CZ32960U1 - Ballistic data entry system for laser rangefinders or sights - Google Patents

Description

Technical field

The utility model relates to an input system of input ballistic data needed to set up a laser rangefinder or sight, which is used to accurately aim firearms or weapon systems.

BACKGROUND OF THE INVENTION

At present, there are several input systems for laser rangefinder or rangefinder input.

For example, an entry system of ballistic data input requiring data source connection to the device via Wi-Fi or bluetooth networks, etc. However, there is a great danger of unmasking the device through such electronic communication, which may cause hostile destruction of the devices and their users.

There is an input ballistic data entry system through a data card to which the input ballistic data must be loaded on a computer and then inserted into a laser rangefinder or rangefinder. It is slow, user-friendly and unsuitable for outdoor use in the wild.

Another option is to enter the input ballistic data manually on the built-in display of the device. However, this system is a source of frequent errors due to ignorance or misunderstanding. It is also very common for the user to inadvertently change the settings of the entire device by touching it.

The essence of the technical solution

The essence of the utility model is an input system for transmitting ballistic input data to a laser rangefinder or sight using bar and / or QR codes as in FIG. 2. The source of the code may be the printed code or the code displayed on the display of any device. The input of the ballistic data is read in the laser rangefinder or sight by means of a barcode and / or QR code scanner. Based on these input ballistic data, the laser rangefinder or rangefinder processes the input ballistic data and makes adjustments or displays the result of the calculations on the instrument display.

This ballistic input data entry system eliminates the possibility of hostile device discovery via Bluetooth or Wi-Fi networks and eliminates sources of operator error when setting up the device. The laser rangefinder or rangefinder can be operated by a less qualified person as a result of this data entry system.

Clarification of drawings

GIANT. 1 QR code example containing input ballistic data in structure

GIANT. 2 Flow chart of the ballistic data entry system

- 1 GB 32960 U1

Example of technical solution implementation

Shooting from a hunting or sporting rifle requires accurate knowledge of the ballistic input data of the ammunition used, the weapon used, as well as the distance and atmospheric conditions of the shooting. For very accurate hitting of targets over long distances, knowledge of the coordinates of the location and direction of fire is required.

The input ballistic data 1 is converted by the generator 2 into a barcode and / or QR code structure. These include, for example, the velocity and ballistic coefficient of the missile used, the height of the sight mount, the height correction of the sight, and the desired form of output needed to adjust the height and side correction of the laser rangefinder or rifle sight or weapon system.

Advantageously, the generated 2 bar and / or QR code can be printed on each ammunition package and the shooter reads the laser rangefinder input easily and quickly. Also, any shooter, if he reloads the ammunition himself, can generate all the ballistic input data in the form of a barcode and / or QR code. It is a very quick solution for those who use different weapons and ammunition, but only one laser rangefinder or sight.

As an example of the input ballistic data 1 transferred by the generator 2 to the QR code structure, FIG. 1. Input ballistic data 1 is for simplicity without atmospheric parameters and location and direction of fire.

Example of input ballistic data 1 rifle projectiles:

338LM Caliber Missiles

Type of projectile

830 Initial velocity of the projectile in m / s

G7 Ballistic coefficient

0.390 Ballistic coefficient value in lb / in2

19.44 Missile weight in g

100 Firing distance in m

Scope correction 1 click = 10 mm / 100 m

Height of the rifle scope from the axis of the rifle barrel in cm cz Language variant and metric unit system

Industrial applicability

This technical solution is suitable for ensuring fast and accurate input of ballistic data into laser rangefinders or gunsight or gun systems, while reducing the possibility of enemy detection and destruction of the device and its operation.

Claims (2)

An input system for inputting ballistic data into a laser rangefinder or sight, comprising a bar code and / or QR code generator (2) for converting the input ballistic data (1) into a bar code and / or QR code and a bar code sensor (3) and / or QR codes of the laser rangefinder or sight, connectable to the generator (2) by means of a bar and / or QR code. A laser rangefinder input or sighting system according to claim 1, characterized in that the bar code reader (3) is part of the laser rangefinder or sighting device permanently or temporarily.