RU40786U1 - REMOTE EXPLOSION DEVICE - Google Patents

Abstract

A device for remote detonation of artillery ammunition equipped with a controlled fuse, comprising a data input complex connected to a range finder and through a shot sensor with a weapon, which includes a control signal generation unit and a transmitter, characterized in that in addition to the inputs of the control signal generation unit, manual range setting units are connected and range scan, while the manual range setting unit is connected parallel to the rangefinder via a switch that PTO switch is connected to the block scanning range associated with the shot sensor.

Description

The utility model relates to control systems for detonating artillery ammunition equipped with a remote fuse to initiate an explosion at a certain point with coordinates specified by exposure to light radiation or radio waves.

The development trend of artillery weapons and close combat weapons, in particular, grenade launchers, as shown by analysis of international arms exhibitions, is their equipping with small-caliber ammunition with controlled air blasting.

A number of options are known for constructing devices for controlled initiation of an explosion with various systems for inputting data about a given distance of flight time into the munition. Information can be entered, for example, in analog form as the voltage level that enters the ammunition before launch due to galvanic contact of the ammunition with the data input device (see US Pat. No. 5,415,100).

Digital distribution of controlled blasting, which provides higher accuracy, has become more widespread. For example, the Swiss firm Oerlikon developed a complex of controlled detonation with a digital method of entering information into a projectile when it passes through a system of induction coils placed on the barrel of a weapon (US patent 4022102).

Data transmission systems for remotely initiating an in-flight projectile explosion using a radio or optical communication channel are described in US Pat. Nos. 4,083,308, 3,760,732 and 3,777,665, nat. class 102-70.2).

Common to these technical solutions is to obtain information about the range to the target from a radar or laser rangefinder with its automatic entry into the input device

data, which converts the range value to the corresponding code and transfers it to the ammunition.

The closest analogue to the proposed technical solution is a remote blasting device according to US patent 3777665, F 42 C 11/00, 1973, which contains a series-connected laser rangefinder, a range to code converter and a transmitter.

This embodiment of the remote blasting device is designed to hit a single target when its coordinates are accurately measured.

However, when solving the tasks of combating enemy infantry, especially when they are in shelters and trenches on level ground, it is technically impossible to correctly determine the required range of munition destruction by a laser rangefinder.

When the enemy’s manpower is dispersed not only along the front, but also in depth, that is, in range, the concept of range to the target loses its unambiguity, which makes the known remote detonation device ineffective.

The objective to which the present utility model is directed is to increase the effectiveness of remote detonation of artillery ammunition.

The required technical result is achieved by the fact that in the known device for the remote detonation of artillery ammunition equipped with a controlled fuse, comprising, connected to the rangefinder and through the shot sensor with a weapon, a data input complex that includes a control signal generating unit and a transmitter, according to the invention, in addition to the inputs control signal generation unit, manual range setting and range scanning blocks are connected, while the manual range setting unit is connected Dinen parallel to the rangefinder via a switch that is connected to the unit via a switch

scanning by the range associated with the shot sensor.

Distinctive features ensured the versatility (with automatic and manual range entry, determined visually) of the device for initiating an explosion of artillery ammunition at a given distance of flight and the effectiveness of hitting targets distributed in range when firing a burst.

The introduction to the device of the range scanning unit reports new functions of the artificial distribution of the range of the points of detonation of ammunition in the queue, which increases the combat effectiveness of firing.

Scanning can be used in cases where the range to the target is known approximately.

Range scanning during the ammunition queue creates a fragmentation zone in front of the air target on its path, which increases the likelihood of damage.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the characteristics of disunity, that is, the task of the invention is solved not by the sum of the effects, but by the effect of the sum of the essential features.

The essence of the utility model is illustrated in the drawing, which shows a functional block diagram of a device for guided detonation of artillery ammunition when firing a burst.

The device for controlled detonation of ammunition 1, equipped with a controlled fuse for remote initiation of an explosion of its filling, contains a complex 2 of data input, to which a rangefinder 3 is connected.

