CZ2013703A3 - Rifle collimating telescope with motor driven zooming mechanism controlled by hand and/or through the mediation of wireless remote control - Google Patents

Abstract

A rifle aiming telescope consisting of a lens (4) attached to the front of the body (2) provided with rectification knobs (10), an illuminator (11) and a battery housing (12), where a zoom mechanism is arranged inside the body (2). The zoom mechanism consists of a central tube (15) with an axial groove (15.1), on which the outer tube ("variator") (30) is inserted, secured against axial movement by the threaded sleeve (27), which is provided with angled helices in the front. 30.1, 30.2) with a non-linear pitch arranged to guide the guide pins (24) which are connected to the sliding sleeves (25, 26) of the lens, the outer tube (30) being further provided with a friction clutch consisting of a gear ( 20) lined on both sides with lamellae (21) and lock washers (22), on which a pressure nut (19) abuts from the front side, while on the other side the lock washers (22) are in lateral contact with the resilient member (23) in the shape An "o" ring, the elastic deformation of which is proportional to the thrust axial force required to transmit the torque, the gear (20) being engaged with the pinion mounted on the shaft an engine (40) with an integrated gearbox that is mounted in a holder (42) that is bolted to the central tube (15) by screws (43) which is pivotably supported by the spherical surface (15.2) in the aiming telescope body (2) where it is secured against axial displacement by the corrugated washer (17) and the thrust ring flange (16).

Description

Field of the invention

The invention relates to a rifle scope with a motor-driven zoom mechanism operated manually and / or by means of a wireless remote control operating on a wireless principle.

State of the art

All previously known designs of riflescopes have only manual control of the zoom mechanism by means of a control ring. Lenses equipped with a motorized zoom mechanism, so-called zoom, are known mainly from cameras. However, these systems 20 do not meet the requirements of impact mechanical and temperature resistance, which is a necessary requirement for devices intended for use on firearms. Therefore, their design solution cannot simply be applied in the optical system of a robust lens reversing and zooming mechanism of riflescopes.

An optical sight is the classic means of aiming the target. Its activity is to increase the angle at which the target is observed, and thus seemingly increases the target. The magnification of the optical sight usually ranges from 4 to 12. The higher the magnification, the better the target. The disadvantage of this optical sight is that it is manipulated manually, making it far more difficult to keep the weapon in hand.

Another type of sight is the so-called "red dot" sight. Its principle is that the target is marked with a visible light or laser beam. The shooter thus knows exactly where his weapon is pointing. The disadvantage of this sight is the possibility of revealing the shooter's hiding place due to the emitted light or laser beam.

FR 2720492 A1 describes a "laser device for adjusting the aiming elements of a weapon", which is intended in particular for rifles. It consists of a body mounted on a guide rod which is coaxial with the axis of the barrel and carries the source of the laser beam. The angular adjustment of the laser beam transmitted by the source is such that it is transmitted to the collinear and the axis mainly by means of adjusting means.

U.S. Pat. No. 5,448,834 describes a "telescopic collimating sighting device" which comprises a laser sight with a longitudinal central axis provided with a lock nut for locating the device in the main weapon.

The disadvantage of the hitherto known sights is their insufficient accuracy, their complexity, weight and large dimensions. Known sights are also not operational due to manual adjustment to the barrel axis. Laser sights that are inserted into the barrel cannot be regulated, which is their other disadvantage.

The essence of the invention

All these shortcomings are largely eliminated by the riflescope according to the invention, designed especially for small arms, which consists of a lens attached to the front of the body provided with rectifying dials, an illuminator and a battery case, where a zoom mechanism and an optical reversing system containing sliding lenses with lenses. At the bottom, a motor is attached to the body of the riflescope. The rear part of the body is equipped with a control sleeve with a latching mechanism, and an eyepiece is also connected to it. The essence of the invention lies in the fact that the zoom mechanism is formed by a central tube with an axial groove, on which a variator is pushed, secured against axial movement by a threaded sleeve. The variator is equipped in the front part with milled oblique helices with a non-linear pitch, which serve to guide the guide pins, which are connected to the sliding sleeves with lenses. When the variator is rotated about the axial axis, the two lens sleeves move independently of each other, corresponding to the pitch of the oblique helices. The variator is also equipped with a friction clutch, which consists of a gear wheel lined on both sides with blades and lock washers, a resilient member in the shape of an "o" ring and a pressure nut. The axial pressure force required to transmit the torque is created here by the elastic deformation of the elastic member. The gear engages a pinion mounted on a motor shaft with an integrated gearbox. The motor is mounted in a bracket, which is screwed to the central tube with screws. The zoom mechanism is pivotably mounted in the body of the aiming telescope due to its spherical surface. The axial pressing force for securing it is formed here by a resilient corrugated washer which is pressed by a circular flange.

