EP3615881A1 - Device for adjusting a reticle - Google Patents

Abstract

The invention relates to a device (1) for adjusting a reticle (2), comprising: an adjustable reticle (2), a reticle-adjusting apparatus (3), which comprises an adjustment actuation element (7), which is mounted for movement in an adjustment-movement degree of freedom and is to be actuated by an operator in order to adjust the reticle (2), a combined clicking and blocking apparatus (8), which comprises a first clicking apparatus element (9), which is provided, at least in some sections, with a clicking surface (12) formed by a three-dimensional, in particular tooth-like, surface (11) or surface structure (11'), and a second clicking apparatus element (10), which is mounted for movement relative to the first clicking apparatus element and is in engagement with the clicking surface (12) of the first clicking apparatus element (9), the combined clicking and blocking apparatus (8) being designed, in a first operating mode, to produce an acoustic and/or haptic feedback acoustically and/or haptically perceptible to an operator when the adjustment actuation element (7) is moved in the at least one adjustment-movement degree of freedom and, in a second operating mode, to block movements of the adjustment actuation element (7) in the at least one adjustment-movement degree of freedom.

Description

 DEVICE FOR ADJUSTING A SHUT-OFF

The invention relates to a device for adjusting a reticle, comprising an adjustable reticle, a reticle adjusting device, which comprises a Verstellbewegätigungselement operable in a Verstellbewegungsfreiheitsgrad, actuated by an operator for adjusting the retraction or actuated Verstellbetätigungselement.

Such devices for adjusting a reticle are basically known. Corresponding devices are typically components of remote-optical devices, for example in the form of firearm-mounted or mounted rifle scope devices. The reticle of appropriate devices is adjustable via a Absehenverstelleinrichtung in position and can thus be adjusted to a given shooting situation, d. H. in particular to a given target distance, and set an associated actual meeting place.

It is further known, corresponding devices with a locking device which is adapted to block a movement of the Verstellbetätigungselements to lock the moved into a certain position Reticle against further movements, and a separate thereto Klickeinrichtung, which generates one of an operator acoustically and / or haptically perceptible acoustic and / or haptic feedback when moving the Verstellbetätigungselements is equipped to equip.

Sometimes corresponding devices, in particular due to the structural separation of the locking and clicking functionality, constructed comparatively complex, so that there is a need for a functionally and constructively comparatively simple design, yet equipped with a reliable locking and clicking functionality device for adjusting a loss ,

The invention is thus based on the object of specifying a device for adjusting a reticle with a functionally and constructively relatively simple structure and a reliable locking and clicking functionality.

The object is achieved by a device for adjusting a reticle according to claim 1. The dependent claims relate to advantageous embodiments of the device. The device ("device") described herein is adapted to adjust the position of a reticle, ie a target marker, shortly to adjust a reticle, relative to an initial or reference position form a part of a Verstellturms a corresponding Verstellturmeinrichtung.

The device comprises a reticle adjustable in its position and a reticle adjusting device associated with the reticle. The reticle adjustment device is set up to adjust the reticle. The reticle is adjustable via the reticle adjustment typically in a linear, in particular horizontal or vertical, movement axis (adjustment axis). The Absehenverstelleinnchtung is typically designed as an adjustment mechanism or includes such. The adjusting mechanism is typically arranged to convert a rotational movement (rotational movement) into a linear movement which adjusts the reticle in a linear movement axis (adjustment axis).

The reticle adjuster typically includes two cooperating components to adjust the reticle. A first component of Absehenverstelleinnchtung typically forms a linearly movable mounted adjustment. The adjustment may comprise a shaft-like, movable against the reticle adjustment. An adjustment of the retardation can thus be effected by a, possibly against a by a suitable return element, ie, for example, a spring element, formed restoring force, movement of the adjustment against the reticle. A second component of the Abiewverstelleinrichtung typically forms a rotatably mounted transmission element. The transmission element is coupled to the adjusting element such that rotational movements of the transmission element are translatable or translated into linear movements of the adjusting element, in particular against the reticle. The coupling between the transmission element and the adjusting element may be formed by mechanical interaction, ie typically engagement, transmission element-side threaded elements and Verstellelementseitiger counter-threaded elements. The transmission element-side threaded elements are typically internally threaded sections, in particular in the region of the inner circumference of a hollow cylindrical transmission element section. In the adjusting element-side counter-threaded elements it is typically around, in particular in the region of the outer periphery of a shaft-like Verstellelementabschnitts formed, male threaded portions.