The data input complex 2 includes in the structure a shot sensor 4 associated with the weapon, a control panel 5 and a range scanning unit 6, connected with the control formation unit 7

signals connected to the transmitter 8.

The control signal generating unit 7 consists of a series-connected adder 9 and a range-to-code converter 10, which is connected to the transmitter 8 of the control signals to the munition fuse 1.

The shot sensor 4 is connected to the converter 10 of the control signal generation unit 7 and the range scanning unit 6.

The control panel 5 contains a series-connected block 11 manual range, the switch 12 and the switch 13, while the output of the switch 12 is connected to the adder 9 of the block 7, and the output of the switch 11 is connected to the block 6, which is connected to the second input of the adder 9.

A controlled blasting device operates as follows. The firing operator sets the switch 12 of the remote control 5 to automatically receive the range values "x" to the target from the range finder 3 or from the block 11 manual setting of the range, determined visually.

The range value is supplied to the control signal generation block 7 at the input of the adder 9, the second input of which receives the Δx additive from the scanning block 6 with the switch 13 turned on. This additive from block 6 is zero if the scanning mode is not turned on.

The range scanning unit 6 produces an additive Δx to the range x increasing with each shot, for example, according to the formula: x = (- 1) ¹ · (i-1) h, where

i is the number of shots in the queue,

h is the selected range step.

When the scanning unit 6 is operated according to this formula, the first ammunition in the queue (i = 1) will be detonated at a point with a range

"x" ("Δx" = 0), received from the range finder 3 or manually set by the operator using block 11, and the point of detonation of each subsequent shot in the queue will be removed from the point of first detonation in both directions along the flight path (under-flight) step.

Such an algorithm for the operation of the scanning unit 6 at any length of the firing line ensures the position of the center of the zone of the detonation points at a predetermined range point "x", and the length of this area on both sides along the munition path will depend on the length of the line.

In the adder 9, the range values "x" and the additions "Δx" are added and the total range values are supplied to the range-to-code converter 10, where the code sending parameters are generated from the received total range (x + Δx) values.

The code package can have a different form, depending on the specific design of the guided fuse in ammunition 1, for remote initiation of which it is intended, for example, a binary digital code of flight time corresponding to a given total range, or two pulses, the interval between which is proportional to flight time and t .P.

Upon receipt of the signal from the sensor 4 of the shot to the converter 10 after a set delay time, the code package is sent to the transmitter 8, which transmits it to the munition 1.

The implementation of the transmitter 8 may be different, depending on the method of entering data into the ammunition 1. When entering data in the supply path of the ammunition 1 weapon, the transmitter can be made in the form of an induction coil or contacting device, and when entering data on the path of their flight - in the form of a laser emitter or radio transmitting device.

The execution of the sensor 4 of the shot and the amount of delay from its signal to the input of data into the munition 1 may also be different.

So, for example, the data transfer to the sensor 4 of the shot can be based on the registration of the flash, vibration of the barrel or use an electrical pulse in the presence of an electrocapsule in the cartridge. The time delay from the moment of the shot to the transfer of data to the fuse can be from units to hundreds of milliseconds.

When entering data in the supply path of ammunition as information about the next shot, a signal from an induction coil or contact device can be used. In this case, the delay is fractions of a millisecond.

A comparative analysis of the proposed technical solution with the identified analogues of the prior art, from which the utility model does not explicitly follow for the ammunition specialist, showed that it is not known, and taking into account the possibility of industrial manufacture of a device for guided artillery munitions detonation at a distance when firing in line, you can to conclude that compliance with the criteria of petition.

Claims (1)

A device for remote detonation of artillery ammunition equipped with a controlled fuse, comprising a data input complex connected to a range finder and through a shot sensor with a weapon, which includes a control signal generation unit and a transmitter, characterized in that in addition to the inputs of the control signal generation unit, manual range setting units are connected and range scan, while the manual range setting unit is connected parallel to the rangefinder via a switch that PTO switch is connected to the block scanning range associated with the shot sensor.