RU2536086C2 - Input device of angles of tangent elevation and range indication in aiming sight field of view - Google Patents

Abstract

FIELD: instrumentation.

SUBSTANCE: device comprises actuating screws 2 and 3, a handwheel 4 with the scale of angles of tangent elevation, clamps 5, 6 of the actuating screws, a ballistic cam 8, a linear displacement sensor in the form of a potentiometer with a housing 9 with a resistive layer and a movable contact 10, a tip 11, a spring 12, a signal processing device (SPD) 13, digital displays 14 optically connected to a lens 15 and a prism system 16 of connection with the eyepiece of the aiming sight. The handwheel 4 and the ballistic cam 8 are fixed to the actuating screw 2. The actuating screw 3 is placed inside the screw 2 along its longitudinal axis, composes a screw pair with it, and in rotation of the handwheel 4 it moves a tube 17 with the aiming sight cross hairs. In rotation of the handwheel 4 the ballistic cam 8 acts on the spring-loaded end of the movable contact 10 of the potentiometer, it is moved, the change of voltage at the output of the potentiometer is converted by the SPD 13 according to the ballistics tables of the used ammunition into a code of the digital display 14. The value of the range is displayed on the digital displays 14 and the lens 15 and is fed to the eyepiece by the system 16.

EFFECT: simplification of design of the device and reduction of energy consumption.

4 cl, 1 dwg

Description

The invention relates to optical instrumentation and can be used in day, night and day-night optical sights.

The known mechanism for entering the angles of aiming and alignment of the sight according to the patent of the Russian Federation No. 2201574, IPC F41G 1/16.

The basis of the design of this mechanism is a screw pair, which is a conjugate lead screw and a pusher nut. The lead screw is placed in a frame conjugated with a sleeve fixed on the base with a flange with the possibility of rotation. A flywheel with a scale of aiming angles applied to it is rigidly fixed to the sleeve. The pusher nut acts on the sight element, which determines the position of the aiming line, namely on the grid placed in the carriage. Moving the grid provides a change in the position of the line of sight.

The disadvantage of this mechanism is that, working as a handwheel when entering the aiming angles, the shooter takes his eyes off the eyepiece to visually check the correctness of the angle input and loses the target in the sight field of view. Repeated search and guidance on the target is required, which leads to an increase in time for an aimed shot.

The closest in technical essence to the claimed one - the prototype - is a device for entering aiming angles and range indication in the field of view of the sight according to the patent of the Republic of Belarus No. 8860, IPC F41G 1/16.

The device comprises a first spindle mounted in a frame, a handwheel and a scale of aiming angles mounted on the first spindle, a position lock of the aiming angle scale, a second spindle located inside the first spindle along its longitudinal axis, forming a screw pair with the first spindle and being a pusher element of the sight, which determines the position of the line of sight; position lock of the second lead screw, a distance scale mounted on the first lead screw, a rotation angle sensor comprising a raster dial fixed on the axis of rotation on the first lead screw, on which optically transparent strips are made concentrically placed in sectors to form a binary code corresponding to the aim angles according to the ballistics of one or more types of ammunition, a signal processing device, digital indicators and an image transfer system of digital indicators in the field of view of a prism la, a radiation source, an optical element forming a parallel radiation beam, an aperture and a line of photodetectors mounted on the sight body, the radiation source with an optical element and a line of photodetectors placed on opposite sides of the raster dial, the number of photodetectors is equal to the number of bits of the binary code used, and the outputs photodetectors are connected to a signal processing device, the outputs of which are connected to the inputs of digital indicators, optically coupled to a digital image transfer system marketing indicators in sight.

The aiming angle is entered by turning the handwheel by a predetermined angle. At the same time, a raster dial with optically transparent stripes is rotated rigidly fixed to the lead screw. The radiation flux passing through the limb is registered by photodetectors, the signal processing device converts the signal from the outputs of the photodetectors into a range value code corresponding to the entered aiming angle. Then, the range value code is converted into a digital indicator code, which is displayed in the sight field of view using the image transfer system.

