CN103335563A - Sniper command system and sniping method - Google Patents

Abstract

The invention discloses a sniper command system and a sniping method. The sniper command system is applied to an emergency site; A, B, C, D, E and F points are arranged on the emergency site; the sniper command system is divided into a tactical reconnaissance system, a sniping reconnaissance command system, a tactical assault reconnaissance system and a command control memory system, and comprises a laser ranging fire control sighting telescope, a first microwave transmission module, a second microwave transmission module, a third microwave transmission module, a fourth microwave transmission module, a first arm type receiver, a second arm type receiver, a low-light-level night vision riflescope, a day and night dual-purpose television riflescope, a high-power laser remote reconnaissance instrument, a DB reconnaissance instrument, and a four-way portable receiver; the A point and the B point are arranged as sniping places; the C point is arranged as a tactical reconnaissance assault point; the D point is arranged as a visual field open commanding point; the E point is arranged as a maneuvering view point; the F point is arranged as a command center; and the A sniping place is equipped with the laser ranging fire control sighting telescope, the first microwave transmission module and the first arm type receiver. The invention further discloses the sniping method applied to the sniper command system.

Description

Sniper command system and sniping method thereof

Technical Field

The invention relates to a sniper command system and a sniping method adopted by the sniper command system, in particular to a multi-azimuth all-weather sniper precise striking command system and a sniping method of the striking command system.

Background

The sniper is a pair of sharp swords in the special service unit and is responsible for striking the first criminal and saving the hostage. In handling emergency emergencies, knowledge of the situation of the marksman on site, communication and cooperation between the marksman and a command center and between the marksman and the marksman are of great importance.

At present, the information equipment level of a sniper of a special police is low in China. In most cases, a sniper can only keep contact with teammates and command centers through a single radio station, and the sniper and the command centers cannot obtain comprehensive information on the site easily; the sniper can miss the best time for sniping due to insufficient understanding of the sniper on-site environment or slightly unsmooth communication with the command center, and brings an inconceivable result.

Disclosure of Invention

In order to solve the problems of real-time control and informatization command of special service units to a spot-breaking site, the invention provides a sniper command system capable of acquiring the best sniping time and a sniping method adopted by the sniper command system.

The sniper command system is applied to an emergency scene, and six points A, B, C, D, E, F are arranged on the emergency scene, wherein the point A, the point B and the point E are positioned at three positions of the emergency scene, the point C and the point D are positioned at the other position of the emergency scene in parallel, so that the point A, the point B, the point E, the point C and the point D surround the emergency scene, and the point F is positioned behind the point E; wherein,

the sniper command system is divided into a tactical reconnaissance system, a sniper reconnaissance command system, a tactical assault reconnaissance system and a command control storage system; the sniper command system comprises a laser ranging fire control sighting telescope provided with an additional video view finding system, four microwave transmission modules from the first to the fourth, two wrist type receivers from the first to the second, a low-light night vision gun sight provided with an additional video view finding system, a day and night dual-purpose television gun sight provided with an additional video view finding system, a high-power laser remote reconnaissance instrument, a DB reconnaissance instrument and a four-channel portable receiver; wherein, the point A and the point B are set as sniping points, the point C is set as a tactical reconnaissance assault point, the point D is set as a view-widening high-making point, the point E is set as a maneuvering observation point, and the point F is set as a command center; a sniping place: the laser ranging fire control sighting telescope is provided with a video viewing system, the first microwave transmission module and the first wrist type receiver; b, sniping place: the low-light-level night vision gun sight, the second microwave transmission module and the second wrist type receiver are provided with a video viewing system; c, tactical reconnaissance attack points: the day and night dual-purpose television gun sight equipped with a video viewing system and the third microwave transmission module; d, field of view widening and height control: the high-power laser remote reconnaissance instrument and the fourth microwave transmission module are equipped; e maneuvering observation point: the DB scout instrument and the fifth microwave transmission module are equipped; the command center F is provided with the four-channel portable receiver;

the tactical reconnaissance system comprises the high-power laser remote reconnaissance instrument and the DB reconnaissance director, wherein the high-power laser remote reconnaissance instrument and the DB reconnaissance director respectively transmit field images to the four-channel portable receiver of the F command center or a first arm wrist type receiver and a second arm wrist type receiver which are equipped for field sniping and battle groups by means of the fourth microwave transmission module and the fifth microwave transmission module;

