CN209745097U - Cascaded laser receiving device - Google Patents
Cascaded laser receiving device Download PDFInfo
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- CN209745097U CN209745097U CN201821569589.7U CN201821569589U CN209745097U CN 209745097 U CN209745097 U CN 209745097U CN 201821569589 U CN201821569589 U CN 201821569589U CN 209745097 U CN209745097 U CN 209745097U
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Abstract
the utility model discloses a tandem type laser receiving device relates to real soldier and hinders training technical field, comprises connecting cable, laser probe, sectional fixture, connects a plurality of laser probe series connection through connecting cable, constitutes laser and surveys the bandeau, and every laser probe all sets up unique serial number. The probe on the probe belt is fixed on the main part of the tank, the armored vehicle or the logistics support vehicle through the clamp, and when the tank, the armored vehicle or the logistics support vehicle is attacked by the coded laser emitted by the direct aiming weapon simulator, the specific part of the tank, the armored vehicle or the logistics support vehicle which is hit can be identified according to the code of the probe which receives the coded laser. The utility model discloses hit precision simulation and damage efficiency analog precision height to weapon simulator in the training is confronted to the soldier, has improved the ability that the soldier took different counter-measures according to the concrete damage condition of equipment in the confrontation exercise.
Description
Technical Field
The utility model relates to an actual soldier confrontation training technical field especially relates to a tandem type laser receiving device.
background
The method is characterized in that laser is emitted to replace live ammunition, and the laser is an effective means for carrying out real-soldier confrontation training by the current army.
With the advance of actual combat training, higher and higher requirements are provided for the hit precision simulation and damage performance simulation of a weapon simulator in the actual combat training. The accuracy of the target hit by the fighter in the countermeasure drilling and the ability of the fighter to take different countermeasures in the countermeasure drilling according to the specific damage condition of the equipment are important training contents. This requires that the hit location of the equipment be accurately identified and the specific damage condition of the equipment be calculated on the basis of the hit location.
SUMMERY OF THE UTILITY MODEL
The utility model discloses to above-mentioned technical problem, overcome prior art's shortcoming, provide a cascade type laser receiving device, through the main part of installing at tank, armoured vehicle or logistics support vehicle, can discern effectively and equip the position of being hit.
In order to solve the technical problem, the utility model provides a cascade laser receiving device, which comprises a plurality of laser probes, a connecting cable and a mounting clamp,
The plurality of laser probes are connected in series through the connecting cable to realize data transmission, and each laser probe can receive the data of the laser probe of the previous stage through the connecting cable and output the analyzed coded laser information through the connecting cable or transmit the received data of the laser probe of the previous stage; the last-stage laser probe outputs data to a master control device of the simulator of the tank, armored vehicle or logistics support vehicle through a connecting cable, or outputs data to a forwarding device through the connecting cable, and the data are forwarded to the master control device of the simulator of the tank, armored vehicle or logistics support vehicle through the forwarding device in a wired communication or wireless communication mode;
Each laser probe is fixed on each main part of the tank, the armored vehicle or the logistics support vehicle through a mounting clamp, each laser probe is provided with a unique serial number, when the tank, the armored vehicle or the logistics support vehicle is attacked by laser emitted by a direct aiming weapon simulator, the laser probes mounted on the coded laser hitting parts can analyze weapon information and ammunition information, and the serial numbers corresponding to the weapon information, the ammunition information and the laser probes are output through connecting cables; the main control device of the tank, armored vehicle or logistics support vehicle simulator judges the hit part according to the serial number of the laser probe, and calculates the damage result according to the attacking weapon information and ammunition information.
The technical effects are as follows: the utility model discloses a cascade type laser receiving arrangement is through installing laser probe at the tank, the main part of armoured vehicle or logistics support vehicle, effectively discern the tank, the position that armoured vehicle or logistics support vehicle were hit by the direct aim weapon simulator, attack weapon information and attack ammunition information, make the tank, armoured vehicle or logistics support vehicle simulator can accurately calculate equip the position damaged and the damage condition, the damage result can regard as the training examination foundation of attacker's warrior shooting accuracy, also can be used for examining the tank, the handling ability of armoured vehicle or logistics support vehicle driver and crew after equipping the damage to can be used for drawing battlefield equipment and salvage the training.
the utility model discloses the technical scheme who further injects is:
Further, the laser probe outputs a beacon at regular time, and when the master control device of the tank, armored vehicle or logistics support vehicle simulator receives the beacon within set time, the laser probe is judged to work normally; if the master control device of the tank, armored vehicle or logistics support vehicle simulator can not receive the beacon within the set time, the cascaded laser receiving device is judged not to be installed as required, or the laser probe fails.
