CN2743780Y - Laser imitation shooting system - Google Patents

Abstract

The utility model relates to a laser simulated shooting system, comprising a laser generator and a laser receiver. The laser generator contains a first processing module and a laser shooting control module and a laser shooting driving module which are connected with the first processing module; the laser shooting driving module is connected with a laser shooting module; the laser receiver contains a second processing module, and a receiving amplifier module, a data transceiver module and a shoot prompting module which are connected with the second processing module; the amplifier is connected with at least one probe; the laser simulated shooting system can dispatch the feedback signal when receiving the laser signal, and moreover can receive the feedback signal, and prompts itself, which makes the user can obtain that the counterpart is shot; the laser simulated shooting system has the excellent perceptibility.

Description

Laser simulated firing system

Technical field

The utility model relates to a kind of laser simulated firing system, especially a kind ofly can return feedback signal after receiving laser, and laser simulated firing system that can receiving feedback signals.

Background technology

Existing laser simulation system as shown in Figure 1, comprise laser generator 3 and laser pickoff 4, laser generator 3 comprises emission processor 30, shoot detection module 32, Laser emission driver module 33, shot and vibrations analog module 34, state indicating module 35 and signal input interface 36 or infrared ray input interface with the emission control module 31, the simulation that are connected with emission processor 30, Laser emission driver module 33 is connected with generating laser 330; Laser pickoff 4 comprises receiving processor 40, with coupled reception amplifier 41, sound and vibrations alarm module 42, probe indicator lamp 43, nixie display 44 and output interface 45 or infrared ray output interface, reception amplifier 41 is connected with several probes 410.

During work, as shown in Figure 2, start back system enters holding state through self check.The self check process is finished the detection of sound, light and vibrations alarm module, and receiver respectively is provided with the Alternation Display of parameter.Holding state is waited for the input of infrared decode start signal, and this moment, laser pickoff can not receive laser signal; Laser generator is in the lock state, and can not launch the laser code signal.

Receive infrared decoded signal when laser pickoff and decode successfully, at first transmit relevant parameter, enable laser generator, make laser generator can launch the laser code signal to laser generator; Laser pickoff enters duty by holding state, can receive the laser code signal.When receiver is received efficient laser code signal (by hitting), sound, light and vibrations warning device will produce corresponding actuation of an alarm, and digital display screen shows the number of times that is hit.Locking laser gun 3-5 enables laser gun after second again, turns back to duty.Reached falling in battle during number of times of setting when hitting number of times, the locking laser gun also turns back to holding state.Infrared decoded signal is re-entered in wait.

Therefore, when this laser simulated firing system is used to carry out mutual simulated gunnery, hit the prompting of root according to sound and shock module, know own being hit, and shooting side can only lean on the vision and the sense of hearing to judge whether to hit the other side, particularly on remote and many people when penetrating mutually, whether very difficult judgement hits the mark.Can not carry out in good time management and record to shooting grade, information shows single.

The utility model content

The purpose of this utility model provides a kind of laser simulated firing system, sends feedback signal when receiving laser signal, and can receive after the feedback signal of the system of being hit and to make the user learn and to hit the other side having good perceptibility from prompting.

For achieving the above object, the utility model provides a kind of laser simulated firing system, comprising:

One laser generator is used for producing and emission laser, and it comprises:

One first processing module is used for the input signal of detection laser generator and the state of control output signal;

One emission control module is connected with described first processing module, is used for control output Laser emission signal;

One Laser emission driver module is connected with described first processing module, is used to produce the driving signal of pulse code sequence;

One laser emitting module is connected with described Laser emission driver module, is used for producing under the driving of the driving signal of above-mentioned pulse code sequence the laser code burst;

One laser pickoff is connected with described laser generator, is used to receive laser, sends and receives feedback signal, and it comprises:

At least one probe is used for receiving the laser code burst that laser generator sends;

One reception amplifier is connected with described probe, is used to amplify the laser code burst that probe receives;

One second processing module is connected with reception amplifier with described first processing module, is used to finish the reception and the identification of laser code burst;

One data radio station is connected with described second processing module, is used to send and receive feedback signal;

One hits reminding module, is connected with described second processing module, is used to receive sound or vibrations prompting behind the feedback signal.

Described first processor has infrared input interface, and described second processor has infrared output interface, and the first processor and second processor are by infrared input interface and infrared output interface wireless connections.Described laser generator has simulation and shoots detection module, is connected with described first processor.Described laser generator has the shot and the vibrations analog module of simulation gunshot and vibrations, is connected with described first processor.Described laser generator has whether operable state indicating module of prompting laser generator, is connected with described first processor.