The reticle adjusting device further comprises a variable in a Verstellbewegungsfreiheitsgrad mounted, to be operated by an operator to adjust the retraction Verstellbetätigungselement. The adjusting actuator is typically rotatably coupled to the aforementioned transmission element. The Verstellbewegungsfreiheitsgrad may be a rotary motion degree of freedom, with appropriate operations of the operator therefore be rotational movements. The axis of rotation typically corresponds to the central axis of the device defined by the rotationally symmetrical components of the device. The adjustment actuating element can be rotationally symmetrical; the adjustment actuator can, for. B. have a ring-like or -shaped or a sleeve-like or -shaped or a hollow-cylindrical or -shaped geometric basic shape. The adjustment actuating element can be arranged coaxially with other (rotationally symmetrical) components of the device.

The device further comprises a combined click-and-lock device ("device") .The device comprises a first and a second click-proofing element The first click-proofing element is at least partially, in particular completely, with a three-dimensional, ie in particular tooth-like, shape, The second click member is movably supported relative to the first click member The second click member is always in engagement with the click surface of the first click member, ie, in mechanical contact Klickeinnchtungselement is thus always moved so against the click surface of the first Klickeinrichtungselements that there is always a mechanical contact between the second Klicktinnchtungselement and the first Klickeinnchtungselement wide click device typically has one with a corresponding three-dimensional, i. H. in particular tooth-like or -shaped, preferably knurl-like or -shaped, surface or surface structuring provided active surface over which the actual engagement or mechanical contact between the second Klickeinnchtungselement and the first Klickeinnchtungselement is formed.

The first Klickeinnchtungselement can as a, in particular rotationally or positionally fixed, arranged or formed component with an at least partially provided with a the click surface forming three-dimensional surface or surface structuring, in particular ring-like or -shaped, inner circumference or include such. The first Klickeinrichtungselement can z. B. have a ring-like or -shaped basic shape. The first Klickeinrichtungselement may be rotationally or fixedly connected to a position-fixed mounting member of the device coupled. The first Klickeinrichtungselement can be directly or indirectly, ie coupled with the interposition of at least one positionally fixed to the mounting member of the device further device, fixed in position with the mounting member of the device. The mounting element is for mounting the device to a far-optical device, ie in particular a riflescope device, set up and for this purpose comprises a number of suitable mounting interfaces. With appropriate mounting interfaces, it may be z. B. act of a mounting element, ie, for example, a mounting screw, enforceable mounting holes.

The second Klickeinrichtungselement can be formed as a in one, in particular hollow cylinder-shaped or hollow cylindrical, in particular radially aligned with respect to a central axis of the device receiving portion of a motion-coupled with the Verstellbetätigungselement transmission element of Absehenverstelleinrichtung recorded component or comprise such. The transfer element typically includes a hollow cylindrical base portion and the receiving portion. The base portion is axially aligned with respect to the central axis of the device. The receiving portion is radially aligned with respect to the central axis of the device aligned. The receiving section typically protrudes from the base section in the region of a facing, in particular free, end of the base section.

The second clicker element is typically motion coupled to the recliner actuator. Movements of the

Verstellbetätigungselements in a Verstellbewegungsfreiheitsgrad thus lead to, typically rectified, movements of the second Klicktennchtungselements.

As will be seen below, the second click device element can be moved in a spring-loaded manner against the click surface of the first click baffle element. This can be z. B. by a in a receiving area of the second Klickeinrichtungselements recorded spring element (compression spring element) can be realized.

The device can be converted into a first and a second operating mode; in other words, the device has a first and a second operating mode. In the first operating mode, the device for generating an audible and / or haptic perceptible by an operator acoustic and / or haptic feedback upon actuation or movement of the Verstellbetätigungselements in the at least one Verstellbewegungsfreiheitsgrad is established. Accordingly, the first click device element and the second click device element cooperate in the first operating mode such that, when the movement of the second click device element relative to the first click device element, in particular by movement of the adjustment actuation element, occurs. H. in particular relative to the click surface of the first Klickinrichtungselements, an audible and / or haptic feedback generated or generated. In the first operating mode, the functionality of the device is accordingly an audible and / or haptic feedback upon actuation or movement of the adjusting actuating element for adjusting the reticle, ie. H. a click to generate.

In the second operating mode, the device for blocking movements of the adjusting actuating element is set up in the at least one adjusting freedom of movement. The first clicker element and the second clicker element cooperate in the second mode of operation such that a force opposing a movement of the variable actuation element in the at least one adjustable range of freedom is inhibited to inhibit movements of the indexing actuator in the at least one range of adjustment freedom. The second clicker element is typically clamped against the first clicker element in the second mode of operation such that force opposing movement of theadjustment actuator in the at least one amount of adjustment freedom of inhibiting movement of the adjustment actuator in the at least one amount of adjustment motion can be generated or generated. The second clicker element is moved in the second mode of operation with a (significantly) higher force against the click surface of the first clicker element than in the first mode of operation. In the second mode of operation, the functionality of the device is therefore a (further) operation or the movement of the retraction by generating an actuation or To block movement of Verstellbetatigungselements counteracting force or (considerably) to complicate.