the sniping reconnaissance command system comprises the laser ranging fire control sighting telescope and the low-light night vision gun sight; on the premise of not influencing the precise shooting of the optical direct sight of a sniper, the laser ranging fire control sighting telescope and the low-light-level night vision sighting telescope transmit the scene in the optical sighting telescope to the four-channel portable receiver of the F command center in real time through the first microwave transmission module and the second microwave transmission module respectively;

the tactical assault investigation system comprises the day and night dual-purpose television gun sight, wherein the day and night dual-purpose television gun sight is provided with a viewing investigation module; the framing and investigation module is connected with a third microwave transmission module and sends the image back to the four-channel portable receiver of the F command center; the image signal of the day and night television gun sight can be converted into an interface of the framing and detecting module to realize image information return;

the command control storage system comprises the four-channel portable receiver of the F command center, four groups of wireless receiving and storage modules are built in the four-channel portable receiver, and the simultaneous command of two sniping groups is realized; through field image summarization, commanders can better know the operation situation and the change of operation targets of each group of sniper and observer, and timely and accurate tactical guidance is carried out.

As a further improvement of the scheme, A, B points are sniping points, and a sniper at point A transmits a target image to the four-channel portable receiver at the command center F through the first microwave transmission module by the aid of the laser ranging fire control sighting telescope additionally provided with the video viewing system; and the B-point sniper aims at the low-light-level night vision gun with the video viewing system to transmit the target image to the four-channel portable receiver of the F command center through the second microwave transmission module.

As a further improvement of the scheme, the point C is a tactical reconnaissance assault point, and a target image is transmitted to the four-channel portable receiver of the F command center through the day-night dual-purpose television gun with a video viewing system through the third microwave transmission module.

As a further improvement of the scheme, the point D is an open-field high-altitude point, and the high-power laser remote reconnaissance instrument is used for transmitting a large-angle field image to the four-channel portable receiver of the F command center through the fourth microwave transmission module.

As a further improvement of the scheme, the point E is a maneuvering reconnaissance point, the DB reconnaissance instrument is used for maneuvering reconnaissance and assisting in finding a sniping opportunity, and the target image is transmitted to the arm wrist type receiver at the two points A, B through the fifth microwave transmission module to receive the image, so that the situation of the site can be judged more accurately.

As a further improvement of the scheme, the four-channel portable receiver of the F point is provided with a data exchange interface and can be connected with a 3G/4G wireless transmission device or a satellite communication device.

As a further improvement of the above solution, the command control storage system is optionally equipped with a thermal imager or a night vision device.

The invention also relates to a sniping method which is applied to the sniper command system and comprises the following steps:

arranging A, B, C, D, E, F six points on the emergency site, wherein a point A, a point B and a point E are located at three positions of the emergency site, and a point C and a point D are located at the other position of the emergency site in parallel, so that the five points A, B, E, C and D surround the emergency site, the point F is located behind the point E, the points A and B are both set as sniping points, the point C is set as a tactical reconnaissance assault point, the point D is set as an open-view and high-making point, the point E is set as a maneuvering observation point, and the point F is set as a command center;

the sniper at the point A transmits a target image to the four-channel portable receiver of the F command center through the first microwave transmission module by the laser ranging fire control sighting telescope additionally provided with the video viewing system;

the B-point sniper aims at the low-light-level night vision gun with the video viewing system, and transmits a target image to the four-channel portable receiver of the F command center through the second microwave transmission module;

the day and night dual-purpose television gun with a video viewing system is used for transmitting a target image to the four-channel portable receiver of the F command center through the third microwave transmission module;

the high-power laser remote reconnaissance instrument is used for transmitting a large-angle field image to the four-channel portable receiver of the F command center through the fourth microwave transmission module;

the DB reconnaissance instrument is used for maneuvering reconnaissance and assisting in finding sniping opportunities, and target images are transmitted to the arm wrist type receiver with A, B points through the fifth microwave transmission module to receive the images, so that the site situation can be judged more accurately.

The invention relies on various data transmission modes, utilizes various field information acquisition equipment, realizes the all-round all-weather acquisition and transmission of field information, enhances the capability of carrying out real-time command and control on the field in the sniping task process, and helps a commander to make quick response and correct judgment, thereby issuing a correct instruction and implementing accurate striking.

