CZ306968B6 - A focusing mechanism of a binocular telescope with a central focus knob - Google Patents

Abstract

Focusing mechanism of binocular telescope it comprises a central focusing knob (3) provided on spline groove (31) a supplemented by a braking torque switch (1). Switch (1) is formed by a rigid outer body (11) in which it is a brake (2) with an internal axially slidable body is mounted (24) in which the inner sleeve is rotatably mounted (21) with brake o-ring (22). He clings to the inner a cylindrical surface of the sliding body (24). Facing the surface a sliding body (24) is provided to the front face of the knob (3) radially arranged grooves (23) in a functional manner condition fitting to spline grooving (31) a knob (3) and forming a fixed groove connection therewith. The outer sheath of the slide switch (1) is led out a controller (13) fixedly connected to the sliding body (24).

Description

Field of the invention

The present invention relates to a focusing mechanism of a binocular telescope provided with a rotary axis in the central axis for corrective focusing and sharpening of the eyepiece optical systems.

BACKGROUND OF THE INVENTION

Binoculars make it possible to see an enlarged image of a distant object with both eyes. They are designed for long-term comfortable observation of the surroundings, both static objects and dynamically moving. Focusing to the required distance is performed with the focus knob. In the so-called central focusing system, the eyepieces, or even some optical elements in the objective portion of the two telescope branches, move parallel in the axial direction. This movement is controlled by a wheel which is controlled by the observer's finger. For comfortable operation of the central focusing knob, the stiffness parameter of the dial is essential. It depends on the circumferential force that the observer must exert on his rotation, ie sharpening to another distance. For observation of static objects, a greater stiffness of the turntable is suitable as the observer refocuses slowly and with the necessary focusing accuracy and stability. However, when observing faster moving objects, it is necessary to refocus the fast, usually instantaneous, intuitive, i.e., with the light, of the wheel to allow rapid observer response. If the telescope is to be used to observe objects in all situations, there is a problem with setting the user stiffness of the turntable. In practice, the user decides whether it is preferable to acquire a binocular telescope with "smooth movement of sharpening buttons" or "stiffer" for his needs.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a structure which allows the user to observe comfortably both static and dynamically moving objects.

SUMMARY OF THE INVENTION

This object is solved by the focusing mechanism of the central focusing binocular telescope, which is based on the fact that the dial is provided with a radial groove on the face and supplemented by a braking torque switch. The switch is formed by an inner axially sliding body with a brake, the rotationally axially mounted inner bushing having a brake o-ring adjacent to the inner surface of the sliding body. On the face facing the end face of the turntable, the brake is provided with spline grooves, in operative condition, engaging in the spline groove of the turntable and forming a fixed spline connection therewith. On the outer casing of the slide switch a control finger is connected firmly connected to the slide body.

For proper operation, the sliding body is provided with a locking pin against rotation.

At the point of contact with the brake o-ring, it is advantageous to be provided with a stop foil ensuring proper interaction and a brake o-ring.

In practice, after sharpening, it is necessary to anchor the mechanism in the off or on position, therefore, the sliding body is preferably provided with at least one anchor magnet having bases corresponding to magnetic steel inserts located both in the face of the turntable and in the inner face of the solid outer switch body.

An advantage and a higher effect of the invention is that the binocular telescope can have a low rotational stiffness of the sharpening dial, which the user will use to observe dynamically moving objects. If necessary observation by static or slow moving

By simply shifting the handle of the braking torque switch, the objects engage the brake of the rotary motion, increasing stiffness and allowing slower, accurate and stable focusing.

