding integrated circuit are connected by wire with adjustable resistance one end, 6 pin of audio coding integrated circuit and the adjustable resistance other end, 3rd ceramic disc capacitor one end is connected by wire, 2 pin of audio coding integrated circuit are connected by wire with first electrochemical capacitor positive pole, 1 pin of audio coding integrated circuit is connected by wire with second electrochemical capacitor positive pole, the positive pole of silicon rectifier diode is connected by wire with PNP triode base stage, PNP triode colelctor electrode is connected by wire with relay cathode power supply input, 7 pin of amplifier integrated circuit and 4 pin of audio coding integrated circuit, PNP triode emitter stage, relay one normally opened contact end, one-way SCR anode is connected by wire, another normally opened contact end of relay is connected by wire with the 3rd resistance one end, 3rd the resistance other end is controlled pole with one-way SCR and is connected by wire, 7 pin of 3 pin of amplifier integrated circuit and 4 pin and audio coding integrated circuit, 3rd the ceramic disc capacitor other end, first electrochemical capacitor negative pole, second electrochemical capacitor negative pole, relay negative power supply input passes through wired earth.

6. what enemy was dropped from the air in a kind of simulated gunnery according to claim 1 makes training apparatus, it is characterized in that the radio receiving unit of human simulation mechanism is by silicon rectifier diode, wireless receiving circuit, resistance, NPN triode and relay composition, resistance has four, NPN triode has four, relay has four, wireless receiving circuit is the wireless receiving circuit finished product used that matches with ZYO300-A72 type radio transmitter finished product, 1 pin of wireless receiving circuit and the negative pole of silicon rectifier diode, four relay cathode power supply inputs, four relay one normally opened contact ends are connected by wire, 3 pin of wireless receiving circuit and four NPN transistor emitters pass through wired earth, 4 pin of wireless receiving circuit are connected by wire with first resistance one end, first resistance other end is connected by wire with first NPN transistor base, first NPN transistor collector is connected by wire with first relay negative power supply input, 5 pin of wireless receiving circuit are connected by wire with second resistance one end, second resistance other end is connected by wire with second NPN transistor base, second NPN transistor collector is connected by wire with second relay negative power supply input, 6 pin of wireless receiving circuit are connected by wire with the 3rd resistance one end, 3rd the resistance other end is connected by wire with the 3rd NPN transistor base, 3rd NPN transistor collector is connected by wire with the 3rd relay negative power supply input, 7 pin of wireless receiving circuit are connected by wire with the 4th resistance one end, 4th the resistance other end is connected by wire with the 4th NPN transistor base, 4th NPN transistor collector is connected by wire with the 4th relay negative power supply input.