In the cascade laser receiving device, data transmission among the laser probes is performed in a mode of RS232, RS485, RS422, CAN or Ethernet.
the tandem laser receiving device comprises a laser probe, a photoelectric sensor, an amplifying circuit, a filter circuit, a single chip microcomputer and a communication circuit, wherein the communication circuit comprises a first communication circuit channel and a second communication circuit channel, the photoelectric sensor converts received coded laser signals into electric signals, the electric signals are amplified by the amplifying circuit and filtered by the filter circuit and then transmitted to the single chip microcomputer, the single chip microcomputer decodes the signals, analyzed data are sent out through the communication circuit channel, and the single chip microcomputer transmits the data through the communication circuit channel after receiving the data sent by the last-stage laser probe from the second communication circuit channel.
In the cascaded laser receiving device, the serial number of the laser probe is set by using a dial switch, or the serial number is written into an internal memory of the laser probe by a programming tool, and the serial number is automatically read when the singlechip is powered on.
The utility model has the advantages that:
(1) the utility model discloses a beacon is regularly output to laser probe, which is used for the main control device of tank, armored vehicle or logistics support vehicle simulator to judge whether the laser probe is normally connected or normally works;
(2) the utility model discloses a cascaded laser receiving device is high to hit precision simulation and damage efficiency analog precision of weapon simulator in the training is confronted to the soldier, has improved the soldier and has taken the ability of different counter-measures according to the concrete damage condition of equipment in the confrontation exercise.
Drawings
Fig. 1 is a schematic diagram of a laser probe cascade of the present invention;
Fig. 2 is a schematic circuit diagram of the laser probe of the present invention;
Fig. 3 is a schematic view of the installation of the laser probe of the present invention.
Detailed Description
The embodiment provides a cascaded laser receiving device, as shown in fig. 1 to 3.
As shown in fig. 1, the cascaded laser receiving device is composed of n laser probes, and data transmission among the laser probes is performed in a RS232, RS485, RS422, CAN or ethernet manner. Each laser probe can receive the data of the previous laser probe through the connecting cable, and outputs the analyzed coded laser information through the connecting cable or forwards the received data of the previous laser probe. The n laser probes are the last laser probes, data are output to the tank, armored vehicle or logistics support vehicle simulator main control device through the connecting cables, or the data are output to the forwarding device through the connecting cables, and the data are forwarded to the tank, armored vehicle or logistics support vehicle simulator main control device through the forwarding device in a wired communication or wireless communication mode.
As shown in fig. 2, the laser probe includes a photoelectric sensor, an amplifying circuit, a filter circuit, a single chip microcomputer, and a communication circuit, the communication circuit includes a first communication circuit channel and a second communication circuit channel, the photoelectric sensor converts the received coded laser signal into an electrical signal, the electrical signal is amplified by the amplifying circuit and filtered by the filter circuit and then transmitted to the single chip microcomputer, the single chip microcomputer decodes the signal, the analyzed data is transmitted through the communication circuit channel, and the single chip microcomputer transmits the data transmitted by the previous laser probe through the communication circuit channel after receiving the data from the second communication circuit channel.
As shown in figure 3, each laser probe is fixed on each main part of a tank, an armored vehicle or a logistics support vehicle through a mounting fixture, each laser probe is provided with a unique number, the number of the laser probe is set by using a dial switch, or the number is written into an internal memory of the laser probe through a programming tool, and the number is automatically read when a singlechip is powered on. When a tank, an armored vehicle or a logistics support vehicle is attacked by laser emitted by a direct aiming weapon simulator, a laser probe installed on a coded laser hit part can analyze weapon information and ammunition information, and numbers corresponding to the weapon information, the ammunition information and the laser probe are output through a connecting cable; the main control device of the tank, armored vehicle or logistics support vehicle simulator judges the hit part according to the serial number of the laser probe, and calculates the damage result according to the attacking weapon information and ammunition information.