Locking is, although generally conceivable, typically not meant to be a complete blockage of a (further) actuation or movement of the adjusting actuating element, which excludes any (further) actuation of the adjusting actuating element without damaging or destroying the reticle adjusting device. In the second mode of operation, the device is typically set up to block actuations or movements of the adjustment actuating element in the at least one adjustment movement degree of freedom (only) up to a predefinable maximum force or maximum torque limit value. The device is thus typically at one or above the maximum force or maximum torque limit value applied to the Verstellbetätigungselement force or torque set to release a further actuation or movement of the Verstellbetätigungselements in the at least one Verstellbewegungsfreiheitsgrad without damaging or destroying the device. The maximum force or maximum torque limit is typically by constructive design of various components of the device, in particular the device, d. H. in particular the Klickeinrichtungselemente and a control element explained in more detail below, chosen so that it can be exceeded by a human, if at all, only with considerable effort, in particular outside the force required for the intended use of the device force. Typically, torques of at least 400 Ncm are to be applied to further actuate the reclining actuator in the second mode of operation of the device.

The device always has reliable click and lock functionality; The device thus combines a click and a lock functionality in one and the same component group. There is a comparison with the prior art described above improved device.

The device may comprise an actuating element movably mounted in at least one operating movement degree of freedom independently of the adjusting actuating element and to be actuated by an operator for transferring the device into the first and / or second operating mode. The actuating element may be rotationally symmetrical; the actuator can, for. B. a ring-like or a sleeve-like or -förmig or a hollow cylinder-like or -shaped geometric basic shape. The actuating element can be arranged coaxially with other (rotationally symmetrical) components of the device. The actuator can at least partially arranged resting on a front or top of the Verstellbetätigungselements or trained, z. B. dome-shaped or -shaped, to be gripped by an operator to actuate the actuating element operating portion.

The actuation freedom of movement may be a rotational freedom of movement. The actuator may thus be positioned between a first rotational (angular) position relative to a central axis of the device, which first rotational position correlates to the first mode of operation of the device, and a second rotational (angular) position relative to the central axis of the device, which second rotational (angle) position correlated with the second operating mode of the device, be movably mounted. The device can thus be transferred to the first or in the second operating mode by rotational movements of the actuating element induced by operator-side actuations between a first rotational (angular) position and a second rotational (angular) position.

In an alternative or additional embodiment, the actuator may be coupled between a first axial position with respect to a central axis of the device, which first axial position correlates with the first mode of operation of the device, and a second axial position with respect to the central axis of the device, which second axial position with the second Operating mode of the device correlated, be stored movable. The degree of freedom of actuation movement can therefore also be an axial translational movement degree of freedom. The device can therefore by induced by operator-side actuations axial translational movements, d. H. z. B. push or pull movements, the actuating element between a first axial position, d. H. z. An upper position, and a second axial position, d. H. z. B. a lower position, are transferred to the first and in the second operating mode.

In a further alternative or supplementary embodiment, the actuating element may be connected between a first radial position with respect to a central axis of the device, which first radial position correlates with the first operating mode of the device, and a second radial position with respect to the central axis of the device, which second radial position with the second mode of operation of the device correlated to be movably mounted. In which Actuation freedom of movement may therefore also be a degree of radial translational movement. The device can therefore by radial movements induced by operator-side actuations, ie sliding movements, of the actuating element between a first radial position, ie, for example, an outer position, and a second radial position, ie, for example, an inner position, in the first or be transferred to the second operating mode.

From the foregoing, it follows that combined movements of the actuating element in several different

Operational motion degrees of freedom are conceivable to translate the device into the first or second mode of operation.

The device or the device may comprise a control element, in particular at least partially hollow cylinder-like or hollow-cylindrical, which comprises a control section that can be coupled or coupled to the second click device element. The control is typically motion coupled to the actuator. Movements of the actuating element in an actuating movement degree of freedom thus lead to, typically rectified, movements of the control. The control can be rotationally symmetrical; the control element can have a hollow-cylindrical or geometric basic shape. The control element can be arranged coaxially with other (rotationally symmetrical) components of the device. Typically, the control comprises a base section. The base portion is typically formed to be axially aligned with respect to the central axis of the device. The control section may in particular be arranged or designed in the region of a reticle facing, in particular free, end of the base section of the control element.