The prototype has common features with the claimed device: placed in the frame of the first lead screw; a handwheel with a uniform scale of aiming angles mounted on the first lead screw; a second lead screw located inside the first lead screw along its longitudinal axis, comprising a screw pair with the first lead screw and being a pusher of the sight element that determines the position of the aiming line; retainer position of the second lead screw; signal processing device; digital indicators, inputs connected to the outputs of the signal processing device and optically connected to the system for transferring the image of digital indicators in the field of view of the sight.

The disadvantage of the prototype is the presence of labor-intensive in the manufacture and assembly of an optical-electronic sensor of the angle of rotation, as well as its high power consumption, which significantly reduces the time of continuous operation from the power source.

The objective of the invention is to provide a device that provides the following technical results: simplification of the design of the device; reduction in power consumption, which increases the time of continuous operation from the power source.

The problem is solved as follows. In the device containing, as in the prototype, the first lead screw located in the frame, a handwheel with a uniform scale of aim angles mounted on the first lead screw, a second lead screw located inside the first lead screw along its longitudinal axis, comprising a screw with the first lead screw a pair and a pusher of the sight element that determines the position of the aiming line, the position lock of the second lead screw, the signal processing device and digital indicators connected with the outputs of the device Signal processing and optically related to the image transfer system of digital indicators in the field of view of the sight, in contrast to the prototype, the following was performed:

- a ballistic cam is fixed on the first lead screw,

- the first lead screw is equipped with a position lock,

- introduced a linear displacement sensor, made in the form of a potentiometer containing a housing with a resistive layer and a movable contact located in the housing,

- one end of the movable contact is spring-loaded,

- the potentiometer housing is fixed in the sight housing so that the spring-loaded end of the movable contact is mechanically connected to the ballistic cam to generate a signal corresponding to the firing range according to the entered aiming angle in accordance with the ballistics of the munition used,

- the output of the potentiometer is connected to the input of the signal processing device.

The image transfer system of a digital indicator in the field of view of the sight can be made in the form of an optically coupled lens and a prism pairing system with an eyepiece.

The scale of aiming angles can be interchangeable for various types of weapons.

The ballistic cam is in the form of a disk cam or a cam of a different shape with a profile corresponding to the profile of the munition used. Ballistic cam can be interchangeable for various types of ammunition. Elements of the sight, determining the position of the line of sight, can be a grid, a wrapping system, a lens.

The spring-loaded end of the movable contact of the potentiometer can be equipped with a tip. The tip provides a more reliable mechanical connection of the movable contact with the ballistic cam, because protects the movable contact of the potentiometer from bending and damage that are possible during operation when it is in direct contact with the ballistic cam.

An example of a specific implementation of the device shown in the drawing.

The input device for aiming angles and indication of range in the sight of the sight contains a lead screw 2 mounted in the frame 1, a lead screw 3 located inside the lead screw 2 along its longitudinal axis and comprising a screw pair, a flywheel 4, a spring clip 5 of the lead screw 3, spring lock 6 of the lead screw 2, plug 7, ballistic cam 8, linear displacement sensor, made in the form of a potentiometer, comprising a housing 9 with a resistive layer on its inner surface, and a movable contact 10 located in the housing 9, on the tip 11 and the spring 12, the signal processing device (SLD) 13, digital indicators 14, optically connected to the lens 15 and the prism system 16 for pairing with the eyepiece of the sight. The lead screw 3 is a pusher element of the sight, which determines the position of the line of sight - tube 17 with a wrapping system and a reticle.

On the handwheel 4, a uniform scale of aiming angles (not shown) is applied. The handwheel 4 with a scale of aiming angles is mounted on the lead screw 2.

Ballistic cam 8 is rigidly fixed along the axis of rotation on the lead screw 2, is made in the form of a disk cam, the profile of which corresponds to the ballistics of 5.45 caliber ammunition; 7.62 and 9 mm.