The laser probe outputs a beacon at regular time, and the master control device of the tank, armored vehicle or logistics support vehicle simulator judges that the laser probe works normally when receiving the beacon within set time; if the master control device of the tank, armored vehicle or logistics support vehicle simulator can not receive the beacon within the set time, the cascaded laser receiving device is judged not to be installed as required, or the laser probe fails.
in addition to the above embodiments, the present invention may have other embodiments; all the technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the protection scope claimed by the present invention.
Claims (5)
1. a cascaded laser receiving device is characterized in that: comprises a plurality of laser probes, a connecting cable and a mounting clamp,
The laser probes are connected in series through the connecting cable to realize data transmission, and each laser probe can receive data of the laser probe of the previous stage through the connecting cable and output analyzed coded laser information through the connecting cable or forward the received data of the laser probe of the previous stage; the last stage of the laser probe outputs data to a master control device of a simulator of the tank, armored vehicle or logistics support vehicle through the connecting cable, or outputs data to a forwarding device through the connecting cable, and the data are forwarded to the master control device of the simulator of the tank, armored vehicle or logistics support vehicle through the forwarding device in a wired communication or wireless communication mode;
Each laser probe is fixed on each main part of the tank, the armored vehicle or the logistics support vehicle through the mounting clamp, each laser probe is provided with a unique serial number, when the tank, the armored vehicle or the logistics support vehicle is attacked by laser emitted by the direct aiming weapon simulator, the laser probes mounted on the coded laser hitting parts can analyze weapon information and ammunition information, and the weapon information, the ammunition information and the serial numbers corresponding to the laser probes are output through the connecting cables; and the main control device of the tank, armored vehicle or logistics support vehicle simulator judges the hit part according to the serial number of the laser probe, and calculates the damage result according to the attacked weapon information and ammunition information.
2. the tandem laser receiving apparatus according to claim 1, wherein: the laser probe outputs a beacon at regular time, and the master control device of the tank, armored vehicle or logistics support vehicle simulator judges that the laser probe works normally when receiving the beacon within set time; and if the master control device of the simulator of the tank, the armored vehicle or the logistics support vehicle cannot receive the beacon within the set time, judging that the cascade type laser receiving device is not installed as required, or judging that the laser probe fails.
3. The tandem laser receiving apparatus according to claim 1, wherein: data transmission among the laser probes is in an RS232, RS485, RS422, CAN or Ethernet mode.
4. The tandem laser receiving apparatus according to claim 1, wherein: the laser probe comprises a photoelectric sensor, an amplifying circuit, a filter circuit, a single chip microcomputer and a communication circuit, wherein the communication circuit comprises a first communication circuit channel and a second communication circuit channel, the photoelectric sensor converts received coded laser signals into electric signals, the electric signals are amplified by the amplifying circuit and then transmitted to the single chip microcomputer after being filtered by the filter circuit, the single chip microcomputer decodes the signals, analyzed data are sent out through the communication circuit channel, and the single chip microcomputer sends out the data sent by the laser probe through the communication circuit channel after receiving the data sent by the laser probe of the previous stage from the second communication circuit channel.
5. The tandem laser receiving apparatus according to claim 4, wherein: the serial number of the laser probe is set by using a dial switch, or the serial number is written into an internal memory of the laser probe by a programming tool, and the serial number is automatically read when the singlechip is powered on.
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CN201821569589.7U CN209745097U (en) | 2018-09-26 | 2018-09-26 | Cascaded laser receiving device |
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CN201821569589.7U CN209745097U (en) | 2018-09-26 | 2018-09-26 | Cascaded laser receiving device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109323617A (en) * | 2018-09-26 | 2019-02-12 | 中国人民解放军总参谋部第六十研究所 | A kind of tandem type laser receiver |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109323617A (en) * | 2018-09-26 | 2019-02-12 | 中国人民解放军总参谋部第六十研究所 | A kind of tandem type laser receiver |
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CB03 | Change of inventor or designer information |
Inventor after: Chen Feng Inventor after: Wan Hua Inventor after: Lv Zhanqiang Inventor after: Chen Jinye Inventor after: Zhao Zhili Inventor before: Chen Feng Inventor before: Wan Hua Inventor before: Lv Zhanqiang Inventor before: Chen Jinye Inventor before: Zhao Zhili |
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CB03 | Change of inventor or designer information |