RU2211426C2 - Device for technical and ballistic preparation of artillery complexes - Google Patents

Abstract

FIELD: the device is designed for combat training of complexes of artillery armament, it is used for creation of an automated system of technical and ballistic preparation of artillery complexes that make up a complex of operations of combat training. SUBSTANCE: the device is characterized by the fact that it has a personal computer with a software, an instrument for measurement of nonrectilinearity of the bore line and its diameter, and an instrument for measurement of the shell muzzle velocity, they are connected to the computer, providing a complex work in technical and ballistic preparation of the artillery complexes at an essential reduction of the material costs and time resources, enhanced quality of executed operations with simultaneously reduced requirement of the skill of the personnel, excluded subjective errors of the personnel inclusive. EFFECT: provided operations of technical and ballistic preparation of artillery complexes directly in troops. 1 dwg

Description

 The present invention relates to the field of providing combat training of weapon systems (AB).

 It is aimed at creating an automated system for technical and ballistic training of artillery complexes, which are part of a range of combat training activities.

 Currently, the technical training of artillery complexes in the troops is carried out in a limited volume (only reconciliation of sighting devices and sighting) by the crews of objects and specialists of military units in accordance with GOST B27197-86 and GOST B26452-88.

 Other operations - determination of amendments to individual projection angles of shells of various types and indices are carried out only at specialized training grounds of troops and industry according to special instructions.

 In the troops, ballistic training of artillery complexes is also carried out by crews of objects in a limited volume - only the deterioration of the barrel is carried out and the correction for the initial velocity of the projectile due to wear of the barrel is carried out in accordance with the shooting tables. In full, it is also conducted only by specialized training grounds of troops and industry according to special instructions.

 For work in the army, the simplest instruments are used (reconciliation tube (TV-115), barrel wear control device (PKI)), which are part of a group set of spare parts, tools and accessories (spare parts) for objects.

 At the training grounds of industry and troops, more sophisticated devices are used. For example, to measure the initial speed - RUSH, FEB-4, FEB-5, FEB-7, ABS, LUCH-83; for measuring deviations from straightness of the barrel - 4KRS, OP-5, "Visit". In all cases, the instruments measure individual parameters. For the complex conduct of operations of technical and ballistic preparation, a large volume of analysis and calculation operations is required. Work is carried out only by highly qualified specialists.

 For example, when conducting ballistic training, the initial velocity for a batch of shells is determined at the firing range. At the same time, a series of shots is made and the velocity of the shells is measured using the above devices. Then, based on the measured value, the initial velocity of the projectile is calculated taking into account the loss of speed when moving from the muzzle of the barrel to the measurement zone, the influence of weather conditions, the shape of the projectile and other factors. After that, statistical processing of the firing results is carried out in order to determine the average value and speed spread, exclude random errors, etc. The following is the definition of amendments for a batch of shots or for a gun. All calculations are performed manually, which requires high engineering skills and attentiveness of the performers, which, however, does not exclude errors caused by the influence of the human factor, from small inaccuracies to gross misses.

 The technical training of artillery complexes includes the operation of bringing artillery complexes to normal combat. This operation can be performed by firing or shooting methods.

 In the firing method, 8-10 shells are fired at a plywood shield mounted at a distance of 100 m from the gun. Shooting is carried out for shells of various types and indices. Further, using the ruler, the coordinates of the holes are measured and the average point of impact, accuracy and calculation of corrections for individual projection angles are calculated. This method entails significant material and time costs, because it requires a large expenditure of shells, a significant investment of time in preparing tests, conducting and processing the results, causing significant wear on the bore and, therefore, reducing its service life.

 In the non-shooting method, the deviation from the straightness of the axis of the barrel channel along the length at specified points is measured using instruments for measuring the straightness of the axis of the barrel channel (for example, “VISIT”), and then laborious manual calculations of the individual departure angles and amendments for a group of shells from the ammunition of the gun. It also requires considerable time and the involvement of highly qualified specialists.