Described laser pickoff has the probe indicator lamp of making prompting when probe receives laser signal, is connected with described second processor.Described laser pickoff has and is used to receive the alarm module that sound behind the laser signal and/or vibrations are reported to the police.Described laser pickoff has one and is used to store the number of times of receiving the laser signal sequence and the data memory module of feedback signal information, is connected with described second processing module.Described laser pickoff has and is used to show the number of times of receiving the laser signal sequence and the display screen of feedback signal information, is connected with described second processing module.

Therefore, the utility model can send feedback signal when receiving laser signal, and can receive feedback signal, and prompting certainly, makes the user learn and hit the other side to have good perceptibility.

Below in conjunction with drawings and Examples, the technical solution of the utility model is described in further detail.

Description of drawings

Fig. 1 is the structural representation of existing laser simulated firing system.

Fig. 2 is the structural representation of the utility model laser simulated firing system.

Fig. 3 is for the utility model laser simulated firing system emission laser and receive the flow chart of feedback.

Fig. 4 receives laser and sends the flow chart of feedback for the utility model laser simulated firing system.

The specific embodiment

The utility model is to increase the feedback module on the basis of existing laser simulated firing system, make and when receiving laser, send feedback signal promptly by the laser hit, the simulation system of sending laser receives and identifies this signal, therefore make prompting and can add up, make the person of sending learns it is that oneself sends.

As shown in Figure 2. be the structural representation of the utility model laser simulated firing system, comprise laser generator 1 and laser pickoff 2, laser generator 1 comprises that first processing module 10 and connected emission control module 11, Laser emission driver module 12, simulation shoot detection module 13, shot and vibrations analog module 14 and state indicating module 15, Laser emission driver module 12 is connected with laser emitting module 16, the first processing modules 10 and has input interface 100; Laser pickoff 2 comprises second processing module 20 and connected reception amplifier 21, alarm module 22, data radio station 23, hits reminding module 24, data memory module 25 display screens 26, and probe indicator lamp 27, amplifier 21 are connected with several probes 28; First processing module 10 is connected with output interface 200 by input interface 100 with second processing module 20.

Present embodiment is a wired connection, can also be by on first processing module, adding infrared input interface, with on second processing module, add infrared output interface, make the first processor and second processor by infrared input interface and infrared output interface wireless connections, carry out the transmission of wireless messages.

Laser generator 1 each parts effect is as follows:

(1) first processing module 10: be used for the input signal of detection laser generator and the state of control output signal;

(2) emission control module 11: be used for control output Laser emission signal

(3) the Laser emission driver module 12: the driving signal that is used to produce the pulse code sequence;

(4) simulation shoots detection module 13: shoot action when detecting to carry out when simulation shoots;

(5) shot and vibrations analog module 14: simulation produces shot and vibrations in the emission laser signal;

(6) the state indicating module 15: with the shooting state of a double-colored indicator lamp indication laser generator, red indication laser generator can not be shot, and green indication laser generator can be shot;

(7) laser emitting module 16: be used for producing under the driving of above-mentioned pulse code sequence signal the laser code burst;

(8) input interface 100: for laser generator 3 provides power supply, transmit the laser generator parameter, the shooting state (shooting enables or shoot not enable) of control laser generator.

Laser pickoff 2 each parts effects are as follows:

(1) second processing module 20: be used to finish the reception and the identification of laser code signal;

(2) reception amplifier 21: be used to amplify the laser code burst that probe receives;

(3) alarm module 22: the sound or the vibrations that are used to receive behind the laser signal are reported to the police;

(4) data radio station 23: be used to send and receive feedback signal;

(5) hit reminding module 24: be used to receive sound or vibrations prompting behind the feedback signal;

(6) data memory module 25: be used to store the laser signal number of times and the feedback signal information that receive;

(7) display screen 26: be used for showing laser signal number of times and the feedback signal information received;

(8) probe indicator lamp 27: when probe receives the laser code burst, make prompting;

(9) probe 28: be used for receiving the laser code burst that laser generator sends;

(10) output interface 200: for laser generator provides power supply, transmit the laser generator parameter, the shooting state of control laser generator.

As shown in Figure 3, be the utility model laser simulated firing system emission laser and the flow chart of receiving feedback signal,

The user of step 101, laser simulation system sends the i.e. order of " opening fire " of emission laser by the emission control module to first processing module;

Step 102, first processing module control Laser emission driver module are launched the laser code burst by laser emitting module according to system's numbering, and first processing module control shot and shock module simulation are sent shot and produced vibrations;

It is the laser that is sent by native system that above-mentioned coded signal sequence can be identified by other system;

Step 103, this laser code burst are received by other simulated gunnery systems, send feedback information, and this feedback information comprises the numbering of this emission system, the numbering and the degree of injury value of the other side's receiving system; (process of reception and feedback sees for details following.)

