RU2263875C1 - High-precision and high power self-aimed air bomb with a television homing head - Google Patents

Abstract

FIELD: air ammunition.

SUBSTANCE: the invention is pertaining to air ammunition, in particular, to a high-precision and high power self-aimed air bomb with a television homing head and may be used as an aviation equipment for delivery of a payload from a carrier aircraft onto the land for destruction of extra strong barriers and obstructions in emergency situations and at natural disasters. The substance of the invention consists that the air bomb has a section of a payload of a high power and high-explosive type with the mass of a blasting explosive exceeding 6000 kg and is made with a front part in the form of a body of revolution of the oval form with a diameter of the nose cross-section equal to 0.26...0.27 caliber air bomb, that is smoothly transferring at elongation of the nose part to 1.36...1.37 caliber air bomb into the cylindrical part of the payload section and than with a diameter equal to the caliber of then air bomb and with a length of a cylindrical part equal from 4.68 up to 4.69 caliber of then air bomb. The technical result of the invention consists in boosting the guidance accuracy.

EFFECT: the invention ensures an increased guidance accuracy.

2 dwg

Description

The invention relates to aviation ammunition.

A high-precision high-power homing bomb with a television homing head (TGSN) contains a serially connected nose compartment with a television target coordinator, consisting of a television camera and a triaxial gyrostabilizer, with a front part made optically transparent in the form of a hemispherical shell smoothly interfaced with the outer spherical metal contour of the contour , head instrument compartment with an electronic unit for correlation processing of a television signal, additional compartment with b with an onboard automation window, a high-explosive payload compartment with a mass of more than 6,000 kg with a triggering mechanism, a tail adapter compartment with control system blocks, a tail compartment with a turbogenerator power supply and hot gas, gas steering gears with X-shaped mounted on the compartment the scheme of four stabilizers with drop-down feathers and four aerodynamic rudders made according to the biplane scheme.

Known roll-stabilized homing bombs with a television homing head (TGSN) with a nose section homing in series with a homing head, a payload compartment with an engaging mechanism located in its bottom, and a tail compartment with four X-shaped mounted on it stabilizers and four aerodynamic rudders (RF Patent No. 20144559, application 92001864/23 of 10.22.92).

Foreign roll homing bombs are known, consisting of series-connected compartments: the bow with the homing television, the base payload compartment with the engaging mechanism, the tail instrument compartment with four stabilizers and rudders mounted on it (V.D. Dmitriev. " Foreign Military Review ", 1985, No. 7, pp. 40-45; R. Sedykh." US Aviation Bombs "." Foreign Military Review "1986, No. 6, pp. 38-43).

Known corrected roll stabilized bomb with a laser homing head, containing serially connected vane nozzle with a receiver of reflected laser radiation, mounted by means of a rod on the head of the aircraft, including a compartment with an electronic unit of the laser coordinator and a compartment with an electronic computing device of the laser head homing, additional compartment with four expandable destabilizers installed according to the X-shaped scheme, nasal th transition compartment, payload compartment with operating mechanism, additional cylindrical compartment, tail transition compartment, tail compartment with four stabilizers installed on it according to the X-shaped scheme, from which stabilizing feathers extend after separation. Four rotary aerodynamic rudders are installed on the cylindrical tip of the corrected aircraft bomb, made according to the biplane scheme (RF Patent No. 2044255, application No. 93003032/23 of 01.19.93).

Known adjustable high-explosive high-explosive bomb with a mass of 9761 kg. The bomb has a cruciform small wing in the middle of the hull and four lattice guided tail surfaces that are retractable by turning back. This gives the bomb its planning qualities and improves controllability in the final section of the trajectory. Homing is carried out using the receiver of the GPS Global Positioning System.

This bomb is a large-scale copy of the small diameter KAB 113.5 kg. The bomb has a length of 9.15 m and a body diameter of 1.03 m. About 9000 kg of the mass of the bomb is explosive. (EI 2003, No. 14-15, p. 4, 5; Aviation Week, 03/17/2003, p. 33, 34; Janes Defense Weekly, 03/19/2003, p.7; Flight International, 18-24.03. 2003 , p. 18).

