RU2107883C1 - Combat armored vehicle - Google Patents

Abstract

FIELD: combat vehicles. SUBSTANCE: combat armored vehicle has a hull, turret, running gear and hull and turret attachment secured by means of brackets made in joints with the hull and turret with stress concentrators. Non-continuous welds of above- track lugs are furnished with packings. EFFECT: improved design. 2 cl, 3 dwg

Description

 The invention relates to armored fighting vehicles, namely tanks, self-propelled artillery, infantry fighting vehicles, armored personnel carriers, armored control vehicles, rocket launchers, armored vehicles of the engineering forces, comprising a hull, turret, chassis and attached equipment of the hull and turret, fixed through the brackets.

 The hinged equipment of the armored objects includes fenders with shelves of spare parts and external fuel tanks, as well as headlights, searchlights, radar and radio communications antennas, anti-aircraft machine-gun mounts and other assembly units mounted on brackets.

 It has been experimentally established that for various types of impact on an object, for example, due to a shock wave of a nuclear explosion or ammunition of a volume explosion, attachments are deformed and destroyed [1].

 The known design of assembly units of armored objects with stress concentrators, which are triggered when bullets or shell fragments hit them. Voltage concentrators, for example, contain the upper heads of periscope observation devices of armored vehicles, in which the rear wall collapses when bullets or shell fragments hit the head, thereby preventing lens damage that may occur during rebounding ("Tank night vision devices. M: Military Publishing House, 1973, p. 15, 21, 28, 62, and also [2]).

 As a prototype, an attachment of an armored object of a known design was taken, containing fenders, welded along the entire length to the vehicle body and reinforced with brackets. Through brackets of different types, namely pipes, rods and plates of various sections, lights, searchlights, machine guns, antennas and other attachments are attached to the body and tower [3].

 When an armored object of a known design is struck by a shock wave, considerable time is required to restore the external equipment and the combat effectiveness of the machine. The operation of a collective protection system that protects the object’s armored space from the shock wave in the event of significant deformation of the outdoor equipment is not a sufficient condition for maintaining the combat properties of target observation and reconnaissance systems, radio communications, as well as the object’s mobility and evacuation.

 So, for example, the fenders are bent together with the external fuel tanks, spare parts and jammed rotating turret of the armored vehicle and the chassis. On tanks T-62, T-72, the left fenders are deformed together with the exhaust pipe of the engine, which does not allow the launch of the latter.

 After severe deformation, the outdoor equipment, as a rule, is not suitable for further use and requires dismantling and replacement with a large amount of special work: welding and mechanical. As shown by the results of experimental studies, work on the replacement and restoration of attachments on average occupy 60 - 70% of the total recovery time of armored objects after being struck by a shock wave (standards for tank support of troops. M: Military Publishing, 1975).

 The objective of the invention is to reduce the time and complexity of the recovery of armored combat vehicles when they are struck by a shock wave.

 To solve this problem, the fenders and brackets of attachments, headlights, searchlights, anti-aircraft machine-gun mounts, radar antennas and radio communications are connected to the hull and tower through voltage concentrators. The fenders are attached to the body with a non-continuous weld, and the places of a non-continuous weld have seals. Attachment brackets have recesses, grooves or holes near their attachments to the hull or tower.

 In FIG. 1 and 2 depict the left fenders of the armored object; in FIG. 3 - examples of designs of brackets for illuminators and spare parts boxes mounted on the tower.

 The armored object contains a housing 1, a tower 2, a running gear 3, has a fenders 4, connected to the housing by a non-continuous welding. The brackets of the shelves 5, to which the boxes with spare parts are attached, are also connected to the body by a non-continuous welding. Places of incomplete welding of shelves have seals that prevent the penetration of dust from the chassis into the upper part of the object. The exhaust pipe 7, welded to the housing, has a groove 8 that acts as a stress concentrator. The brackets 10, fastening the box with spare parts 9 to the tower, have drilling. The mounting bracket to the tower of the infrared spotlight 11 has a groove 12, and the rod of the spotlight 13 - drilling 14.

 All the stress concentrators of the brackets are made at a certain distance from their bases and are calculated on the pressure of the shock wave, approximately equal to 0.6 - 0.8 of the installed resistance of the object to the shock wave.

 When a shock wave is exposed to an object, stress concentrators are triggered, as a result of which the fenders and attachments break down from the armored object, which prevents jamming of the chassis, turrets and deformation of other parts, such as the exhaust pipe.

 Voltage concentrators are also triggered when large fragments of shells, fast-flying objects, torn from the ground or other objects fall into the attachment.

 When restoring an object, new or repaired assembly units are attached without carrying out a large amount of preparatory special work at the installation site of the torn assembly units of the attachment. The brackets of the attachment, which is laid in the repair kits of spare parts, have a length of up to voltage concentrators, which reduces the cost and weight of the sets.

 The results of pilot repairs of armored combat vehicles struck by a shock wave, and calculations show that the proposed design reduces the time and laboriousness of recovery after being struck by their shock wave by 50 - 70%. In addition, with the breakdown of outdoor equipment, the time of preparatory work, for example, the evacuation of objects, their decontamination and others, is significantly reduced.

Claims (2)

 1. Armored combat vehicle, comprising a hull, turret, armament, chassis and attachments of a hull and turret fixed by brackets, characterized in that the brackets of the attachment, for example, track racks, mounts for headlights, searchlights, antennas and boxes of spare parts, are made in the places of connection with the body and the turret of the armored object with stress concentrators, for example, the shelves are connected to the body by a non-continuous welding, and the brackets have undercut or holes.  2. Armored fighting vehicle according to claim 1, characterized in that the places of incomplete welding of the fenders are equipped with seals.

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