RU189047U1 - PAYMENT CENTER NAVIGATION SPECIALIZED - Google Patents

Abstract

The invention relates to the field of navigation instrumentation. It can be used for operational calculations necessary to provide air navigation, in particular, when planning massive strikes using aircraft, air, land and sea-based missiles for mapping the lines of missile use and determining the flying time of aircraft (missiles and their carriers). ). The technical result is to increase the efficiency of calculations of the frontiers of using missiles and determining the flight time of aircraft (missiles and their carriers). Essence of the field This model consists in the fact that the slider is equipped with a protractor fixed pivotally on the axis of symmetry of the slider at the point of origin of the distance scale, sequential technological slots are made along the axis of the slider, the body consists of a base and with a ruler scales that are fixed between open from two ends, in which the engine is installed, on the base and hull rulers along the axis of their symmetry are made consecutive technological slots that coincide with consecutive technological and the slits of the engine, and the calculator is made of a translucent material and at least one scale was applied on the engine. 1 il.

Description

The invention relates to the field of navigation instrumentation. It can be used for operational calculations necessary for providing air navigation, in particular, when planning massive strikes using aircraft, air, ground and sea-based missiles, for mapping the lines of missile use and determining the flying time of aircraft (missiles and their carriers).

The closest to the claimed utility model (prototype) is the navigation bar, which consists of a body, engine, and a viewfinder. Scales, indices, formulas and inscriptions are applied on the hull and engine (see, for example, the Manual for the flight crew Navigation Counting Line NL-10, by VA Kormashov, Military Publishing House of the Ministry of Defense of the USSR, Moscow 1956).

The disadvantage of the prototype is the low efficiency of determining the boundaries of the use of missiles and determine the flight time of aircraft, as well as their mapping.

The technical result is to increase the efficiency of calculations of the frontiers of the use of missiles and determining the flight time of aircraft (missiles and their carriers).

This technical result is achieved by the fact that in a well-known calculator-plotter a specialized navigation consisting of a hull and a slider, with scales, indices and inscriptions on the case and the slider, according to the invention, the slider is equipped with a protractor fixed pivotally on the slider symmetry axis at the origin point distance scales, along technological lines along the axis of the engine, sequential technological slots are made, the body consists of a base and with a ruler scale applied, which are fixed to each other and form a cavity, imbedded from two ends, in which the engine is installed, on the basis and scale scale of the case along the axis of their symmetry, successive technological slots are made, which coincide with successive technological slots of the engine.

This technical result is achieved by the fact that the navigator-plotter navigation specialized is made of translucent material.

This technical result is achieved by the fact that the engine has at least one scale applied.

The essence of the utility model is that the engine is provided with a protractor fixed pivotally on the axis of symmetry of the engine at the point of origin of the distance scale, along the axis of the engine made successive technological slots, the body consists of a base and with a ruler scales that are fixed to each other and form a cavity open from two ends, in which the engine is installed, on the base and hull rulers along the axis of their symmetry are made successive technological slots that coincide with successive ones The technological slits of the engine, and the calculator is made of a translucent material and at least one scale has been applied on the engine.

Known navigation line provides the calculations necessary to provide air navigation. It is arranged according to the principle of the usual countable slide rule and allows you to replace complex mathematical operations on numbers (multiplication and division) with simpler actions — addition and subtraction of segments of scales expressing the logarithms of these numbers on a certain scale.

Air navigation is understood as a set of crew actions aimed at achieving the greatest accuracy, reliability and safety of driving an aircraft or group along a given trajectory, as well as in order to derive them in time and place to given targets (targets) and landing aerodromes (see, for example, , Guide to Air Navigation of the Armed Forces of the Russian Federation, http://inet-sight.ru/shop/, appeal date 12.03.2018). The achievement of all this is ensured by appropriate planning. For example, in order to break through the enemy's air defense system, a massive strike is required. This is achieved by the simultaneous arrival of all forces to the turn of the beginning of the impact of air defense weapons. Therefore, when planning a strike for each type of impact means, taking into account their location, they are determined and plotted on the map:

missile launch sector;

line of missile launch;

the flight time of the missiles from the launch line to the designated line (target);

the turn of the beginning of the impact of air defense facilities;

specified time to reach the target, etc.

The application of this information to the map is carried out using a compass, a protractor and a ruler, which leads to a significant increase in time for planning the use of missiles.

In the proposed technical solution, the hinge fastening on the slider of the protractor and the execution of the movable body relative to the slider, as well as the presence of technological holes on the slider, the base and the line of the case ensure that angular, linear, non-linear and temporal values are applied to the card with one device (calculator). The execution of the calculator of translucent material provides an overview of the surface of the map. So, for example, sectors are applied by turning the slider at a given angle relative to the beginning of the protractor's report, and the boundaries - by extending the casing out of the slider for a given distance in accordance with the scale, turning the calculator body around the swivel axis and holding the pencil in the technological hole that coincides with the specified distance. This achieves the technical result indicated in the utility model.

General view of the RPNS is shown in the figure where: 1 - protractor, 2 - slider, 3 - swivel, 4 - body, 5 - scale scale, 6 - technological slots, 7 - timeline scales, 8 - technological slots on the body, 9 - azimuth scale.

Protractor 1 is designed to determine the sectors of launch. The protractor has a digitized azimuth scale 9 in two rows: in the first row from 0 to 180 ° and in the second row from 180 to 360 °. The digitization of the scale increases along the hour hand. Drawing two scales due to the need to determine the azimuths and sectors from any direction relative to the target.

On the slider 2, at least one scale was marked 5. Technological slots 6 are made along the horizontal axis of the slider along its entire length, providing marking on the surface of maps (diagrams).

The protractor and the engine 2 are connected pivotally 3, which makes it possible to map the boundaries without the use of compasses. Case 4 is designed to perform calculations in conjunction with the engine and drawing them on the map. On the hull line, scales of temporary indicators of the flight of 7 different types of rockets from the design line to the beginning of reference can be applied. On the horizontal axis of the body along the entire length of the scales applied on it, technological slots 8 are made, ensuring the application of marks on the surfaces of the maps (circuits).

Work with the device is as follows. The hinge point of the engine and protractor is combined with the object indicated on the map (scheme), on which the strike is planned, and the origin of the scale of the protractor is set in the north direction.

By turning the slider at a given angle relative to the beginning of the protractor's report, they determine the sectors within which k-type missiles are struck, where k = 1 ... K, K is the number of types of missiles attracted to striking and plot them on the map. The boundaries are determined by the extension of the body from the engine at a specified distance in accordance with the scale.

For example, for the line of impact of air defense, for a given distance can be taken the value of the far boundary of the zone of destruction of the air defense weapons. After the housing is extended to a predetermined distance, a pencil is inserted into the technological hole, which coincides with the predetermined distance and rotation of the calculator body around the axis of the swivel joint. Similarly, the estimated flight time of k-th missiles is plotted on a map within the relevant sector of impact. Estimated time is determined by the scale.

Claims (1)

Calculator, plotter, navigation, specialized, consisting of a body and a slider, with scales, indices and inscriptions on the case and the slider, characterized in that the calculator is made of a translucent material, at least one scale is marked on the slider, the slider is equipped with a protractor , hinged on the axis of symmetry of the engine at the point of reference of the scale of distances, along the axis of the engine made successive technological slots, the body consists of a base and with a marked ruler scales, which The heat pipes between themselves and form a cavity, open from two ends, into which the engine is installed, on the base and the body ruler along the axis of their symmetry are made successive technological slots that coincide with the successive technological slots of the engine.

Images