Drawings

Fig. 1 is a schematic block structure diagram of a sniper command system according to a preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention relies on three transmission modes of microwave, simulation and 3G/4G, utilizes the characteristics of each transmission mode to connect various investigation, operation and command equipment, and is used by matching around-the-clock investigation and evidence-obtaining equipment with operation and tactical equipment, and an interactive processing and storage device is arranged in an operation command center. If necessary, the satellite communication network can be connected to achieve the purposes of remotely synchronizing battlefield information in real time and remotely synchronizing combat command information in real time.

The sniper command system of the invention is divided into: the system comprises four modules, namely a tactical reconnaissance system, a sniping reconnaissance command system, a tactical assault reconnaissance system and a command control storage system. The sniper command system is applied to an emergency scene, as shown in fig. 1, the emergency scene is arranged A, B, C, D, E, F with six points, wherein point a, point B and point E are located at three positions of the emergency scene, point C and point D are located at another position of the emergency scene in parallel, so that the emergency scene is surrounded by five points, namely point a, point B, point E, point C and point D, and point F is located behind point E. The point A and the point B are set as sniping places, the point C is set as a tactical reconnaissance assault point, the point D is set as a view-opening and height-limiting point, the point E is set as a maneuvering observation point, and the point F is set as a command center.

The sniper command system comprises: the laser ranging fire control sighting telescope is provided with a laser ranging fire control sighting telescope 1 additionally provided with a video viewing system; first to fourth microwave transmission modules 2, 3, 4, 5, 6; first to second two wrist receivers 7, 8; the night-day dual-purpose low-light night vision gun sight is provided with a night-day dual-purpose low-light night vision gun sight 9 with an additional video viewing system, a night-day dual-purpose television gun sight 10 with an additional video viewing system, a high-power laser remote reconnaissance instrument 11, a DB reconnaissance instrument 12 and a four-channel portable receiver 13.

The tactical reconnaissance system comprises a high-power laser remote reconnaissance instrument 11 and a DB reconnaissance commander 12. The high-power laser remote reconnaissance instrument 11 and the DB reconnaissance director 12 respectively transmit field images to a command center (hereinafter, the four-channel portable receiver 13 of the F command center) or an arm-wrist type receiver equipped by a field sniping and fighting group by means of respective microwave transmission modules.

The sniping reconnaissance command system mainly comprises a laser ranging fire control sighting telescope 1 and a low-light night vision gun sight 9 with a video viewing system and a day and night dual-purpose function. The laser ranging fire control sighting telescope 1 and the low-light-level night vision gun sight 9 are respectively provided with the first microwave transmission module 2 and the second microwave transmission module 3, so that the scene in the optical sighting telescope is transmitted to the command center in real time on the premise of not influencing the accurate shooting of the optical sighting telescope of a sniper. The low-light night vision gun sight 9 is dedicated to providing support for precise striking in the early morning, at dusk and at night.

The tactical assault investigation system mainly comprises a day and night television gun sight 10 and a view finding investigation module. The view finding investigation module can be arranged on a day and night dual-purpose television gun sight 10, and is connected with a third microwave transmission module 4 to send images back to a command center; the image signal of the day and night television gun 10 can be converted into the interface of the viewing module when necessary, and the image information can be returned.

The command control storage system consists of a four-channel portable command center (i.e., a four-channel portable receiver 13) and an optional thermal imager or night vision device. Four groups of wireless receiving and storing modules are built in the four-channel command center, so that two sniping groups can be simultaneously commanded. Through field image summarization, commanders can better know the operation situation and the change of operation targets of each group of sniper and observer, and timely and accurate tactical guidance is carried out. The multi-point and multi-azimuth commanding of the combat commander is facilitated, so that the team members can better conduct cooperative combat, and the dead angle phenomenon on site is avoided. By adopting the HC SD card digital video for storing the certificate, the display can simultaneously display a single picture, a primary picture, a secondary picture and four pictures, thereby not only timely and accurately analyzing the battlefield change of all team members, but also timely retaining all combat information, facilitating tactical analysis after the combat and achieving the purposes of real-time training and experience sharing.