Known roll-stabilized homing bomb containing a nose section connected in series with a television target coordinator, consisting of a television camera and a triaxial gyrostabilizer, with a front part made optically transparent in the form of a hemispherical shell, smoothly interfaced with the outer spherical metal contour of the fairing, and the head a cylindrical compartment with an electronic unit for the correlation processing of a television signal, an additional compartment with destabilizers, made in the form of a truncated cone, and each of the four destabilizers installed according to the X-shaped pattern is made in the form of a drop-down plate, the nose transition compartment made in the form of a truncated cone, the payload compartment with the engaging mechanism, made in the form of a cylinder, an additional cylindrical compartment , a tail adapter compartment made in the form of a cone, a tail compartment with control system blocks, an electric power source and four steering gears and with an X-shaped scheme mounted on it three stabilizers, from which stabilizing feathers extend.

The bomb is controlled by rotary rudders made according to a biplane scheme and installed in alignment with bomb stabilizers (RF Patent No. 2156954 of 09/27/2000, Application No. 99123829/02 of 11/10/1999).

This roll-stabilized homing bomb, by most design features, coincides with the invention and is selected as a prototype.

The roll stabilized homing bomb, selected as a prototype, contains a nose compartment connected to a television target coordinator, consisting of a television camera and a triaxial gyrostabilizer, with a front part made optically transparent in the form of a hemispherical shell, smoothly paired with an outer spherical metal contour fairing, cylindrical compartment with electronic unit for correlation processing of a television signal, additional compartment with destabil congestion, made in the form of a truncated cone, and each of the four destabilizers installed according to the X-shaped scheme, is made in the form of a drop-down plate, the nose transition compartment made in the form of a truncated cone, the payload compartment with the activation mechanism, made in the form of a cylinder, is additional a cylindrical compartment, a tail transition compartment made in the form of a cone, a tail compartment with control units, an electric power source and four steering gears and with X-shaped mounted on it Scheme stabilizers four of which are nominated stabilizing feathers.

The homing prototype bomb is controlled by aerodynamic rotary rudders made according to a biplane scheme and installed in alignment with bomb stabilizers.

The prototype homing bomb has optimal aerodynamic design and structural characteristics that allow significant dynamic overloads to be realized, which provides a wide bomb drop zone and high hit accuracy, but has a drawback that reduces its effectiveness when used in particularly strong, protected storage facilities, command posts deeply lying tunnels, on mountain blockages, as a result of which mudflow can form, along vast minefields.

This is due to the fact that the payload compartment with the prototype engagement mechanism, made in the form of a cylinder, the diameter of which is equal to one caliber bombs d ₁ , lengths from 2.02 to 2.05 caliber bombs, is not able to reliably hit the above targets.

The implementation of the payload compartment of the proposed aerial bomb of significantly greater mass (more than 6000 kg) can significantly increase its damaging effect and ensure the destruction of obstacles and congestion, forming, for example, mudflows, especially strong military obstacles, runways, deep tunnels, vast minefields etc.

The expected technical result consists in the creation of a high-precision homing bombs with a television homing head (TGSN) for use on a wide class of particularly strong obstacles and military facilities.

To solve this problem, the proposed aircraft bomb has a high-power warhead with a mass of over 6000 kg. At the same time, both the structural and aerodynamic characteristics of the aerial bomb and the design parameters of the payload are optimized to obtain high efficiency in the destruction of wide-class military targets.

Figure 1 shows a General view of an aircraft bomb prototype.

Figure 2 presents a General view of the proposed high-precision homing aircraft of high power with a television homing head.

