CN110186336B - Anti-cheating method of anti-cheating simulated grenade - Google Patents

Abstract

The invention discloses an anti-cheating simulated grenade, which receives identity information, casualty state and exercise information of a throwing person in a wireless mode before throwing, and when the throwing person is in an uninjured state or is slightly injured without influencing throwing capacity, a grenade simulator can delay and transmit a wireless explosion signal after pulling out a pull ring and throwing out the pull ring, so that a simulated killing effect is generated on surrounding personnel or equipment; the grenade simulator is automatically locked when the throwing person is dead or injured and does not have throwing ability. The invention also discloses an anti-cheating method of the grenade. The invention can effectively solve the problem that casualty personnel illegally uses the grenade simulator in the combat practice of the real soldier, and improve the combat effect of the combat practice.

Description

Anti-cheating method of anti-cheating simulated grenade

Technical Field

The invention relates to the field of military training equipment, in particular to a cheating prevention method of a simulated grenade used for daily training.

Background

The training device is used for the training of the confrontation of the real soldiers at present, the training device is developed towards the direction of intellectualization and light weight, the simulation device is often used for replacing the traditional real soldier device in the drilling, and the casualties caused by accidents are avoided to the maximum extent on the basis of ensuring the training effect. Taking grenade throwing training as an example, a common simulated grenade usually adopts a mode of emitting infrared signals or wireless radio frequency signals outwards and receiving the infrared signals or the wireless radio frequency signals by a simulation apparatus arranged in a training field to simulate the explosion range and the damage effect of the grenade.

However, the following problems exist in the actual confrontation training:

1. in the actual combat training, when a fighter is dead or injured and loses the combat ability, the combat result is counted only by alarm display or uploading the damage state of the fighter to a control center, and the action ability of the fighter cannot be limited, so that the situation that the fighter losing the combat ability can still use a simulated grenade to approach a target for firepower striking can occur, and the process of the combat training and the evaluation of the combat result are seriously influenced.

2. Personnel of an individual simulator who is not worn can also use the simulated grenade to approach the target to carry out fire striking, which will seriously affect the process of confrontation training and the assessment of the battle result.

3. Because the simulated grenade is not bound with the identity of the throwing personnel, the information of the simulated grenade can be uploaded to the control center only after the target simulator is damaged, but the identity information of the throwing personnel can not be uploaded, and therefore the fighting process and the fighting condition of the combat personnel can not be accurately counted and duplicated.

Disclosure of Invention

The invention provides an anti-cheating method for simulating grenades, which can effectively avoid the use of personnel who are in a death state, or in an injured state, or are not registered for exercise, and do not have throwing ability, and improves the effectiveness and accuracy of the process of the countertraining and the assessment and evaluation of the battle result. Before throwing, wireless data communication is carried out through simulating the grenade and the individual soldier simulator worn by the throwing personnel, the simulated grenade and the identity of the throwing personnel are bound, and the control center can accurately acquire the fighting process and the fighting condition of each participant, so that the reply and the examination are facilitated.

The invention is realized by the following technical means: the utility model provides a prevent cheating method of imitating grenade of cheating, the grenade comprises casing, safety catch, insurance grip piece, torsional spring, trigger switch, battery, communication switch, control and wireless communication circuit, prevents the cheating method and includes following step:

step 1: in the throwing preparation stage, a communication switch is pressed down, a control and wireless communication circuit simulating the grenade wirelessly communicates with an individual simulator worn by the throwing personnel, and identity information, casualty state information and exercise registration information of the throwing personnel are obtained from the individual simulator, so that the current state of the throwing personnel is confirmed;

step 2: when the grenade is pulled out of the safety pin and thrown, the torsion spring drives the safety grip piece to lift, the trigger switch is released to be activated, and if the individual soldier simulator is in a throwing-capable state, the simulation fuse begins to delay; if the data communication is not carried out with the individual simulator worn by the throwing personnel within the set time, or the individual simulator displays that the throwing personnel is in a state that the throwing personnel can not throw, the simulated grenade does not have any action;

and step 3: after the delay time of the analog fuse is over, a control and wireless communication circuit in the grenade transmits a wireless explosion data signal outwards, after the analog equipment in the coverage range of the wireless data signal of the analog grenade receives the wireless explosion data signal, whether personnel throwing the grenade performs exercise registration is judged according to exercise registration information, and if the personnel throwing the grenade performs exercise registration is registered and the protection capability of the analog equipment is smaller than the killing capability of the analog grenade, the analog equipment is updated to be in a damaged state; if the personnel throwing the grenade do not perform exercise registration or the protection capability of the simulation equipment is greater than the killing capability of the simulation grenade, the simulation equipment does not act.

The wireless explosion data comprises grenade types, identity information of throwing personnel, exercise registration information and grenade killing capacity information, and after the simulation equipment is updated to be in a damage state, the identity information of the throwing personnel and the exercise registration information are uploaded to a control center for statistics and evaluation.