If necessary, by means of 3G/4G digital transmission, ultra-long distance data transmission is carried out under the condition of secret, not only can the multi-unit shared data information be analyzed, but also the data loss condition caused by the emergency condition can be prevented through multi-point storage, and the encrypted data reaches the military secret standard without worrying about data leakage. The cooperation fixed IP or system server can become long-range synchronous monitoring by 3G/4G cell-phone or computer on line, makes things convenient for the rear to look over the data at any time, regardless of the restriction of fixed command places such as command car, command center, is fit for the operation purpose of the timely analysis of in time command of operation at any time, improves the flexibility of all teams.

When an emergency occurs, the system is implemented according to the system layout diagram of fig. 1. At the scene of the emergency, six points are deployed A, B, C, D, E, F.

A. And B, sniping points. The sniper at the point A transmits a target image to a command center through a laser ranging fire control sighting telescope 1 additionally provided with a video viewing system through a first microwave transmission module 2; and the B-point sniper transmits the target image to the command center through a low-light-level night vision gun sight 9 additionally provided with a video viewing system through a second microwave transmission module 3.

The C point is a tactical reconnaissance assault point, and a special service worker transmits a target image to a command center through a third microwave transmission module 4 by a day-night dual-purpose television gun sight 10 additionally provided with a video viewing system; and the point D is a visual field widening high point, and a high-power laser remote reconnaissance instrument 11 is used for transmitting the wide-angle field image to a command center through a fourth microwave transmission module 5.

And point E is a maneuvering reconnaissance point, the special service personnel uses the DB reconnaissance instrument 12 to maneuver and reconnaissance to assist in finding a sniping opportunity, and the target image is transmitted to the sniper with the two points A, B through the fifth microwave transmission module 6. A. The snipers at the point B receive the images through the arm wrist type receivers respectively, so that the situation of the site can be judged more accurately.

Through the images transmitted back by the A, B, C, D points, the command center of the F point obtains the on-site multi-directional information, so that the quick response and the correct judgment are made, and accurate instructions are given to snipers at A, B points for accurate striking.

The four-channel portable receiver 13 at the point F is also provided with a data exchange interface, and 3G/4G wireless transmission equipment or satellite communication equipment can be connected as necessary to realize nationwide networking of the whole province.

The whole set of system all uses various rifle sights, video view finding system, various reconnaissance appearance all possess shimmer and infrared night vision function, have satisfied all-weather operation requirement. Data are transmitted through encrypted microwave signals, the anti-interference capability is strong, the transmission distance is long, and the method can adapt to various complex field environments.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. A sniper command system is applied to an emergency scene, six points are arranged A, B, C, D, E, F on the emergency scene, wherein a point A, a point B and a point E are located at three positions of the emergency scene, a point C and a point D are located at the other position of the emergency scene in parallel, so that the five points A, B, E, C and D surround the emergency scene, and the point F is located behind the point E;

the method is characterized in that: the sniper command system is divided into a tactical reconnaissance system, a sniper reconnaissance command system, a tactical assault reconnaissance system and a command control storage system; the sniper command system comprises a laser ranging fire control sighting telescope provided with an additional video view finding system, four microwave transmission modules from the first to the fourth, two wrist type receivers from the first to the second, a low-light night vision gun sight provided with an additional video view finding system, a day and night dual-purpose television gun sight provided with an additional video view finding system, a high-power laser remote reconnaissance instrument, a DB reconnaissance instrument and a four-channel portable receiver; wherein, the point A and the point B are set as sniping points, the point C is set as a tactical reconnaissance assault point, the point D is set as a view-widening high-making point, the point E is set as a maneuvering observation point, and the point F is set as a command center; a sniping place: the laser ranging fire control sighting telescope is provided with a video viewing system, the first microwave transmission module and the first wrist type receiver; b, sniping place: the low-light-level night vision gun sight, the second microwave transmission module and the second wrist type receiver are provided with a video viewing system; c, tactical reconnaissance attack points: the day and night dual-purpose television gun sight equipped with a video viewing system and the third microwave transmission module; d, field of view widening and height control: the high-power laser remote reconnaissance instrument and the fourth microwave transmission module are equipped; e maneuvering observation point: the DB scout instrument and the fifth microwave transmission module are equipped; the command center F is provided with the four-channel portable receiver;