In the prototype aircraft bomb (see Fig. 1), a nose compartment (2) is mounted in series with a television target coordinator consisting of a television camera and a triaxial gyrostabilizer with a front part (1) made optically transparent in the form of a hemispherical shell with a radius equal to 0.26 caliber bombs smoothly conjugated with the outer spherical metal contour of the fairing with a radius of 0.3 caliber bombs in a plane spaced from the front end of the bomb at a distance of 0.13 caliber bombs, and the head cylindrical about sec (3) with an electronic unit for correlation processing of a television signal with a length of 0.97 caliber bombs and a diameter equal to 0.6 caliber bombs, an additional bomb compartment (4) with an on-board automation unit and four opening destabilizers (5), made in the form a truncated cone with a height of 0.55 caliber bombs and a generatrix constituting an angle of 11 ° with the longitudinal axis of the bomb, and each of the four destabilizers is made in the form of a drop-down plate installed in the open position in the alignment with bomb stabilizers with root length x ores of 0.75 caliber bombs and with an end chord length of 0.475 caliber bombs at a sweep angle of the front and rear edges of each destabilizer 60 ° and a maximum span of two open destabilizers symmetrically located relative to the axis of the bomb, equal to 1.10 caliber bombs, nose transition compartment (6) made in the form of a truncated cone, the diameter of the interface with the additional compartment is 0.8 caliber bombs, the height of which is 0.5 caliber bombs, and the angle between the generatrix and the longitudinal axis of the bomb is 11 °, turning into a cylinder Indre with a diameter and length equal to one caliber of the bomb, a payload compartment (7) with a triggering mechanism (8), made in the form of a cylinder, the diameter of which is equal to one caliber of the bomb, and the length is from 2.02 to 2.05 caliber of the bomb, additional a cylindrical compartment (9) made with a diameter and length equal to 1.0 and 0.3 caliber bombs, respectively, a tail transition compartment (10) made in the form of a cone with a docking diameter with a cylindrical additional compartment equal to one caliber bomb, with a height of 0.375 the caliber of the bomb and the angle between the generatrix CA and the longitudinal axis of the bomb 11 °, the tail compartment (11) with the control system blocks, power supply and four steering gears, made in the form of a terminal cylinder for the bomb with a diameter of 0.68 to 0.7 and a length of 1.2 to 1, 24 caliber bombs, paired with a truncated cone with a height of 0.37 to 0.38 caliber bombs and an angle between the cone generatrix and the longitudinal axis of the bomb equal to 11 °, and with four stabilizers installed on the compartment in an X-shaped pattern (12), length the root chords of each of which are from 1.98 to 2.0 caliber bombs, the length of the terminal chords from 1.84 to 1.85 caliber bombs, sweep angle of stabilizers is 52 °, and the span between the corresponding end chords of stabilizers is from 1.46 to 1.48 caliber bombs, and with stabilizing feathers extended from stabilizers (13), length which ranges from 0.41 to 0.43 caliber bombs, and the angle of the upper generatrix, the retractable stabilizing pen with the end chord of the stabilizer is 15 °, the maximum span between two corresponding retractable stabilizing feathers is from 2.2 to 2.3 caliber bombs, and also with aero dynamic rotary rudders (14), made according to a biplane scheme and installed in alignment with stabilizers with the axis of rotation of each rudder at a distance of 0.11 to 0.12 caliber bombs from the trailing edge of the stabilizer, the chord of each rudder is from 0.2 to 0, 21 caliber bombs, and the height of each wheel 0.24 caliber bombs.

The payload case (7) of the prototype bomb is part of the bomb body.