Clarification of drawings

BRIEF DESCRIPTION OF THE DRAWINGS The invention is described in greater detail in the accompanying drawings, in which: Figure 1 is a schematic front view of a binocular telescope for marking a horizontal section BB with a rotary torque switch according to the invention; AA in the vertical axis plane and section CC in the vertical plane perpendicular to section AA and section to BB at the point where the brake torque switch is connected to the turntable. Fig. 3 shows the section A-A in the on position and Fig. 4 the same in the off position. Fig. 5 shows the section B-B in the on position and Fig. 6 the same in the off position. Fig. 7 is a cross-sectional view C-C with a detail of the locking pin in an axonometric view. Fig. 8 is a detail view of the lower portion of the switch with the locking pin visible.

DETAILED DESCRIPTION OF THE INVENTION

The classical axial focusing knob 3 of the binocular telescope is provided with a radially arranged groove on the front surface 31 ·

A hollow outer body 11 of the rotary brake rotational torque switch 1 is mounted on the turntable 3.

The brake 2 has radial grooves 23 formed on the surface facing the wheel 3 corresponding to the radially arranged groove 31 on the front surface of the wheel 3. An axially displaceable body 24 of the brake 2 is mounted inside the rigid outer body 11. the side surface of which is provided with a brake o-ring 22. The O-ring 22 abuts the stop foil 15 on the inner circumferential surface of the sliding body 24 of the brake 2.

An actuator 13 is rigidly connected to the sliding body 24 on the outer casing of the slide switch 1.

The sliding body 24 is provided with an anti-rotation locking pin 12 through the outer body 11.

The sliding body 24 is provided with at least one anchoring magnet 4, the bases of which correspond to the magnetic steel inserts 41 located both in the face of the turntable 3 and in the inner face of the fixed outer body 11 of the switch 1.

The function of the mechanism according to the technical solution is very simple for the user. In the off state, the grooves 23 of the brake are spaced from the grooves 31 of the knob 3, so that the stiffness of the operation of the knob 3 is low. The user uses this position for fast focusing, for observing dynamically moving subjects, where he can change focus at different distances very quickly. If it wants to observe static or slow moving objects, then by pushing your finger on the actuator 13, it moves the sliding body 24 with the sleeve 21 and the grooves 23 into engagement with the grooving 31 on the rotary knob 3. the brake sleeve 21, the o-ring 22 is braked by the foil 15 of the sliding sleeve 24. The braking force is transmitted by a slotted connection to the rotary knob 3. The user must exert a slightly greater force to rotate the knob, while focusing is slower .

In the desired on or off position, the brake 2 is held by a pair of anchor magnets 4, the bases of which interact with either the magnetic steel inserts 44 in the turntable face or the inserts 41 in the inner face of the solid outer body 11 of the switch 1.

-2GB 306968 B6

Industrial applicability

The focusing mechanism can be manufactured industrially as part of a focusing binoculars for binoculars for general users and military and sporting purposes.

Claims (4)

A focusing mechanism of a central focusing binocular telescope, characterized in that the dial (3) is provided with a radially arranged groove (31) on the front surface and is supplemented by a braking torque switch (1) comprising a rigid outer body (11), comprising a brake (2) with an inner axially slidable body (24), in which a rotationally axially mounted inner sleeve (21) is provided with a brake o-ring (22) adjacent to the inner surface of the slider (24), to the front surface of the wheel (3) the brake (2) is provided with radially arranged grooves (23), in operative condition engaging in the spline grooving (31) of the wheel (3) and forming a fixed groove connection therewith, ), the actuator (13) is rigidly connected to the sliding body (24). The focusing mechanism of the central focusing rotary binocular telescope according to claim 1, characterized in that the sliding body (24) is provided with an anti-rotation locking pin (12) through the outer body (11). The focusing mechanism of the central focusing rotary binocular telescope according to claim 1, characterized in that the sliding body (24) is provided at the point of contact with the brake ring (22) with a stop foil (15). The focusing mechanism of the central focusing rotary binocular telescope according to claim 1, characterized in that the sliding body (24) is provided with at least one anchor magnet (4), whose bases correspond to magnetic steel inserts (41) located in the front face of the rotary dial. (3) in the inner face of the fixed outer body (11) of the switch (1).