In a preferred embodiment, the body of the riflescope is provided with a removable lid on which are located control buttons for manual control of the motor drive of the zoom mechanism. According to another preferred embodiment, the riflescope has a control sleeve for manually increasing or decreasing the focal length of the zoom mechanism, which is provided with a latch button, for engaging the axial grooves of the variator, a spring-loaded spring. Preferably, the riflescope is also provided with a remote control of the motor drive of the zoom mechanism, the body of which, which is mounted on the forearm of the rifle, is provided with buttons and an electronics board.

The riflescope according to the invention makes it possible to change the magnification of the aiming telescope by motor, and the shooter can change the required magnification continuously without interrupting the tracking of the target through the optics of the device or removing his finger from the trigger. When searching for a target or reconnaissance of the terrain, the shooter can use a small magnification, and only when locating the target, he can increase the magnification, which can be used to advantage when tracking the target and shooting at a greater distance. The mechanism shows a very quiet and smooth operation and is resistant to mechanical shocks caused by the shot and sudden temperature changes. The motor drive of the zoom mechanism is integrated directly into the body of the aiming telescope, which is pivotable in any direction, and can also be controlled remotely and wirelessly. The aiming binoculars equipped with this motor-driven zoom mechanism thus act as a single compact unit without removable parts.

Overview of figures in the drawings

The invention is described and elucidated in more detail on the basis of the accompanying drawings, in which FIG. Fig. 4 shows an axial section of the transformer

Ί Γ: ·: J * ”: · aiming telescope mechanism, fig.5 partial section of the aiming telescope with motor-driven zoom mechanism, fig.6 side view of the zoom mechanism (variator with the motor slid onto the central tube), fig. to said zoom mechanism.

Examples of embodiments of the invention

Fig. 1 shows an exemplary embodiment of a weapon set consisting of a rifle 1, on which a sighting telescope is mounted. A remote control 3 of the motor drive of the zoom mechanism is placed on the forearm of the rifle 1, which, as can be seen from Fig. 2, consists of a body 3.1, in the upper part of which a rubber fingerboard 3.2 provided with buttons 3.10, 3.11 is glued, its lower part forming a cover. 3.3 with seal. Attached to the cover 3.3 is a yoke 3.8 provided with two straps 3.5 with velcro for attachment to the forearm of the rifle 1. Inside the body 3.1 of the remote control 3, an electronics board 3.7, powered by a button battery 3.6, is fastened by means of screws 3.4. The whole cover 3.3 is glued with soft lining 3.9. The unit is watertight sealed with a rubber seal.

Fig. 3 shows a general view of a riflescope, comprising an objective 4, a body 2 provided in the front part with rectifying dials W and an illuminator 11, and a control ring 6 with a button 7 and an eyepiece 5 arranged behind the body 2. On the lid 18 of the body 2 there are control buttons 8, 9 which, when one of them is pressed, activate the motor drive of the zoom mechanism located inside the body 2 to move in one or the other direction. By means of the control ring 6 with the button 7, the zoom mechanism is operated only manually after pressing the button 7. The rectification wheel 10 serves to adjust the elevation and measurement during firing, and the illuminator is arranged to illuminate the crosshairs 28. The body 2 is also provided with a battery case 12 in the rear part.

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Fig. 4 shows an axial section of the zoom mechanism of the riflescope provided on the lid 18 with the control buttons 8 and 9. The zoom mechanism itself consists, as can be seen in more detail in Fig. 5, of a central tube 15 with an axial groove 15.1 on which a variator 30 is pushed in, above the rear part of which at the location of its axial grooves 30.5 there is a control ring 6 with a button 7 provided with a spring 14 and a latch 13. In the rear part the central tube 15 is provided with a spherical surface 15.2. As can be further seen from Figures 5 and 6, oblique helices 30.1, 30.2 with a non-linear pitch are milled in the front part of the variator 30, and in the rear part the variator 30 is provided with axial grooves 30.5 formed around its circumference. The inclined helices 30.1, 30.2 of the variator 30 and the axial groove 15.1 of the tube 15 serve as guides for the guide pins 24 with compensating sleeves 29, which are connected to the sliding sleeves 25, 26 with glued lenses. The axial grooves 30.5 of the variator 30 serve to engage the latch 13 of the control ring 6. The variator 30 is secured against axial movement by a threaded sleeve 27. When rotating the variator 30 about the axial axis of the central tube 15, the two sliding sleeves 25, 26 move independently movement of the guide pins 24 in the inclined helices 30.1, 30.2 and in the straight axial groove 15.1 formed in the central tube 15, and thus to a smooth change of the focus of the objective, i. to change the magnification of the image. The variator 30 is further provided in the middle part with a friction clutch, which consists of a gear wheel 20 and blades 21, lock washers 22 and a pressure ring nut 19. The axial pressure force necessary to generate the required torque is derived here by elastic deformation 23. "O" of the ring on which the lock washer 22 rests. The gear wheel 20 engages with a pinion 41 arranged at the output of an engine 40 provided with an integrated gearbox. The motor 40 is mounted in a holder 42 which is screwed to the central tube 15 by a screw 43. The protrusions formed in the holder 42 engage in radial grooves 30.3, 30.4 in the variator 30. The complete zoom mechanism is pivotally mounted in the riflescope body 2 , where it is held by means of a resilient corrugated washer 17, which is pressed by a circular flange 16.