One end of the movable contact 10 is spring-loaded with a spring 12, a tip 11 is fixed on it in the form of a sleeve with a spherical end. The potentiometer housing is fixed in the sight housing so that the spring-loaded end of the movable contact 10 is in constant mechanical communication with the ballistic cam 8 through the tip 11. The output of the potentiometer is connected to the input of the signal processing device 13, the output of which is connected to the inputs of the digital indicators 14.

The signal processing device 13 is made in the form of a microprocessor device with a control program and peripheral analog devices for matching currents in the circuits of the electrical circuit

The table of ranges corresponding to the angle of rotation of the handwheel 4 for various types of ammunition according to the ballistic table is entered in the microcontroller program. The choice of a certain type of ammunition is carried out by a switch (not shown in the drawing).

The device operates as follows.

The aiming angle for the firing range is entered by turning the handwheel 4 connected to the lead screw 2 and the lead screw 3 acting on the tube 17 by a predetermined angle. After rotation, the lead screw 2 is fixed by a latch 6.

When the handwheel is rotated, the ballistic cam 8 acts through the tip 11 on the spring-loaded end of the movable contact 10 of the potentiometer. The contact 10 of the potentiometer moves, which causes a change in voltage at the output of the potentiometer, which is then registered by the signal processing device 13.

The output voltage of the potentiometer according to the ballistic table of the used ammunition is converted by the signal processing device 13 into the code of the digital indicator 14. The range value is displayed on the digital indicators 14 and through the transfer system of the digital indicators in the field of view of the sight - the lens 15 and the prism conjugation system 16 with the eyepiece - is displayed in field of view of the eyepiece of the sight (not shown in the drawing).

Such a device provides the formation of information about the entered firing range depending on the ballistics of the used ammunition and allows you to control the correctness of the introduction of the aiming angle at a given range to the target directly in the sight field of view.

The linear displacement sensor in comparison with the optical-electronic angle sensor used in the prototype in manufacturing and assembly is less laborious, because does not require optical alignment. The absence in the sensor of linear movement of the illuminator and photodetectors reduces the power consumption of the device by several times, which significantly increases the time of its continuous operation from the power source.

The inventive device, as well as the prototype, can be used to align the sight. Reconciliation is carried out by rotation of the lead screw 3, which acts on the tube 17 with a wrapping system and a reticle. In this case, the lead screw 2 remains stationary. The position of the screw 3 after alignment is fixed by a latch 5. A plug 7 with a rubber gasket protects the mechanism from contamination.

Thus, the proposed invention, in comparison with the prototype, allows to obtain the following technical results: simplifying the design of the device and reducing power consumption.

Claims (4)

1. The input device of the aiming angles and indication of the range in the sight of the sight, containing the first lead screw located in the frame, a handwheel with a uniform scale of aim angles mounted on the first lead screw, a second lead screw located inside the first lead screw along its longitudinal axis, comprising with the first lead screw, a screw pair that is a pusher of the sight element that determines the position of the aiming line, the position lock of the second lead screw, a signal processing device and digital indicators the inputs associated with the outputs of the signal processing device and optically connected with the image transfer system of digital indicators in the field of view of the sight, characterized in that it further comprises a ballistic cam mounted on the first lead screw, a position lock of the first lead screw and a linear displacement sensor in the form of a potentiometer containing a housing with a resistive layer and a movable contact located in the housing, while one end of the movable contact is spring-loaded, the potentiometer housing it is fixed in the sight housing so that the spring-loaded end of the movable contact is mechanically connected to the ballistic cam to generate a signal corresponding to the firing range according to the entered aiming angle in accordance with the ballistics of the munition used, and the output of the potentiometer is connected to the input of the signal processing device. 2. The device according to claim 1, characterized in that the image transfer system of the digital indicator in the field of view of the sight is made in the form of an optically coupled lens and a prism pairing system with an eyepiece. 3. The device according to claim 1, characterized in that the ballistic cam is interchangeable for various types of ammunition. 4. The device according to claim 1, characterized in that the spring-loaded end of the movable contact is equipped with a tip.