The control section may comprise a first control wall area of low wall thickness and a second control section area in comparison of higher wall thickness. The transition between the first and second control section regions may be stepless. The transition between the first and second control section area may, for. B. be realized by a ramp-like between these control section area. Respective control portion regions extend circumferentially each around a certain area of the outer periphery of the base portion of the control. The first control section region in the first mode of operation of the device typically acts on the second click member, whereby the second click member is moved against the click surface of the first click member such that movement of the second clicker member relative to the click surface is particularly caused by movement of the adjustment actuator the first Klickeinrichtungselements the acoustic and / or haptic feedback is generated or generated. The action of the first control section area on the second Klicktimmerchtungselement can, for. B. be realized in that the first control section area in the first operating mode is applied to the second Klicktinnchtungselement or a device coupled thereto. In the first operating mode, the first control section region can thus be moved in relation to the second click device in such a way that it bears against the second click device or a component coupled thereto. In a coupled with the second Klickeinnchtungselement device may be z. B. act to a partially received in a receiving space of the second Klickeinrichtungselements pin element. Between the pin member and the second Klickeinnchtungselement a spring element may be connected, via which the second Klicktinnchtungselement is spring-loaded moved against the click surface of the first Klickeinrichtungselements. The spring element can be supported on the one hand on the pin element and on the other hand on the second Klickeinnchtungselement.

The second control section area typically acts on the second click member in the second mode of operation of the device, thereby clamping the second click member against the click surface of the first clicker member such that a counteracting force of the recliner actuator in the at least one adjustment freedom of movement is obstructed of movements of the Verstellbetätigungselements in the at least one Verstellbewegungsfreiheitsgrad generated or generated. The action of the second control section area on the second Klicktinnchtungselement can, for. B. be realized in that the second control section region in the second mode of operation on the second Klicktinnchtungselement or a coupled thereto component, ie, for example, the above-mentioned pin member abuts. In the second operating mode, the second control section area can thus be moved in relation to the second click device in such a way that it bears against the second click device or a component coupled thereto. Due to the higher wall thickness of the second control section area compared to the first control section section, the second click device element is clampingly moved against the click surface of the first clicker element, ie clamped against the click surface of the first clicker element, thereby generating the movement of the recliner actuator in which at least one Verstellbewegungsfreiheitsgrad counteracting force for blocking movements of the Verstellbetätigungselements in the at least one Verstellbewegungsfreiheitsgrad is possible. As mentioned, in the second mode of operation, the second clicker element is moved with a (significantly) higher force against the click surface of the first clicker element, resulting in the jamming.

The control element may be designed to be elastically resilient or reversibly deformable at least in the region of the control section. Under an elastically resilient or reversibly deformable design of the control or -abschnitt is an elastic-resilient behavior of the control or -abschnitts, d. H. in particular an elastic restoring behavior after a deflection of the control element or section starting from a ground state into a deflected state, to be understood, which can be realized by geometric-constructive measures and / or by an elastically resilient material, in particular metal, preferably steel , In the second operating mode, the elastically resilient embodiment of the control element or section enables the aforementioned release of a further actuation or movement of the adjustment actuating element in the at least one adjustment freedom of movement without damaging the device at a force applied above the maximum force or maximum torque limit value or torque.

In addition to the device, the invention relates to a remote optical device. In the far-optical device is z. B. one on a firearm or firearm such. As a rifle, mountable or to be mounted rifle scope. The long-range optical device is used in particular for the optical enlargement of objects viewed through them in the distance. For this purpose, the far-optical device comprises a plurality of optical elements arranged between a lens and an eyepiece, that is to say in particular optically magnifying elements. The optical elements, which are z. B. may be lenses or prisms form an optical channel. The far-optical device comprises at least one device for adjusting a reticle as described. All versions in connection with the device are thus analogous to the far-optical device. The reticle is arranged in the optical channel formed by the optical elements of the remote optical device. The reticle is adjustable (within the optical channel) in its position and can thus be adjusted to a given shooting situation, ie in particular to a given target distance, and an associated actual meeting point. A positional adjustment of the reticle is in particular an adjustment of the horizontal and / or vertical position of the reticle, in particular with respect to a horizontal and / or vertical starting or reference position to understand.

The invention is explained in more detail with reference to embodiments in the drawing figures. Showing:

Fig. 1, 2 each a longitudinal sectional view of a device for

 Adjusting a reticle according to an embodiment;

Fig. 3 is an enlarged view of the detail shown in Fig. 1 III.

1, 2 each show a longitudinal section of a device 1 for adjusting a reticle 2 according to an embodiment. Fig. 3 shows an enlarged and slightly tilted representation of the detail III shown in Fig. 1. It can be seen from the figure that the device 1 can be an adjustment tower of an adjustment tower device.