The function of the whole mechanism is that when one of the control buttons 8, 9 on the lid 18 of the riflescope is pressed, the motor 40 is activated, which rotates the welder 30 by means of a pinion 41 which engages with the gear wheel 20 of the friction gearbox. variator 30 about the axial axis, by the action of the guide pins 24 described above, the sleeves 25, 26 with the glued lenses are moved, and thus the overall magnification of the riflescope is changed. In this function, the control ring 6 is out of engagement with the variator 30 because its latch 13 is pushed out of engagement with the axial grooves 30.5 of the variator 30. To manually operate the zoom mechanism, the control ring 6 button 7 must be pressed to retract the latch. 13 into the axial groove 30.5 of the variator 30, and rotate the actuating ring 6. As the actuating ring 6 rotates, the variator 30 also rotates, thus changing the relative position of the sliding sleeves 25 and 26 with the lenses, and thus the corresponding magnification. In order for the variator 30 to rotate in this function, the blades 21 must slip on the gear wheel 20. The torque is thus not transmitted to the motor 40. The magnitude of the transmitted torque is adjustable here by means of a pressure ring nut 19.

The function of the remote control 3 is then based on the principle of wireless data transmission (commands), where the universal RF module used for wireless transmission of remote control commands 3 located on the electronics board 3/7 is operated in the transmission mode. The same module is located on the electronics board 32 in the body 2 of the riflescope, where it is operated in the receiving mode or as a receiver. The signal transmitter transmitting the coded signals is located on the forearm of the rifle 1. When the control buttons 3.10, 3JT of the fingerboard 3.2 of the transmitter are pressed, the receiver registers, decodes and executes the appropriate command

for the action of the central processing unit, which directly controls the motor 40. The expected transmission band is from 400 MHz to 2.4 GHz. The range is limited to approx. 1 m. The coding of the signals ensures the mutual independence of the devices. The considered independent power supply is 3 to 3.6 V; CR 2032 (transmitter) and CR 123 or AA cell type for receiver and central processing units.

Industrial applicability

The riflescope with a motorized zoom mechanism and remote control according to the invention can be manufactured industrially using conventional technologies. No toxic or environmentally harmful substances are used in its production.

Claims (5)

PATENT CLAIMS A rifle scope with a motor-driven zoom mechanism operated manually and / or by a wireless remote control, consisting of a lens attached to the front of the body provided with rectifying dials, an illuminator and a battery case, wherein a zoom mechanism and an optical reversing system are arranged inside the body. a lens sleeve, the motor being attached to the body and the rear part of the body being provided with a control sleeve with a latching mechanism and an eyepiece attached thereto, characterized in that the zoom mechanism is formed by a central tube (15) with an axial groove (15.1), on which a variator (30) is pushed, secured against axial movement by a threaded sleeve (27), which is provided in the front part with inclined helices (30.1, 30.2) with nonlinear pitch, arranged for guiding guide pins (24) which are connected to sliding lens lugs (25, 26), the variator (30) being further provided with a friction clutch which consists of a gear wheel (20) lined on both sides by lamellae (21) and lock washers (22), which are in contact with the pressure nut (19) from the front, while on the other side the lock washers (22) are in lateral contact with a resilient member (23) in the shape of an "o" ring, the elastic deformation of which is proportional to the axial pressure force required to transmit the torque, the gear wheel (20) engaging a pinion mounted on a motor shaft (40) with an integrated gearbox is fixed in a holder (42), which is screwed with screws (43) to the central tube (15), which with its spherical surface (15.2) is pivotally mounted in the body (2) of the aiming telescope, where it is secured against axial movement by a corrugated washer (17). ) and a pressure ring flange (16). ·: · * ·····. .: ···: -40- X ují. ::: ·.:. ·.? AND Rifle scope according to claim 1, characterized in that the scope body (2) is provided with a removable cover (18) on which control buttons (7, 8) for manually controlling the motor drive of the zoom mechanism are arranged. Rifle scope according to claim 1, characterized in that the control sleeve (6), for manually increasing or decreasing the focal length of the zoom mechanism, is provided with a button (7) with a latch (13) for engaging the axial grooves (30.5). variator (30), a spring coil spring (14). Rifle scope according to claim 1, characterized in that it is provided with a remote control (3) of the motor drive of the zoom mechanism. Rifle scope according to claim 4, characterized in that the body (3.1) of the remote control (3) of the motor drive of the zoom mechanism, which is attached to the forearm of the rifle (1) by means of Velcro, is provided with buttons (3.10, 3.11) and electronics board (3.7).