CN114322657A - Electronic sighting telescope integrated with ballistic trajectory calculation function - Google Patents

Abstract

The invention belongs to the technical field of ballistics plus optics plus computer interdisciplinary subjects, and provides a highly integrated electronic sighting telescope which comprises an OLED display screen, an objective lens, a high-resolution camera, an embedded computer (a main board, a memory and a CPU) and a distance measuring device, wherein the auxiliary part comprises a holder, a horizontal knob and a vertical knob, and the highly integrated electronic sighting telescope is provided with: the electronic mirror is internally provided with a laser range finder, a partition diagram arranged in a display and an RAM processor provided with a Linux system; the distance between the distance measuring device and a target object is acquired and transmitted to the computing software installed on the embedded computer, the computing software calculates the deviation position of the impact point according to the distance and the preset influence factors, and the deviation position of the impact point is displayed on an OLED display screen. The shooter can adjust the gunpoint angle by adjusting the shooting knob, thereby reducing the shooting operation difficulty and reducing the error caused by manual test judgment.

Description

Electronic sighting telescope integrated with ballistic trajectory calculation function

Technical Field

The invention belongs to the technical field of ballistics, optics and computer interdisciplinary subjects, and particularly relates to an electronic sighting telescope with a distance measurement calculation function.

Background

At present, the prior art commonly used in the industry is mostly an optical sighting telescope with a reticle, and does not have an auxiliary sighting function. For a novice shooter, the optical sighting telescope is used for enabling a target object to coincide with the central point of a division graph in the sighting telescope, and in the process of aiming shooting, the actual impact point position is often deviated from the target position due to inaccurate estimation of the distance between the shooter and the target and inaccurate grasp of objective factors such as the impact point position influenced by weather, wind speed and wind direction and the like. In the shooting process, the bullet does non-ideal parabolic motion under the influence of factors such as self gravity, chamber outlet speed, rotating speed, bullet shape, atmospheric pressure, wind speed and direction, and a shooter needs to comprehensively consider all factors according to self experience to shoot after calculating the deviation of wind deviation and trajectory, so that the requirement on the shooting level of the shooter is extremely high. For a beginner, the impact point position cannot be known in shooting, the impact of the environment on bullet deviation cannot be intuitively felt, repeated adjustment is needed, and the cost of manpower and material resources is greatly wasted. The electronic sighting telescope with the impact point calculating function can automatically obtain the target distance, and can calculate according to objective factors influencing bullet deviation, such as the weight and the speed of a bullet recorded in advance, natural environment factors and the like, so that the offset and the actual impact point position can be obtained, errors of manual experience calculation are reduced, and the culture difficulty and the cost of a shooter are reduced.

In summary, the problems of the prior art are as follows: at present, the gun sighting telescope is mostly an optical sighting telescope, the requirement on the shooting level of a shooter is extremely high, and the shooting difficulty is higher.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an integrated electronic mirror with distance measuring and calculating functions and capable of displaying a dividing map and the position of an impact point.

The invention is realized in this way, an integrated electronic sighting telescope with range finder, display and embedded computer, characterized in that, the integrated electronic telescope with range finder, display and processor is provided with:

the high-resolution camera assembly is used for acquiring external environment image information.

And the OLED display screen is used for displaying the image information acquired by the optical lens and displaying the division distance and the impact point offset position.

Further, the impact point offset position is represented by a red dot;

the laser ranging device is used for acquiring the distance between the laser ranging device and a target object;

and the embedded computer is provided with a Linux system and is used for calculating the actual impact point position according to the distance and environmental factors.

The implementation steps comprise:

s1, acquiring external environment image information by using a high-resolution camera, and displaying the image on an OLED display screen;

s2, determining the target object by the user according to the environment information displayed by the display screen and the central point of the division graph;

s3, measuring the distance to the target object by the laser range finder and transmitting the measurement result into the software in the embedded computer;

s4, calculating the impact point position by the calculation software according to the distance between the calculation software and the target object, the bullet self weight, the chamber-out speed, the wind direction, the wind speed, the air pressure, the humidity and other conditions input into the software in advance by a user, and displaying the impact point on a display screen by using the ballistics knowledge;

and S5, the user can adjust the shooting angle by adjusting the shooting knob according to the displayed actual impact point position.