The apparatus 1 comprises a reticle 2, which is indicated purely schematically in the FIGURE, in its position (relative to an initial or reference position), ie a target marking. The reticle 2 is arranged in the assembly assembly of the device 1 with a far-optical device (not shown), ie, for example, a riflescope device, in an optical channel formed by the optical elements of the far-optical device. The reticle 2 is adjustable in position (within the optical channel) and can thus be adjusted to a given shooting situation, ie in particular to a given target distance, and an associated actual meeting point. The device 1 comprises a reticle 2 associated with the reticle 2

3. The reticle adjustment device 3 is set up to adjust the reticle 2. The reticle 2 is adjustable via the reticle adjustment device 3 in a direction indicated by the double arrow P1 shown in FIGS. 1, 2 linear movement axis (adjustment axis). The reticle adjustment device 3 is designed as an adjustment mechanism, which is set up to convert a rotational movement into a reticle 2 in the linear movement axis (adjustment axis) adjusting linear movement. As can be seen, the linear movement axis coincides with the central axis A defined by the rotationally symmetrical components of the device 1 described in more detail below.

The reticle adjusting device 3 comprises two components interacting to adjust the reticle 2. A first component of the Absehenverstelleinrichtung 3 is a movement with reticle 2 linearly movably mounted adjustment

4. The adjusting element 4 comprises a shaft-like, movable against the reticle 2 adjustment 5. An adjustment of the reticle 2 by one, optionally against a by a suitable return element (not shown) d. H. z. A second component of the adjusting device 3 forms a rotatably mounted transmission element 6. The transmission element 6 is coupled to the adjusting element 4 such that rotational movements of the transmission element 6 in linear movements the adjusting element 4, in particular against the reticle 2, are translatable or translated. The coupling between the transmission element 6 and the adjusting element 4 takes place by mechanical interaction of transmission element-side threaded elements (not designated) and adjusting element-side counter-threaded elements (not designated). The transmission element-side threaded elements are internally threaded sections formed in the region of the inner circumference of a hollow cylindrical transmission element section. The adjusting element-side counter-threading elements are external thread sections formed in the region of the outer circumference of the shaft-like adjusting section 5.

The reticle adjustment device 3 further comprises a movable in a Verstellbewegungsfreiheitsgrad, by an operator to adjust the reticle 2 to be actuated Verstellbetätigungselement 7. The Verstellbetätigungselement 7 is rotatably coupled to the transmission element 6. The Verstellbewegungsfreiheitsgrad is one in Fig. 1 by the Double arrow P2 indicated degree of freedom of rotation, with appropriate operations of the operator therefore to rotational movements. The axis of rotation corresponds to the central axis A of the device 1. In the exemplary embodiment, the adjusting actuating element 7 has a rotationally symmetrical, ie a ring-shaped or geometric basic shape and is arranged coaxially with other components of the device 1.

The device 1 further comprises a combined click and lock device 8 ("device") The device 8 comprises a first and a second click device 9, 10. The first click device 9 is, as shown particularly in FIG The second clicking device 10 is movably mounted relative to the first clicking device 9. The second clicking device 10 is provided with The second click device 10 is thus moved against the click surface 12 of the first Klickeinrichtungselements 9 that always a mechanical contact between the second Klicktinnchtungselement 10 and the first Klicktinnchtungselement 9 best Again, in particular with reference to FIG. 3, the second Klickeinnchtungselement 10 has a provided with a corresponding three-dimensional surface structuring 13 effective surface 14, via which the actual engagement or mechanical contact between the second Klicktinnchtungselement 10 and the first Klickeinnchtungselement 9 is formed.

The first Klickeinnchtungselement 9 is formed as a rotationally or positionally fixed, ring-like component with a with the click surface 12 forming three-dimensional surface 1 1 or surface structuring 1 1 'provided inner circumference. The first Klickeinnchtungselement 9 is rotationally or fixedly connected to a rotationally or positionally fixed mounting member 15 of the device 1 is coupled. In the embodiment shown in the figures, the first Klickeinnchtungselement 9 indirectly, ie coupled with the interposition of a rotatable or positionally fixed to the mounting member 15 further component 16, rotationally or fixedly fixed to the mounting member 15. It would also be conceivable, of course, a direct coupling of the first Klickeinrichtungselements 9 with the mounting member 15. This also to be designated as a mounting base Mounting element 15 is set up for mounting the device 1 on a far-optical device and for this purpose comprises a number of suitable mounting interfaces 17. In the exemplary embodiment, corresponding mounting interfaces are mounting holes that can be passed by a mounting element 18, ie, a mounting screw.