the tactical reconnaissance system comprises the high-power laser remote reconnaissance instrument and the DB reconnaissance director, wherein the high-power laser remote reconnaissance instrument and the DB reconnaissance director respectively transmit field images to the four-channel portable receiver of the F command center or a first arm wrist type receiver and a second arm wrist type receiver which are equipped for field sniping and battle groups by means of the fourth microwave transmission module and the fifth microwave transmission module;

the sniping reconnaissance command system comprises the laser ranging fire control sighting telescope and the low-light night vision gun sight; on the premise of not influencing the precise shooting of the optical direct sight of a sniper, the laser ranging fire control sighting telescope and the low-light-level night vision sighting telescope transmit the scene in the optical sighting telescope to the four-channel portable receiver of the F command center in real time through the first microwave transmission module and the second microwave transmission module respectively;

the tactical assault investigation system comprises the day and night dual-purpose television gun sight, wherein the day and night dual-purpose television gun sight is provided with a viewing investigation module; the framing and investigation module is connected with a third microwave transmission module and sends the image back to the four-channel portable receiver of the F command center; the image signal of the day and night television gun sight can be converted into an interface of the framing and detecting module to realize image information return;

the command control storage system comprises the four-channel portable receiver of the F command center, four groups of wireless receiving and storage modules are built in the four-channel portable receiver, and the simultaneous command of two sniping groups is realized; through field image summarization, commanders can better know the operation situation and the change of operation targets of each group of sniper and observer, and timely and accurate tactical guidance is carried out.

2. The sniper command system of claim 1, wherein: A. the B point is a sniping place, and a sniper at the A point transmits a target image to the four-channel portable receiver of the F command center through the laser ranging fire control sighting telescope additionally provided with the video viewing system; and the B-point sniper aims at the low-light-level night vision gun with the video viewing system to transmit the target image to the four-channel portable receiver of the F command center through the second microwave transmission module.

3. The sniper command system of claim 1, wherein: and the point C is a tactical reconnaissance assault point, and a target image is transmitted to the four-channel portable receiver of the F command center through the third microwave transmission module by the day-night dual-purpose television gun with a video viewing system.

4. The sniper command system of claim 1, wherein: and the point D is a visual field widening high point, and the high-power laser remote reconnaissance instrument is used for transmitting a large-angle field image to the four-channel portable receiver of the F command center through the fourth microwave transmission module.

5. The sniper command system of claim 1, wherein: and point E is a maneuvering reconnaissance point, the DB reconnaissance instrument is used for maneuvering reconnaissance and assisting in finding a sniping opportunity, and a target image is transmitted to an arm wrist type receiver at A, B through the fifth microwave transmission module to receive the image, so that the situation of the site can be judged more accurately.

6. The sniper command system of claim 1, wherein: the four-channel portable receiver of the F point is provided with a data exchange interface and can be connected with a 3G/4G wireless transmission device or a satellite communication device.

7. The sniper command system of claim 1, wherein: the command control storage system is optionally equipped with a thermal imager or a night vision device.

8. Sniper method, applied in the sniper command system as claimed in claim 1, characterized in that: the sniping method comprises the following steps:

arranging A, B, C, D, E, F six points on the emergency site, wherein a point A, a point B and a point E are located at three positions of the emergency site, and a point C and a point D are located at the other position of the emergency site in parallel, so that the five points A, B, E, C and D surround the emergency site, the point F is located behind the point E, the points A and B are both set as sniping points, the point C is set as a tactical reconnaissance assault point, the point D is set as an open-view and high-making point, the point E is set as a maneuvering observation point, and the point F is set as a command center;

the sniper at the point A transmits a target image to the four-channel portable receiver of the F command center through the first microwave transmission module by the laser ranging fire control sighting telescope additionally provided with the video viewing system;

the B-point sniper aims at the low-light-level night vision gun with the video viewing system, and transmits a target image to the four-channel portable receiver of the F command center through the second microwave transmission module;

the day and night dual-purpose television gun with a video viewing system is used for transmitting a target image to the four-channel portable receiver of the F command center through the third microwave transmission module;

the high-power laser remote reconnaissance instrument is used for transmitting a large-angle field image to the four-channel portable receiver of the F command center through the fourth microwave transmission module;

the DB reconnaissance instrument is used for maneuvering reconnaissance and assisting in finding sniping opportunities, and target images are transmitted to the arm wrist type receiver with A, B points through the fifth microwave transmission module to receive the images, so that the site situation can be judged more accurately.