The high-precision high-power aviation bomb proposed in the invention with a television homing head (see FIG. 2) comprises a nose section (2) connected in series with a television target coordinator consisting of a television camera and a triaxial gyrostabilizer with a front part (1) made optically transparent in the form of a hemispherical shell with a radius equal to 0.26 caliber bombs d ₂ smoothly conjugated with the outer spherical metal contour of the fairing with a radius of 0.3 caliber bombs in the plane boxes from the front end of an aerial bomb at a distance of 0.13 caliber aerial bombs, and the head instrument compartment (15) with an electronic unit for correlation processing of a television signal, made in the form of a truncated cone with a height equal to 1.05 caliber aerial bombs, with a diameter of mating with the nose compartment (2 ), equal to 0.68 caliber bombs, and with the base of the cone equal to the caliber bombs, an additional compartment with an on-board automation unit (BBA) (16), made in the form of a cylinder with a diameter equal to the caliber of the bomb, and a height equal to 2.68 .. .2.70 caliber bombs, from payload of high explosive payload power weighing more than 6,000 kg (17) with a triggering mechanism (8), with the frontal part of the payload made in the form of a body of revolution of a lively shape with a nose section diameter of 0.26 to 0.27 caliber bombs that smoothly transitions when extending the bow from 1.36 to 1.37 caliber air bombs to the cylindrical part of the payload with a diameter equal to the caliber of the air bomb and the length of the cylindrical part equal to 4.68 to 4.69 caliber air bombs, tail adapter compartment (18) with blocks with control systems made in the form of a cone with a diameter of docking with a payload compartment equal to one caliber of an air bomb, and a diameter of docking with a tail compartment of 0.52 caliber of an air bomb and a height of 1.62 ... 1.64 caliber of an air bomb tail section of an aerial bomb (19) with a turbogenerator power supply and hot gas with four steering gears and a tail unit, made in the form of a cylinder end terminal for a bomb with a diameter of 0.52 caliber bombs and a length of 1.52 ... 1.54 caliber bombs and installed in the compartment -shaped four stabilizers (20), the length of the root chord of each of which is from 1.26 to 1.27 caliber air bombs, the length of the end chord from 1.1 to 1.2 caliber air bombs, the sweep angle of the stabilizers is 52 °, with extendable of stabilizers with stabilizing feathers (21), the length of which is from 0.94 to 0.95 caliber air bombs, and the angle of the upper generatrix of the retractable stabilizing feather with the end stabilizer chord is 15 °, as well as with the aerodynamic rotary rudders of the air bomb (14) biplane scheme and installed in the alignment with stabilizers with the axis of rotation of each wheel at a distance of 0.11 to 0.12 caliber bombs from the trailing edge of the stabilizer, the chord of each wheel is 0.2 to 0.21 caliber bombs, and the height of each wheel is 0.24 caliber bombs.

The proposed high-precision homing aerial bomb of high power works as follows.

After the pilot (navigator) detects the target, aims and captures the target with a television coordinator located in the bow compartment (2), the air bomb is dropped from the carrier aircraft.

At the same time, in the process of aiming and capturing the target, the pilot (navigator) on the airplane television indicator selects a point on the terrain where the homing bomb should hit with high accuracy. The choice of this point is carried out using the electronic crosshair imposed by the pilot (navigator) at this point. By releasing the joystick (crosshair control mechanism) in the correlation processing unit of information located in the head instrument compartment (15), the television image of the area is stored with the target as a reference image. This reference image each television frame (40 ms) is compared with the current television image of the area to generate an error signal, the development of which is a gyrostabilizer and ensures high accuracy of the homing bomb.

The presence of a reference target image stored on board of the proposed high-precision homing bomb of high power allows us to provide further fully autonomous, independent of the carrier aircraft, flight of the bomb to the target.

Before separating the aerial bomb from the carrier aircraft, a turbogenerator power source and hot gas are used, which is located in the tail compartment 19.

All the necessary commands on board the bomb are issued by the BBA unit, which is located in the additional compartment (16).

When separated from the carrier, the stabilizing feathers (21) open and exit from the stabilizers (20).

Homing of an air bomb on a target within 2.5 s after being dropped from a carrier aircraft does not occur. During this period, the on-board automation unit located in the additional compartment (16) forms a team, according to which immediately after the reset, only the angular stabilization of the bomb is carried out, which ensures the safety of the separation of the bomb from the carrier aircraft and eliminates the impact of the bomb on the carrier aircraft.

The television coordinator of the target, standing in the bow compartment (2), at this time continues to auto-track the specified aiming point.

In the course of further fully autonomous flight, a television coordinator with a correlation information processing unit measures the angular speed of rotation of the target line of sight, generates control signals to the aerodynamic rudders (14) of the bomb using a control system unit located in the tail transitional instrument compartment (18).

Auto tracking of the target is carried out by the target sensor, operating in the optical spectral (from 0.4 to 0.76) microns and near infrared (from 0.76 to 1.1) microns. The television target sensor is mounted on a three-stage gyrostabilizer having significant pumping angles. Significant angles of flow of the gyrostabilizer require that the front of the nasal compartment (2) be optically transparent in the form of a hemispherical shell (1). Target auto-tracking is carried out through this optically transparent shell, the dimensions of which allow providing target tracking during discharges in a wide range of initial conditions.

