CZ305125B6 - Adjusting mechanism, particularly for rifle and collimator sights - Google Patents

Abstract

In the present invention, there is disclosed an adjusting mechanism, particularly for rifle and collimator sights, with a short focal distance of a mirror, the adjusting mechanism comprising a sliding block (1) with an aiming mark (5) and a system of power and adjusting elements. The block (1), sliding in „x“ axis, is coupled with a rider (13) carrying the aiming mark (5) through the mediation of backlash-free ball guide (14), in which an adjusting H-screw (32) produces via the block (1) frame (11) a pressure force for horizontal shift. A leaf spring (21) produces the pressure force via a pusher (16) on the other side. At the same time, the axis of a V-adjusting screw (31) for vertical shift in the „xz“ plane forms with the axial cross “y” axis an acute angle and pressed in inclined manner onto a bearing nose (15) of the rider (13) cover (12). The rider (13) with the aiming mark (5) of the sliding block (1), provided with the frame (11) and the cover (12) with the bearing nose (15) forming therewith an obtuse angle, is situated between the frame (11) and the cover (12), whereby ball guides (14) are performed on the rider (13) sides such that dovetail grooves (17) with flat cages (18) and bearing balls (181) are performed in the direction of „y“ axis. A corresponding dovetail groove (17) is then performed on the pusher (16), and opposite side of the rider (13) a pair of parallel needles (19) form rolling track of the bearing balls (181).

Description

Rectification mechanism especially for rifle and collimator sights

Field of the invention

BACKGROUND OF THE INVENTION The present invention relates to a rectification mechanism intended to precisely align the aiming mark in a precise horizontal and vertical direction, in particular for short-range rifle and collimator sights. It concerns a sight formed by a sliding block with a deliberate mark and a set of force and rectification elements.

BACKGROUND OF THE INVENTION

At present, the accuracy of the movement of the illuminating point as a deliberate mark in collimators with a short focal length of the mirror seems to be a problem. The movement accuracy is achieved in the order of 0.01 mm in a relatively large angular range. This is due to the unfavorable ratio of focal length and angular range. This places extreme demands on the backlash-free operation of the entire mechanism. In the current collimator designs with short focal lengths, practically only three solutions are used, each of which has certain disadvantages. The first is the placement of the sliding plate inside the collimator body, where the plate is supported by two screws rotated at 90 ° in one plane. Simple but often unsatisfactory in terms of accuracy and comfort of rectification. Another known solution is the use of a tilting plate located outside the collimator body, which is disadvantageous in terms of the compactness of the device. Similar disadvantages, albeit at higher accuracy, exhibit a solution utilizing the division of the rectification mechanism into two separate modules, horizontal and vertical, which operate independently of the collimator body.

SUMMARY OF THE INVENTION The object of the invention is to provide a rectification mechanism which must, however, allow active clearance clearance over the entire range of movement and must exhibit no or minimal hysteresis to the rotation of the rectification screws.

SUMMARY OF THE INVENTION

The object of the present invention is to provide a rectifying mechanism especially for rifle and collimator sights with a short focal length of a mirror, consisting of a sliding block with a sight mark and a set of force and rectification elements. the axis of the at least one rectification screw forms an acute angle with one of the axes of the axial cross.

The essence of a particular solution of the sliding block consists in that it is provided with a frame and a cover with a supporting nose forming an obtuse angle with it. Between them are located the rider with the intentional mark and the rider's pressure. Ball guides are formed on the slider on the sides so that dovetail grooves with flat cages and bearing balls are formed in the direction of the "y" axis, and the corresponding opposed dovetail groove is formed on the clamp. On the opposite side of the slider, the rolling path of the bearing balls is formed by a pair of parallel guide needles.

The essence of a particular solution of force elements is also that the force elements consist of pairs of springs. On the one hand, a leaf spring with a curved pressure mandrel supported on an inclined surface of the thrust perpendicular to the "xz" plane and forming an angle of less than 90 ° with the frame, and a cylindrical spring supported on a pin fixed to leaning against the bottom of the slider.