The control and wireless communication circuit of the simulated grenade wirelessly communicates with the individual simulator worn by the throwing personnel, and simulates the explosion efficiency of the real-mounted grenade by transmitting wireless explosion data signals. The wireless data communication and the wireless explosion data signal can adopt infrared communication, laser communication, ZigBee communication, Bluetooth communication, wireless radio frequency modulation signals or the combination of the communication modes.

The exercise registration information is exercise number information which is uniformly issued to each of the participating simulators by the control center when exercise begins, after the simulating equipment receives the wireless explosion data signals emitted by the simulated grenades, the exercise registration information of the throwing personnel contained in the wireless explosion data signals is compared with the exercise registration information of the simulating equipment, and if the exercise registration information is the same, the personnel throwing the simulated grenades are judged to have performed exercise registration; and if not, judging that the personnel throwing the simulated grenade do not carry out exercise registration.

Prevent that cheating simulates grenade's casing include neck and chamber portion the top of chamber portion sets up the neck, control and wireless communication circuit and battery setting are in chamber portion, rotate on the top of neck and connect the insurance and hold the piece, trigger switch sets up on the neck, and trigger end and the insurance of trigger switch hold the piece and set up relatively, hold the pivot department of piece and set up the torsional spring in the insurance, hold piece and neck in the insurance and set up the through-hole, the through-hole sets up relatively, sets up the safety catch in the through-hole.

The invention has the beneficial effects that: the invention obtains identity information, casualty state information and exercise registration information of the throwing personnel by carrying out wireless data communication with the individual soldier simulator worn by the throwing personnel before simulating the throwing of the grenade. After the training, the casualty state and exercise registration information of the thrown personnel are judged, so that the cheating behaviors that the personnel in the casualty state, the personnel not wearing the individual simulator and the personnel not performing exercise registration use the simulated grenades to participate in the confrontation training are effectively avoided, and the confrontation training of the real soldiers is closer to the actual combat. And the control center can accurately acquire the warfare situation of the throwing person, and data support is provided for more accurate training and assessment.

Drawings

The invention will be further explained with reference to the drawings, in which:

FIG. 1 is a schematic view of an appearance of a simulated grenade according to the present invention;

FIG. 2 is a schematic view of a simulated grenade structure according to the present invention;

FIG. 3 is a flow chart of the operation of the present invention;

wherein: the safety device comprises a shell 1, a safety holding piece 2, a safety pin 3, an infrared receiving and transmitting component 4, a communication switch 5, a torsion spring 6, a trigger switch 7, a control and wireless communication circuit 8 and a battery 9.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the predetermined objects, the following description will be made with reference to the accompanying drawings and preferred embodiments for describing the specific implementation, features and effects of the simulated grenade cheating prevention method according to the present invention. In the description that follows, particular features, structures, or characteristics of one or more embodiments may be combined in any suitable manner.

As shown in fig. 1 and 2, the invention relates to a simulated grenade capable of preventing cheating of a thrower, which comprises a shell 1, wherein the shell 1 comprises a left part and a right part which are connected through screws, and the shape of the shell is completely consistent with that of the traditional practical grenade. The throwing person does not influence the training result due to the difference of the training equipment. In the invention, the shell 1 comprises a neck part and a cavity part, the safety holding piece 2 is fixed on the neck part of the shell 1 through a pin shaft, meanwhile, the pin shaft penetrates through a torsional spring 6, and the torsional spring 6 is tightly pressed between the simulated grenade shell 1 and the safety holding piece 2. The safety pin 3 crosses the limiting holes on the shell 1 and the safety holding piece 2, so that the safety holding piece 2 can not turn over. Set up trigger switch 7 on the neck, trigger end and the insurance of trigger switch 7 are held piece 2 and are set up relatively, and when simulating that the grenade is in not throwing the state, insurance is held piece 2 and is contacted and press it with trigger end of trigger switch 7.

The control and wireless communication circuit 8 and the battery 9 are arranged in a cavity part of the shell 1, the infrared receiving and transmitting component 4 is arranged on the shell 1 and used for carrying out infrared data communication with the individual simulator, the communication switch 5 is arranged on the shell and used for triggering data communication between the control and wireless communication circuit 8 and the individual simulator worn by a throwing person, and the communication switch 5 is also positioned on the neck part of the simulated grenade shell 1.

The work flow of the simulated grenade anti-cheating method is shown in figure 3.

Before throwing, throwing personnel press communication switch 5, and control and the infrared transceiver component 4 of control and the control of wireless communication circuit 8 control of simulation grenade send out the data communication request to throwing personnel's wearing individual soldier's simulator infrared communication part, and individual soldier's simulator receives data communication request and replies throwing personnel's identity information, casualty state information, exercise registration information to simulation grenade after.

The throwing personnel pulls out the safety pin 3, throws out the simulated grenade, and the safety holding piece 2 is driven by the torsion spring to release the lower trigger switch 7. The control and wireless communication circuit 8 judges the data from the individual simulator obtained in the last step, if the data returned by the individual simulator proves that the throwing personnel is in a normal state or a slight injury state, the throwing capability is judged to be possessed, and the grenade is simulated to simulate fuze delay; if the data returned by the individual simulator is not received or the data returned by the individual simulator proves that the throwing personnel is in a dead state or an injured state, the throwing personnel is judged to have no throwing capacity, so that the simulated grenade does not carry out simulated fuse delay, and the simulated grenade is in a failure state.