The high maneuverability of an aerial bomb is ensured by angles of attack (slip) of up to 40 ° created by the aerodynamic rudders (14), in the presence of almost neutral stability of the aerial bomb, which is realized by structurally aerodynamic optimization of the aerial bomb and choosing its appropriate centering.

The stability of the aerial bomb close to neutral is ensured by the rational layout of the aerial bomb and the choice of the geometrical dimensions and location of stabilizers (20) and stabilizing feathers (21).

Close to neutral stability of the air bombs allows for significant overload when steering units of low power. Small hinged moments on aerodynamic rudders are provided by a rational choice of biplane rudders (14).

When an air bomb hits an obstacle (target), it is activated by the activation mechanism (8) through the deceleration established in it and the further action of the target (17).

A high explosive type impact object (17) has a high power. The weight of explosives in the target is at least 6000 kg.

Preliminary evaluations of the proposed high-precision high-power homing aircraft bomb showed its high efficiency.

Aerial bomb provides accuracy of ≤4 m with a significant change in altitude and speed of its application and high efficiency in the destruction of particularly strong obstacles buried in the ground, caves, vast minefields.

Claims (1)

A high-precision high-power homing aircraft bomb with a television homing head, comprising a nose section connected to a television target coordinator, consisting of a television camera and a triaxial gyrostabilizer, with a front part made optically transparent in the form of a hemispherical shell with a radius equal to 0.26 caliber bombs, smoothly interfaced with the outer spherical metal contour of the fairing with a radius of 0.3 caliber bombs in a plane spaced from the front end air bombs at a distance of 0.13 caliber air bombs, and a head instrument compartment with an electronic unit for correlation processing of a television signal, an additional compartment with an on-board automation unit, a tail adapter compartment with control units, a tail compartment with a turbogenerator power supply and hot gas and four steering gears and four stabilizers installed on the compartment according to the X-shaped scheme, the sweep angle of which is 52 °, and with stabilizing arms extended from the stabilizers holes, the angle of the upper generatrix of each of which with the end chord of the stabilizer is 15 °, as well as with aerodynamic rotary rudders of the bomb, made according to the biplane scheme and installed in the alignment with stabilizers with the axis of rotation of each steering wheel at a distance of 0.11 to 0.12 caliber air bombs from the trailing edge of the stabilizer, the chord of each wheel is from 0.2 to 0.21 caliber air bombs, and the height of each wheel is 0.24 caliber air bombs, characterized in that the aerial bomb has a payload compartment installed behind an additional the bombing tsekom, made weighing more than 6000 kg with the frontal part in the form of a revolving body with a nose section diameter of 0.26 to 0.27 caliber bombs that smoothly transitions when the bow is elongated from 1.36 to 1.37 caliber bombs into the cylindrical part of the payload with a diameter equal to the caliber of the bomb and the length of the cylindrical part equal to 4.68 to 4.69 caliber of the bomb, while the additional compartment with the on-board automation unit is made in the form of a cylinder with a diameter equal to the caliber of the bomb, and a height equal to 2.68 ... 2.70 cal the scaffold of the aerial bomb, and the tail transition compartment with the control system units, which is located behind the payload compartment, is made in the form of a cone with a docking diameter with a payload compartment equal to one caliber bombs and a docking diameter with a tail compartment equal to 0.52 caliber bombs, and a height equal to 1.62 ... 1.64 caliber air bombs, and the tail compartment of the air bomb is made in the form of a terminal cylinder end for an air bomb with a diameter of 0.52 caliber air bombs and a length of 1.52 ... 1.54 caliber air bombs, and the length of the root the chords of each of the four stabilizers, standing x on the tail compartment, made of 1.26 ... 1.27 caliber air bombs, the length of the end chord is 1.1 ... 1.2 caliber air bombs, and the length of the stabilizing feathers extended from the stabilizers is 0.94 ... 0 95 caliber bombs.

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