The essence of the design of the rectification elements in a particular case is that they consist of pairs of screws. V-screw in a plane perpendicular to the "xz" plane and making an acute angle with the "y" axis,

Which is at the end provided with a cap with a curved surface supported on the support nose of the slider cover. Furthermore, an H-screw placed parallel to the "x" axis on the opposite side of the slider opposite the thrust pin, which has an axial cavity with an inner ball in contact with a contact pin supported on the opposite end against the slope of the sliding block frame.

An advantage and a higher effect of the invention is to provide a constructionally simple rectification mechanism that eliminates dead clearances during the rectification as well as the effects of mechanical stress. It allows quadratic rectification, ie setting the aiming mark to the exact position in horizontal and vertical direction. The horizontal and vertical movements of the sight mark are independent of each other and the guaranteed range of motion can be achieved in any direction.

Clarification of drawings

BRIEF DESCRIPTION OF THE DRAWINGS The invention is described in more detail with reference to the accompanying drawings, in which: Figure 1 is a perspective view of the mechanism; Figure 2 is a schematic sectional view in the "yz" plane of the axial cross; plane "xz" axial cross. Fig. 4 shows a spatial diagram of the sliding block without a cover, and Fig. 5 shows the mechanism in an exploded state for demonstrating the components used.

DETAILED DESCRIPTION OF THE INVENTION

The rectification mechanism for sighting devices with a short focal length of the mirror is formed by a sliding block 1 with a sight mark 5 in the form of an LED and a set of power and rectification elements.

In the description of the exemplary embodiments, the usual abbreviations of the axes of the spatial axis cross are used, i.e. the "x" axis is horizontal right-left, the "y" axis is vertical, and the "z" axis is horizontal fore-aft.

The sliding block I is externally provided with a substantially L-shaped frame 11 and a cage 12 from which the support nose 15 protrudes at an obtuse angle. Inside there is a flat slider 13 with the aiming mark 5 and a thrust plate 16. the corresponding dovetail groove 17 is formed on the thrust plate 16. On the opposite side of the slider 13, the rolling path of the bearing balls 181 is formed by a pair of parallel needles 19. The frame 11 together with the slider 13 forms a linear ball guide 14. The intentional mark 5 is located on the fork 51, which is fixed by means of a fastening screw to the slider 13 with the cover 12.

The force elements consist of a pair of springs 21, 22. A leaf spring 21 with a curved pressure mandrel 27 supported on an inclined surface 161 of the presser 16, wherein the inclined surface 161 is perpendicular to the "xz" plane and forms an angle less than 90 ° with the frame 11. It is therefore able to exert a force in the "x" direction as well as in the "z" direction. Furthermore, it is a cylindrical spring 22 threaded on a fixed pin 23 fixed to the base body 4 of the mechanism. It is supported by a sliding sleeve 24, also threaded on a fixed pin 23. The sliding sleeve 24 has a protruding flat guide 25 whose end 26 bears against the bottom of the slider 13 and is capable of exerting a force in the y-direction.

The rectification elements consist of a pair of screws 31, 32. The vertical rectification V-screw 31 is located in a plane perpendicular to the plane "xz" and forms an acute angle ω with the axis "y". The V-screw 31 is provided at the end with a cap 33 with a curved surface supported on the support nose 15 of the slider 12 cover 13. The H-screw 32 for horizontal rectification is located parallel to the x-axis on the opposite side of the slider 13 opposite the thrust 16. 32 has an axial cavity 34 with an inner ball 35 that is in contact with a tapered pin 36 with a conical tip supported on the opposite end on an inclined face H1.

Thus, the horizontal rectification H-bolt 32 is coupled with force to the leaf spring 21 by the pressure darkness 27 and the inclined surface 161 of the thrust plate 16.

The intentional mark 5 is moved with the slider 13 in the horizontal direction by the H-screw 32 with the contact pin 36 by the force F. The inclined face 111 of the frame 11 abuts the tapered tip of the H-screw 32. This creates a perpendicular force F _g , Forcing the frame 11 against the surface of the body 4. A pressure spring F is exerted by the leaf spring 21, which also acts obliquely on the frame 11 and its component Fz also urges the frame 11 to the surface of the body 4. This avoids undesired movement in z direction during rectification. This situation is illustrated in Fig. 3.