 The currently used complex for organizing work, used instruments and equipment and time costs does not meet the requirements for the quality and timing of technical and ballistic training of artillery complexes and cannot be used in military units of the army, which reduces the level of combat readiness of equipment.

 The problem to which the invention is directed is to create a device that provides technical and ballistic training of artillery complexes with a significant reduction in the cost of material and time resources, while improving the quality of work performed while reducing staff qualification requirements, including by eliminating subjective personnel errors as well as the possibility of conducting operations of technical and ballistic training of artillery complexes directly in the troops.

 The solution to these problems is achieved by combining, as part of the proposed device, the set of devices necessary for carrying out technical and ballistic preparation operations, consisting of a device for measuring the initial velocity of FEB shells, a device for measuring the directness of the axis of the barrel axis of a PINT connected to a personal computer, controlled by a single software. The complex ensures that all technical and ballistic training operations are performed in an automated mode, processing the results, calculating corrections and preparing recommendations on the readiness of the artillery complex for further operation.

 The drawing shows a block diagram of the invention.

In this diagram:
1 - personal computer;
2 - a device for measuring the linearity and diameter of the bore (PIN);
3 - instrument for measuring the initial velocity of shells (FEB);
4 - object of service.

The proposed system works as follows:
1. During ballistic preparation using the FEB 3 firing method, the initial velocity of the projectile is measured. For this, the measuring unit of the FEB is carried out to an equipped position at a distance of about 20 m from the muzzle of the gun. When fired, the time of flight over each of the two sections of the measuring unit is recorded and the speed of flight of the projectile over the sections of the FEB device is determined. The measurement result is transmitted to the personal computer 1 of the proposed device, where the initial velocity of the projectile is calculated upon departure from the bore, taking into account various external factors (speed loss, projectile geometry, weather conditions, etc.), and then adjustments to the initial velocity of the projectile for a batch of ammunition or guns.

 2. During ballistic preparation with the non-shooting method, the Pint 2 instrument measures the wear of the barrel channel along its length. During the measurement, the units of the PINT device are connected to the computer using a cable system, and the blocks themselves are mounted on the gun: the optical unit is in the breech, and the target is movable in the muzzle of the barrel, then the target, moving by commands from the computer, moves along the pipe and makes measurements at specified points . The measurement results are transferred to the personal computer 1 of the proposed device, where according to the measurement results and the parameters of the shot taken from the form of this batch, the calculation of the initial velocity corrections for a specific gun and a specific batch of ammunition is performed.

 3. With the firing method of bringing to normal combat, the coordinates of the holes and the initial velocity of the projectile are measured by the FEB device 3. The measurement results are transmitted to the personal computer 1 of the proposed device, where they are analyzed, calculation of the results: individual departure angles and corrections for the fired types and indices of shells are prepared recommendations for certification of readiness for further operation of the facility.

 4. With the non-shooting method of bringing to normal combat, the muzzle angle of the barrel and the indirectness of the axis of the barrel channel are measured using the Pint 2. The measurement results are transmitted to the personal computer 1 of the proposed device, which analyzes them, calculates the results: individual departure angles and corrections for the entire set of types and indices ammunition shells, prepares recommendations for certification on readiness for further operation of the facility.

 The technical complex of the ballistic device is supervised by the software package of the device, the results of the work are displayed on the screen and on a paper copy, followed by entering the object into the fire control system and entering it into the tank form.

 The proposed device is implemented in the on-board information-measuring control system of the control and testing machine (KPM) 1I37 and passed a successful test during state tests of the KPM (Act on the results of acceptance tests of the control and testing machine 1I37. Nizhny Novgorod. 1999). Its use allows you to implement the technical and ballistic training operations of artillery complexes in full directly in the troops, to reduce the time spent on work by 5-10 times and reduce material costs by tens of times (due to the use of shooting-free methods), to ensure high quality of work KPM military calculation.

Claims (1)

 A device for the technical and ballistic preparation of artillery complexes, characterized in that it contains a personal computer with software and a device for measuring the directness of the axis of the barrel channel and its diameter and a device for measuring the initial velocity of shells connected to it, providing complex work on the technical and ballistic preparation of artillery complexes.