After step 104, data radio station are received this feedback information, this information is transmitted and second processing module;

Step 105, second processing module are stored in data memory module with this feedback information, and are shown by display, and reminding module is made acousto-optic or vibrations or other promptings.

Through after a while, the user can learn the numbering of hitting the other side by the demonstration of display, number of times that each side hits and degree of injury, and in time learn own hit the other side by reminding module, understand fire effect.

As shown in Figure 4, for the utility model laser simulated firing system receives laser and sends the flow chart of feedback,

Step 201, probe receive the laser code burst;

Step 202, this information are amplified the back by amplifier and are transmitted and second processing module;

Step 203, second processing module control alarm module are reported to the police and are controlled probe indicator lamp light prompt, and above-mentioned laser code information is handled, identifying is the laser signal sequence of being sent by what simulation system, and draws the degree of injury value according to the information of the probe that receives the laser signal sequence;

Step 204, second processing module transmit above-mentioned feedback information by data radio station and judge degree of injury, if reaching " death ", degree of injury sends to stop to launch laser intelligence to first processor, and execution in step 205, otherwise work on;

This feedback information can only be sent system and receive and discern by the laser that probe receives, other system can not be discerned;

Step 205, first processor stop to launch the laser signal sequence, and the prompting of state of a control display module can not be launched the laser signal sequence.

When normal the use, emitting times can be set, after emitting times reaches, the prompting of state display module can not be launched, and shoots the detection module simulation by simulation then and shoots, and sends first processing module, first processing module allows emission, and the prompting of state display module can be launched.

It should be noted last that, above embodiment is only unrestricted in order to the explanation the technical solution of the utility model, although the utility model is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement the technical solution of the utility model, and not break away from the spirit and scope of technical solutions of the utility model.

Claims (9)

1, a kind of laser simulated firing system is characterized in that comprising:

One laser generator is used for producing and emission laser, and it comprises:

One is used for first processing module of input signal with the state of control output signal of detection laser generator;

One is used to control the emission control module of output Laser emission signal, is connected with described first processing module;

One is used to produce the Laser emission driver module of the driving signal of pulse code sequence, is connected with described first processing module;

One is used for producing the laser emitting module of laser code burst under the driving of the driving signal of above-mentioned pulse code sequence, be connected with described Laser emission driver module;

One is used to receive laser, send and receive the laser pickoff of feedback signal, is connected with described laser generator, and it comprises:

At least one is used for receiving the probe of the laser code burst that laser generator sends;

One is used to amplify the reception amplifier of the laser code burst that probe receives, and is connected with described probe;

One is used to finish second processing module of the reception and the identification of laser code burst, is connected with reception amplifier with described first processing module;

One is used to send and receive the data radio station of feedback signal, is connected with described second processing module;

One is used to receive the reminding module that hits of sound behind the feedback signal or vibrations prompting, is connected with described second processing module.

2, laser simulated firing system according to claim 1, it is characterized in that: described first processor has infrared input interface, described second processor has infrared output interface, and the first processor and second processor are by infrared input interface and infrared output interface wireless connections.

3, laser simulated firing system according to claim 1 is characterized in that: described laser generator has simulation and shoots detection module, is connected with described first processor.

4, laser simulated firing system according to claim 1 is characterized in that: described laser generator has the shot and the vibrations analog module of simulation gunshot and vibrations, is connected with described first processor.

5, laser simulated firing system according to claim 1 is characterized in that: described laser generator has whether operable state indicating module of prompting laser generator, is connected with described first processor.

6, laser simulated firing system according to claim 1 is characterized in that: described laser pickoff has the probe indicator lamp of making prompting when probe receives laser signal, is connected with described second processor.

7, laser simulated firing system according to claim 1 is characterized in that: described laser pickoff has and is used to receive the alarm module that sound behind the laser signal and/or vibrations are reported to the police.

8, laser simulated firing system according to claim 1 is characterized in that: described laser pickoff has one and is used to store the number of times of receiving the laser signal sequence and the data memory module of feedback signal information, is connected with described second processing module.

9, laser simulated firing system according to claim 1 is characterized in that: described laser pickoff has and is used to show the number of times of receiving the laser signal sequence and the display screen of feedback signal information, is connected with described second processing module.