The second Klickeinrichtungselement 10 is formed as a in a hollow cylindrical, radially aligned with respect to a central axis A of the device 1 formed receiving portion 19 of the transmission element 6 of the Absehenverstelleinrichtung 3 component 20 formed. The transmission element 6 comprises an axially aligned with respect to the central axis A of the device 1 aligned, hollow cylindrical base portion 21 and radially aligned with respect to the central axis A of the device 1 aligned receiving portion 19. The receiving portion protrudes in the region of the reticle 2 facing the end of the base portion 20th from the base portion 20 from.

The second click device element 10 is coupled with the adjustment actuating element 7 in such a way. Movements of Verstellbetätigungselements 7 thus lead to rectified movements of the second Klicktinnchtungselements 10th

The device 8 can be converted into a first and a second operating mode. In the first operating mode shown in FIGS. 1, 3, the device 8 is configured to generate an audible and / or haptic audible audible and / or haptic feedback upon actuation or movement of the adjusting actuating element 7. The first Klickeinrichtungselement 9 and the second Klickinrichtungselement 10 cooperate in the first mode of operation such that at a caused by a movement of the Verstellbetätigungselements 7 movement of the second Klicktrichtchtungselements 10 relative to the first Klickeinrichtungelement 9 or relative to the click surface 12 of the first Klicktinnchtungselements 9 a acoustic and / or haptic feedback can be generated or generated. In the first operating mode, the functionality of the device 8 is accordingly an actuation or movement of the adjusting actuating element 7 for adjusting the reticle 2, an acoustic and / or haptic feedback, d. H. a click to generate.

In the second operating mode shown in FIG. 2, the device 8 for blocking movements of the adjusting actuating element 7 is set up. The first Clicker element 9 and second clicker element 10 cooperate in the second mode of operation such that a force opposing a movement of the adjustment actuation element 7 is generated for inhibiting movements of the adjustment actuation element 7. In the second operating mode, the second click device element 10 is clamped or clamped against the first click device element 9 in such a way that a force opposing a movement of the readjustment actuation element 7 can be generated or generated for blocking or (substantial) aggravation of movements of the adjustment actuation element 7. The second clicker element 10 is moved in the second mode of operation with a (significantly) higher force against the click surface 12 of the first clicker element 9, compared to the first mode of operation, resulting in the clamping. In the second operating mode, the functionality of the device 8 is therefore to block or (substantially) obstruct a (further) actuation or movement of the reticle 2 by generating a force counteracting an actuation or movement of the adjusting actuation element 7.

Under a lock is not a complete blockage of a (further) operation or movement of the Verstellbetätigungselements 7 to understand which excludes a (further) operation of the Verstellbetätigungselements 7 without the Abiewverstelleinrichtung 3 or destroy. The device 8 is in the second operating mode for blocking operations or movements of the Verstellbetätigungselements 7 (only) up to a predetermined or predetermined maximum force or maximum torque limit established. The device 8 is thus at one or above the maximum force or maximum torque limit on the Verstellbetätigungselement 7 applied force or torque set to release a further actuation or movement of the Verstellbetätigungselements 7 without damaging or destroying the device 8. The maximum force or maximum torque limit value is in particular due to the structural design of various components of the device 1 or the device 8, d. H. in particular the Klickeinrichtungselemente 9, 10 and a control element explained in more detail below 22, chosen so that it can be exceeded by a human, if at all, only with considerable effort, in particular outside the force required in the intended use of the device 1 force.

The device 8 comprises a movable in at least one Betätigungsbewegungsfreiheitsgrad independent of the Verstellbetätigungselement 7, of a Operator for the transfer of the device 8 in the first and / or in the second operating mode to be actuated actuator 22. The actuator 22 is arranged in the embodiment coaxial with other (rotationally symmetrical) components of the device 1 and comprises on a front or top of Verstellbetätigungselements 7 arranged resting, to be gripped by an operator to actuate the actuating element 22 actuating portion 23rd

The degree of freedom of the actuating movement of the operating member 22 in the embodiment is a degree of rotational freedom; the actuating element 22 is thus rotatably mounted about the axis of rotation formed by the central axis A of the device 1. The actuator 22 is thus between a first rotational (angular) position with respect to the central axis A of the device 1, which first rotational (angular) position correlates with the first operating mode of the device 8, and a second rotational (angular) position with respect to the central axis A of Device 1, which second rotational (angle) position correlated with the second operating mode of the device 8, movably mounted. The device 8 can thus be converted into position by the operator-induced actuations rotational movements of the actuating element 22 between a first rotation (angle) position and a second rotation (angle) position in the first or in the second operating mode.

