RU2021576C1 - Target indicator for shooting guns - Google Patents

Abstract

FIELD: gun facilities. SUBSTANCE: target indicator has gadget for cushioning impact load made in form of cylindrical case 8. There are radiation sources 9 and optical system inside the case. Case 8 is connected with plate-flange 11 and fastened to central hole of the plate-flange. Plate 11 rests against edges of adjusting screws 7 from one its side. The other side of the plate is in contact with spring 12, which takes load at shooting and absorbs it. EFFECT: reduced impact loads; improved reliability and depth of adjustment of direction of beam. 3 cl, 1 dwg

Description

 The invention relates to weapons technology, namely to small arms, and is intended for aiming when shooting by projecting a luminous spot onto a target.

 Known designator for small arms, in particular a pistol, based on a semiconductor injection laser. In this embodiment, the laser is installed together with a collimating lens in an additional housing, which, in turn, is mounted in the tube, which is part of the weapon used. In this case, shock loads acting on the radiation source are softened by the shutter during its free rollback. The power source and control system are mounted in the handle of the gun [1].

 Coherence of radiation provides the necessary range of the target designator, commensurate with the range of aimed fire.

 Laser diode - a point source of radiation has a diverging beam, which can be collimated with a single lens and does not require a complex optical system. The laser diode is placed in the focus of the lens.

 Spaced in different areas of the weapon elements of the designator, electrically and optically connected to each other, are among the mutually moving parts of the gun, which complicates the design of the weapon, complicates its maintenance.

 The closest analogue is the target indicator for small arms, containing an elongated case with an end hole and radiation and power sources located in the case, an optical system located between the end hole and the radiation source, adjusting screws [2].

 This device uses an incoherent light source located inside the reflector. The reflector on the outer perimeter has mechanical contact with the inner surface of the middle part of the housing. In the end part, designed to output radiation, a lens unit is installed. A spring is placed between the lens block and the radiation source to mitigate shock loads acting on the optical system. On the reverse side, the radiation source has direct contact with the power source. In the second end part, from the side opposite to the radiation output, a spring is installed, which provides an electric contact between the power source and the housing, and the output is made to turn on the power source. The mechanical contact of the outer surface of the reflector with the inner surface of the middle part of the body of the target designator does not allow to create sufficient softness of the shock, and the use of an incoherent radiation source leads to a decrease in the aiming range.

 The known design is characterized by large errors when pointing radiation at the target during repeated shots, which leads to the need to further adjust the system during operation. This complicates the operation, reduces the accuracy of pointing at large distances to the object.

 An object of the invention is to reduce shock loads on the radiation source while increasing the reliability and depth of adjustment of the beam direction.

 For this purpose, a designator is proposed, which is equipped with a shock absorption device for impact loads acting on the radiation source, made in the form of a plate with a spherical end face and a central hole mounted in the housing with the ability to move and contacting the spherical end face with the walls of the housing, while the radiation source and the optical system are located in an additional housing fixed in the hole of the plate, and a spring is placed between the plate and the stop formed inside the housing, and the adjusting screws of the set updated at the end of the housing with the ability to interact with the plate.

 The proposed designator allows you to increase the reliability of the product, reduce shock loads during firing by a complete selection of play in the direction of greatest loads while maintaining the accuracy of the radiation direction. In the proposed design, it is possible to significantly increase the depth of beam directivity adjustment. At the same time, the compactness of the arrangement of parts inside the housing is increased, the design is simplified, the dimensions are reduced, the assembly of the product is simplified.

 To maintain the accuracy of the radiation direction at much greater distances to the target, a laser source was used as a radiation source.

 Additionally, the housing, radiation and power sources are interconnected by an electric board mounted on the stop side.

 The drawing shows the design of the designator, a longitudinal section.

PRI me R. Housing 1 consists of three parts: middle 2, oblong, with threads at the ends and two end caps 3, 4 with reverse thread. One of the end caps 3 has an end hole 5 with a glass 6 for outputting radiation. At its end around the end opening formed three screw holes arranged relative to each other at an angle of ^about 120, are placed in the adjusting screws 7. The middle portion of the housing near the cover with the end opening is placed further cylindrical housing 8 with a semiconductor laser source 9 and the optical system 10 creating a collimated beam. The additional body is fixed in the hole of the plate - flange 11, installed in a plane passing almost through the geometric center of the additional body 8. The lateral surface of the plate - flange 11 is made spherical and has sliding contact with the inner surface of the body. The ends of the adjusting screws operate on the surface of the plate - flange 11. When the pressure of any screw on the plate - flange 11 changes, its position in the target housing 1 changes and, therefore, the position of the additional housing 8 changes. Thus, the output beam is regulated. As experiments show, a similar design compared with the adjustment design of only the optical system, as in the closest analogue, allows you to increase the adjustment depth by 8-10 times, i.e. almost an order of magnitude. On the reverse side, the plate-flange 11 is in mechanical contact with the end of the spring 12 located along the axis of the middle part 2 of the housing 1. The opposite end of the spring is in contact with the circuit board 13, which rests on the protrusion-stop 14 in the housing 1 in its middle part 2 to make electrical contact with him. The circuit board is used to control the radiation source, which does not have a hard contact with the latter, which prevents from disturbances in the electrical circuit during shock loads. On the other hand, the board 13 is connected to the power source 15 by means of a spring 16 placed between the power source 15 and the cover 4. Through the cover 4, a terminal 17 is made for switching on the target indicator.

 The device operates as follows.

 When turned on, power is supplied from the power source 15 to the radiation source 9 and a coherent collimated beam is projected onto the target, in particular a light spot that coincides with the aiming point of the weapon. When fired, a plate 11 and an attached cylindrical body 8 are impacted by a shock load in the form of a reflected inertial pulse. The force of the spring 12, acting on the ends of the adjusting screws 7, is added up with the force due to the shock load, which provides almost complete shock absorption of the shock loads acting on the laser source 9, and the reliability of adjustment.

 After that, the device is ready to fire the next shot while maintaining a high initial accuracy of guidance, commensurate with the range of aimed firing, which makes it possible to conclude that the impact of loads in the direction of flight of the bullet is significantly reduced. In addition, as shown earlier, the depth of adjustment of the beam direction was practically increased by an order of magnitude.

 The dimensions of the designator are reduced (its length is reduced five times). The proposed design allows to simplify the assembly of the device.

Claims (3)

 1. TARGET FOR A SHOOT WEAPON, comprising an elongated housing with an end hole and radiation and power sources located in the housing, an optical system located between the end hole and the radiation source, adjusting screws, characterized in that it is equipped with a shock absorption device for impact loads acting on the radiation source made in the form of a plate with a spherical end face and a central hole mounted in the housing with the ability to move and in contact with the spherical end face with the walls orpusa, wherein the radiation source and the optical system are arranged in the additional housing, a fixed aperture plate and between the plate and formed inside the case emphasis is placed a spring, wherein the adjusting screws installed in the end of the housing for engagement with the plate.  2. The designator according to claim 1, characterized in that a laser source is used as a radiation source.  3. The designator according to claims 1 and 2, characterized in that the housing, radiation and power sources are interconnected by means of an electrical board mounted on the stop side.