In the vertical direction, the sliding block 1 is moved by a V-screw 31 which forms an angle ω with the y-axis. The curved surface of the cap 33 at the end of the V-bolt 31 presses against the support nose 15 of the housing 12. This generates a force F and its component force Fy. A thrust spring 22 exerts a thrust force whose force effect is transferred by a guide 25 to the underside of the slider 13.

The frame 1 only moves in the x-direction and is maintained in the defined y-direction by the end 26 of the flat guide 25 on the cylindrical spring 22 which fits into the groove on one side of the frame 1 and by the force exerted by the slider 13 into shoulder on the other side of box 1.

The non-backlash travel in the "xz" plane, as shown in Figure 3, is achieved so that the force F exerted by the leaf spring 21 spreads on the inclined surfaces in two directions, the component Fz constantly pressing the frame even in the "z" direction.

Industrial applicability

The rectification mechanism according to the invention can be industrially manufactured for use, in particular, in rifle and collimator sights with a short focal length of the mirror.

PATENT CLAIMS

Claims (5)

1. A rectification mechanism, in particular for rifle and collimator sights with a short focal length of a mirror, consisting of a sliding block with a sight mark and a set of force and rectifying elements, characterized in that the block (1) sliding along the x axis is connected to the slider ( 13), carrying the aiming mark (5), by means of a play-free ball guide (14), into which a rectifying H-screw (32) for horizontal displacement parallel to the "x" axis is applied through the frame (11) of the block (1) on the other side, a leaf spring (21) via a thrust (16), wherein the axis of the rectifying V-screw (31) in the "xz" plane for vertical displacement makes an acute angle with the "y" axis of the axial cross and pushes obliquely on the support nose (15) (12) rider (13). Rectification mechanism according to claim 1, characterized in that the sliding block (1) provided with a frame (11) and a cover (12) with a butt-angle support nose (15) has a slider (13) with the aim mark (5) located between them, wherein ball guides (14) are formed on the sliders (13) so that dovetail grooves (17) with flat cages (18) and bearing balls (181) are formed in the y-direction. the opposing dovetail groove (17) is formed on the thrust pin (16), and on the opposite side of the slider (13), the rolling path of the bearing balls (181) is formed by a pair of parallel needles (19). -3GB 305125 B6 Rectification mechanism according to claim 2, characterized in that the force elements consist of a pair of springs (21, 22) and a leaf spring (21) with a curved pressure mandrel (27) supported on an inclined surface (161) of the presser (16) perpendicular plane "xz" and forming an angle of less than 90 ° with the frame (11), on the other hand a cylindrical spring (22) threaded on a fixed pin (23) fixed to the mechanism body (4) and supported by a sliding bush (24) with a flat guide (25) ), the end (26) of which rests against the lower part of the slider (13). Rectification mechanism according to claim 2, characterized in that the rectification elements consist of a pair of screws (31, 32) and a V-screw (31) for vertical displacement in a plane perpendicular to the "xz" plane and gripping the "y" axis. the angle provided at the end with a cap (33) with a curved surface supported by the support nose (15) of the slider cover (12) and the H-bolt (32) parallel to the "x" axis on the opposite side of the slider (13) ) against a thrust (16) having an axial cavity (34) with an inner ball (35) in contact with the contact pin (36) supported by the opposite end on the inclined face (111) of the frame (11) of the slide block (1). 3 drawings List of reference marks: I - sliding block II - box III - slope 12 - cover 13 -rider 14 - ball guide 15 - supporting nose 16 - pressure 161 - sloping surface 17 - dovetail groove 18 - cages 181 - ball bearing 19 - parallel needle Power elements 21 - leaf spring 22 - cylindrical spring 23 - fixed how much 24 - sliding sleeve (on pin 23) 25 - flat guide of sliding sleeve 24 26 - end of the flat guide 25 27 - compression springs of leaf springs 21 Rectification elements 31 - V-screw for vertical rectification 32 - H-screw for horizontal rectification 33 - YZ screw cap 34 - H-bolt axial cavity 34 35 - inner ball of cavity 34 36 - touch pin 4 - body 5 - intentional mark in the rider 13 51 - fork of intentional mark 5.