In an alternative embodiment, the actuator 22 could alternatively or additionally between a first axial and / or radial position with respect to the central axis A of the device 1, which correlates first axial and / or radial position with the first mode of operation of the device 8, and a second axial and / or radial position relative to the central axis A of the device 1, which correlates second axial and / or radial position with the second operating mode of the device 8, to be movably mounted.

The device 1 or the device 8 comprises an at least partially hollow cylinder-like control element 23, which comprises a control section 24 which can be coupled or coupled to the second click device element 10. The control element 23 is provided with a connection element rotatably connected to the actuating element 22 in the case of component 26 by means of the components 25, 26; in the case of component 26, the connection region is non-rotatably connected to a connection region 27 of the base element 28 of the control element 23 Control 23 coupling fastener, coupled to the actuator 22 motion. Movements of the Actuator 22 in a Betätigungsbewegungsfreiheitsgrad thus lead to rectified movements of the control 23rd

The control element 23 comprises a base section 28. The base section 28 is designed to be aligned axially with respect to the central axis A of the device 1. The control section 24 is arranged in the region of the reticle 2 facing the end of the base portion 28 of the control element 23.

The control section 24 comprises a first control section area 29 (see Fig. 1, 3) of low wall thickness and a second control section area 30 (see Fig. 2) in comparison of higher wall thickness. The transition between the first and second control section regions 29, 30 can be realized steplessly and by a control section region (not shown) extending therebetween in a ramp-like manner.

It can be seen that the first control section area 29 acts on the second click device 10 in the first mode of operation of the device 8, whereby the second click device 10 is moved against the click surface 12 of the first clicker element 9 so that the second Klickeinrichtungselements 10 relative to the click surface 12 of the first Klickinrichtungselements 9 the audible and / or haptic feedback generated or generated. In the exemplary embodiment, the action of the first control section area 29 on the second click device 10 is realized in that the first control section area 29 rests against a component 31 coupled to the second click device 10 in the first operating mode. In the first operating mode, the first control section region 29 is thus moved relative to the second clicking device 10 in such a way that it bears against the component 31 coupled to the second clicking device 10. The component 31 is a pin element 31 received in sections in a receiving space 32 of the second click device element 10. As can be seen, a spring element 33 is connected between the pin member 31 and the second click member 10 via which the second click member 10 is resiliently biased against the click surface 12 of the first click member 9. The spring element 33 is supported on the one hand on the pin member and on the other hand on the second Klicktinnchtungselement 10.

The second control section region 30 acts in the second operating mode of the device 8 on the second Klicktunstchtungselement 10, whereby the second Klickeinrichtungselement 10 is such a clamping or exciting against the click surface 12 of the first Klicke device element 9 is moved, that the movement of the Verstellbetatigungselements 8 counteracting force for blocking movements of the Verstellbetatigungselements 7 is generated or generated. The action of the second control section area 30 on the second click device element 10 can be realized in that the second control section area 30 abuts against the component 31, ie the pin element, in the second operating mode. In the second operating mode, the second control section region 30 is thus moved relative to the second click device element 10 in such a way that it bears against the component 31. Due to the higher wall thickness of the second control section area 30 compared to the first control section area 29, the second click device element is clampingly moved against the click surface 12 of the first clicker element 9, ie jammed against the click surface 12 of the first clicker element 9, thereby causing the generation the force counteracting a movement of the adjusting actuating element 7 against the movement of the adjusting actuating element 7 is possible.

The control element 23 is elastically resilient or reversibly deformable in the region of the control section 28. In the second operating mode, the elastically resilient configuration of the control element 23 or section 28 enables the aforementioned release of a further actuation or movement of the adjustment actuating element 7 without damaging or destroying the device 8 at a force or force applied above the maximum force or maximum torque limit value torque.

Claims

PAT EN TAN SPRU

1 . Device (1) for adjusting a reticle (2), comprising:

 - an adjustable reticle (2),

 a Absehenverstelleinrichtung (3), which in a Verstellbewegungsfreiheitsgrad movably mounted by an operator for adjusting the reticle (2) to be actuated Verstellbetatigungselement (7), characterized by

 - A combined click and lock device (8), which at least partially provided with a by a three-dimensional, in particular tooth-like, surface (1 1) or surface structuring (1 1 ') formed click surface (12) first Klickeinrichtungselement (9) and a comprises a second click device element (10) which is movably mounted relative to said movably mounted element and which is in engagement with the click surface (12) of the first click device element (9),

 wherein the combined click and lock device (8) in a first operating mode for generating an audible and / or haptic perceptible audible and / or haptic feedback upon movement of the Verstellbetätigungselements (7) is set in the at least one Verstellbewegungsfreiheitsgrad, and

 in a second operating mode for blocking movements of the adjusting actuating element (7) is set up in the at least one Verstellbewegungsfreiheitsgrad.