In summary, the positive effects and effects that can be produced by the present invention are:

the distance between the distance measuring instrument and the target is obtained through calculation, the distance can be transmitted to calculation software in real time, the bullet offset is calculated, errors of manual experience judgment are greatly reduced, efficiency is higher, and a user can strike accurately. To novice shooter, can more audio-visual seeing bullet offset, can obtain the actual offset position of bullet through adjusting different environmental factor in the training process, can more rapid experience different environmental factor to the influence of bullet skew, more be favorable to the cultivation of shooting experience, very big reduction shooter's cultivation cost.

Drawings

FIG. 1 is a schematic view of an integrated electronic sighting telescope with built-in laser rangefinder, OLED display screen and embedded computer as contemplated by the present invention;

fig. 2 is a division diagram with division distances and actual impact point positions displayed on the OLED display screen according to the embodiment of the present invention.

FIG. 3 is a flow chart of a method for using an integrated electronic sighting telescope with a built-in laser range finder, an OLED display screen and an embedded computer according to an embodiment of the present invention

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the device comprises an OLED display screen, an objective lens, a high-resolution camera, an embedded computer (main board, memory, CPU), and a distance measuring device, and the auxiliary parts are a holder, a horizontal knob, and a vertical knob.

As shown in fig. 3, a method for using an electronic mirror with distance measuring and calculating functions according to an embodiment of the present invention includes the following steps:

s1, acquiring external environment image information by using a high-resolution camera, and displaying the image information on an OLED display screen;

s2, determining the target object by the user according to the environment information displayed by the display screen and the central point of the division graph;

s3, measuring the distance to the target object by the laser range finder and transmitting the measurement result into the software in the embedded computer;

s4, calculating the impact point position by the calculation software according to the distance between the calculation software and the target object, the bullet self weight, the chamber-out speed, the wind direction, the wind speed, the air pressure, the humidity and other conditions input into the software in advance by a user, and displaying the impact point on a display screen by using the ballistics knowledge;

and S5, the user can adjust the shooting angle by adjusting the shooting knob according to the displayed actual impact point position.

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 (4)

1. The utility model provides an integrated electronic gun sight of built-in laser range finder, display and embedded computer which characterized in that, the integrated electronic mirror of taking the distancer, display and treater is provided with:

the high-resolution camera is arranged on the objective lens of the electronic sighting telescope body, and the collected images are displayed on the display screen;

after a user determines a target object, measuring the distance between the target object and the user object through a laser ranging device and transmitting the measured distance to an embedded computer;

the software in the embedded computer calculates according to the distance between the software and the target object and the preset factors influencing bullet deviation;

displaying the calculated result on an electronic sighting telescope display screen;

2. the integrated electronic sighting telescope with built-in laser distance measuring device, OLED display screen and embedded computer as claimed in claim 1, wherein the electronic sighting telescope body is provided with adjusting buttons including (up, down, plus, minus, OK keys), and the data affecting bullet deviation factors in the computing software installed on the built-in embedded computer can be adjusted by the buttons, such as: wind speed, wind direction, atmospheric pressure, humidity, etc.

3. The integrated electronic sighting telescope with built-in laser rangefinder, OLED display screen and embedded computer as claimed in claim 1, wherein the electronic sighting telescope can be connected with mobile device via Bluetooth, and the mobile terminal can adjust the built-in data in the computing software installed on the embedded computer, such as: gun type, bullet self weight, bullet ejection chamber speed, bullet ejection chamber rotating speed and other gun factors influencing bullet deviation, and environmental factors such as wind speed, wind direction and atmospheric pressure.

4. The method for using the sighting telescope with the division diagram and the impact point position according to claim 1, wherein the method for using the sighting telescope with the division diagram and the impact point position comprises the following steps:

s1, acquiring external environment image information by using a high-resolution camera, and displaying the image on an OLED display screen;

s2, determining the target object by the user according to the environment information displayed by the display screen and the central point of the division graph;

s3, measuring the distance to the target object by the laser range finder and transmitting the measurement result into the software in the embedded computer;

s4, calculating the impact point position by the calculation software according to the distance between the calculation software and the target object, the bullet self weight, the chamber-out speed, the wind direction, the wind speed, the air pressure, the humidity and other conditions input into the software in advance by a user, and displaying the impact point on a display screen by using the ballistics knowledge;

and S5, the user can adjust the shooting angle by adjusting the shooting knob according to the displayed impact point position.

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