And after the delay time of the analog fuze is over, the control and wireless communication circuit 8 transmits a wireless explosion data signal outwards. The wireless explosion data comprises grenade types, identity information of throwing personnel, exercise registration information and grenade killing capacity information, the analog fuse is delayed for 4-5 seconds, and the control and wireless communication circuit 8 transmits wireless explosion data signals through a ZigBee communication protocol.

After the simulation equipment in the coverage range of the wireless data signal of the simulated grenade receives the wireless explosion data signal, judging whether a person throwing the grenade performs exercise registration according to exercise registration information, and if the person throwing the grenade performs exercise registration and the protection capability of the simulation equipment is smaller than the killing capability of the simulated grenade, damaging the simulation equipment; if the personnel throwing the grenade do not perform exercise registration or the protection capability of the simulation equipment is greater than the killing capability of the simulation grenade, the simulation equipment is not damaged.

The above embodiments are only for illustrating the technical idea of the present invention, and the protection scope of the present invention is not limited thereby, and any modifications made on the basis of the technical scheme according to the technical idea of the present invention fall within the protection scope of the present invention.

Claims (6)

1. A cheating prevention method of an anti-cheating simulation grenade comprises a shell, a safety pin, a safety holding sheet, a torsion spring, a trigger switch, a battery, a communication switch and a control and wireless communication circuit, wherein the shell is connected with the safety pin; the method is characterized in that:

the anti-cheating method comprises the following steps:

step 1: in the throwing preparation stage, the communication switch is pressed down, the control and wireless communication circuit wirelessly communicates with an individual simulator worn by a throwing person, and identity information, casualty state information and exercise registration information of the throwing person are acquired from the individual simulator, so that the current state of the throwing person is confirmed;

step 2: when the grenade is pulled out of the safety pin and thrown, the torsion spring drives the safety grip piece to lift, the trigger switch is released to be activated, and if the individual soldier simulator is in a throwing-capable state, the start delay of the fuze is simulated; if the data communication is not carried out with the individual simulator worn by the throwing personnel within the set time, or the individual simulator displays that the throwing personnel is in a state that the throwing personnel can not throw, the simulated grenade does not have any action;

and step 3: after the delay time of the analog fuse is over, the control and wireless communication circuit in the grenade transmits a wireless explosion data signal outwards, after the analog equipment in the coverage range of the wireless data signal of the analog grenade receives the wireless explosion data signal, whether personnel throwing the grenade performs exercise registration is judged according to exercise registration information, and if the personnel throwing the grenade performs exercise registration is registered and the protection capability of the analog equipment is smaller than the killing capability of the analog grenade, the analog equipment is updated to be in a damaged state; if the personnel throwing the grenade do not perform exercise registration or the protection capability of the simulation equipment is greater than the killing capability of the simulation grenade, the simulation equipment does not act.

2. The anti-cheating method of an anti-cheating simulated grenade according to claim 1, wherein: the simulation equipment is used for simulating the damage state of the grenade, and uploading the identity information and the exercise registration information of the grenade to a control center for statistics and evaluation.

3. The anti-cheating method of an anti-cheating simulated grenade according to claim 1, wherein: the control and wireless communication circuit is in wireless data communication with an individual simulator worn by a throwing person in a wireless mode, and the explosion efficiency of the real-mounted grenade is simulated by transmitting a wireless explosion data signal.

4. A cheating prevention method for an anti-cheating simulated grenade according to claim 3, characterized in that: the wireless data communication and the wireless explosion data signal can adopt infrared communication, laser communication, ZigBee communication, Bluetooth communication, wireless radio frequency modulation signals or the combination of the communication modes.

5. The anti-cheating method of an anti-cheating simulated grenade according to claim 1, wherein: the exercise registration information is exercise number information which is uniformly issued to each of the participating simulators by the control center when exercise begins, after the simulating equipment receives the wireless explosion data signals emitted by the simulated grenades, the exercise registration information of the throwing personnel contained in the wireless explosion data signals is compared with the exercise registration information of the simulating equipment, and if the exercise registration information is the same, the personnel throwing the simulated grenades are judged to have performed exercise registration; and if not, judging that the personnel throwing the simulated grenade do not carry out exercise registration.

6. The anti-cheating method of an anti-cheating simulated grenade according to claim 1, wherein: prevent that cheating simulates grenade's casing include neck and chamber portion the top of chamber portion sets up the neck, control and wireless communication circuit and battery setting are in chamber portion, rotate on the top of neck and connect the insurance and hold the piece, trigger switch sets up on the neck, and trigger end and the insurance of trigger switch hold the piece and set up relatively, hold the pivot department of piece and set up the torsional spring in the insurance, hold piece and neck in the insurance and set up the through-hole, the through-hole sets up relatively, sets up the safety catch in the through-hole.

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