2. Device according to claim 1, characterized in that the first Klickeinrichtungselement (9) and the second Klickinrichtungselement (10) cooperate in the first mode of operation such that at one, in particular by a movement of the Verstellbetätigungselements (7) induced movement of the second Klickinrichtungselements (10) relative to the first clicker element (9), i. H. in particular relative to the click surface (12) of the first Klickinrichtungselements (9), an audible and / or haptic feedback is generated or generated.

3. Apparatus according to claim 1 or 2, characterized in that the first In the second operating mode, the click device element (9) and the second click device element (10) cooperate in such a way that a force opposing a movement of the adjustment actuation element (7) in the at least one adjustment movement degree of freedom blocks the movement of the adjustment actuation element (7) in the at least one Verstellbewegungsfreiheitsgrad is generated or generated.

Device according to one of the preceding claims, characterized in that the combined click and lock device (8) is set in the second operating mode for blocking movements of the Verstellbetätigungselements (7) in the at least one Verstellbewegungsfreiheitsgrad to a maximum force or maximum torque limit, the Combined click and lock device (8) at one or above the maximum force or maximum torque limit on the Verstellbetätigungselement (7) applied force or torque is set, further movement of the Verstellbetätigungselements (7) in the at least one Verstellbewegungsfreiheitsgrad without damage or destruction release the combined click and lock device (8).

Device according to one of the preceding claims, characterized by one of the combined click and lock device (8) associated, in at least one Betätigungsbewegungsfreiheitsgrad independently of the Verstellbetätigungselement (7) movably mounted by an operator for the transfer of the combined click and lock device (8) in the first and / or the second operating mode to be actuated actuator (22).

Apparatus according to claim 5, characterized by a control element (23) which is coupled with the actuating element (22) for movement, in particular at least partially in the form of a hollow cylinder or hollow cylinder, which, in particular in the region of an end facing the reticle (2), engages with the second click device element (10 ) coupled or coupled control section (28).

7. Apparatus according to claim 6, characterized in that the

Control section (28) comprises a first control section area (29) of low wall thickness and a second control section area (30) in comparison of higher wall thickness.

8. The device according to claim 7, characterized in that the first control section region (29) in the first operating mode of the combined click and lock device (8) acts on the second Klickinrichtungselement (10), in particular on the second Klickinrichtungselement (10) or one with this coupled component (31), whereby the second Klickinrichtungselement (10) is moved against the click surface (12) of the first Klickinrichtungselements (9) that at a, in particular by a movement of the Verstellbetätigungselements (7) brought about, movement of the second Klickinrichtungselements (10) an acoustic and / or haptic feedback is generated or generated relative to the click surface (12) of the first Klickinrichtungselements (9).

9. Device according to claim 7 or 8, characterized in that the second control section area (30) acts on the second click device element (10) in the second operating mode of the combined click and lock device (8), in particular on the second click device element (10) or abutting a component (31) coupled thereto, whereby the second clicker element (10) is clampingly moved against the click surface (12) of the first clicker element (9) such that movement of the indexing actuation element (7) in the at least one Verstellbewegungsfreiheitsgrad counteracting force for blocking movements of Verstellbetätigungselements (7) in the at least one Verstellbewegungsfreiheitsgrad generated or generated.

10. Device according to one of claims 6 to 9, characterized in that the control section (28) is resilient-resilient.

1 1. Device according to one of the preceding claims, characterized in that the second Klickinrichtungselement (10) with the Verstellbetätigungselement (7) is coupled for movement.

12. Device according to one of the preceding claims, characterized in that the second Klickeinrichtungselement (10) as a in a, in particular hollow cylinder-like, in particular radially with respect to a central axis (A) of the device (1) aligned, receiving portion (19) one with the Verstellbetätigungselement (7) movement-coupled transmission element (6) recorded component is formed or includes such.

13. Device according to one of the preceding claims, characterized in that the second Klickeinrichtungselement (10) is spring-loaded against the click surface (12) of the first Klickinrichtungselements (9) is moved.

14. Device according to one of the preceding claims, characterized in that the first Klickeinrichtungselement (9) as a, in particular rotationally fixed, arranged or formed component with an at least partially with the click surface (12) forming three-dimensional surface (1 1) or surface structuring (1 1 ') provided, in particular ring-shaped or -shaped, inner circumference is formed or comprises such.

15. Remote optical device, in particular rifle scope, comprising at least one device (1) for adjusting a reticle (2) according to one of the preceding claims.