This application is a national phase entry under 35 USC 371 of the international patent application PCT/DE2019/100725 filed on Aug. 13, 2019 and published under the publication number WO 2020/035110, claiming the priority right from the German patent application DE 102018119869.8 filed on Aug. 15, 2018.
The invention relates to an adjustment turret with indicator rings. Such adjustment turrets may be provided with a saddle preferably for mounting to the housing of a rifle scope; an actuator that is displaceable out of the saddle along a symmetry axis of the adjustment turret in a non-rotatable fashion; a threaded fitting coupled to the base for the displacement of the actuator, wherein the base is rotatably mounted to the saddle; an adjustment ring coupled to the base; a scale ring that is supported on the base in such fashion that is lockable and/or rotatable relative to a reference marking arranged on the saddle; and at least one indicator ring adjustably mounted to the base;
Adjustment turrets of this kind are especially known in the field of rifle scopes, where the reticle adjustment is set according to varying shooting ranges and/or varying ammunition types. Therein, an actuator activated by the adjustment turret acts on the bearing of the reticle in the optical path of the rifle scope. Such an adjustment turret is also known from the prior application DE 10 2017 129 682.4.
By means of an adjustment wheel at the adjustment turret, a scale is rotated relative to a reference marking fixed with respect to the rifle scope. By lifting the adjustment wheel, the lock on the adjustment turret scale is unlocked and brought to a zero-position or to an appropriate position for a different shooting range and/or ammo type.
It is known, for example from EP 1 959 221 B1, to arrange colored indicator rings over a scale ring at the adjustment turret for displaying the setting adjustments for different shooting ranges and/or ammo types. For the adjustment of indicator rings, a cap must be removed from the adjustment turret and the at least one indicator ring must be removed. For radial orientation of the indicator rings, the adjustment turret includes an outer central gear and the indicator rings include an internal gear. According to the corresponding radial position setting, the gears can be inserted into each other. After positioning all indicator rings, the cap is put back on so that the indicator rings are secured against unintentional adjustment of their radial position.
An object of the invention is to enable rotation of the scale with the actuator by means of the adjustment wheel, as well as resetting the scale to zero without changing the height of the adjustment turret and without requiring use of special tools. Similarly, different indicator rings should be adjustable radially with the respect to the scale individually and independently of one another without any additional assembly and without jeopardizing their rotational position.
According to an aspect of the invention, an adjustment turret with indictor rings comprises: a saddle preferably for mounting to the housing of a rifle scope; an actuator that is displaceable out of the saddle along a symmetry axis of the adjustment turret in a non-rotatable fashion; a threaded fitting coupled to the base for the displacement of the actuator, wherein the base is rotatably mounted to the saddle; an adjustment ring coupled to the base; a scale ring that is supported on the base in such fashion that it is lockable and/or rotatable relative to a reference marking arranged on the saddle; at least one indicator ring adjustably mounted to the base; a display disc is arranged in the upper surface of the adjustment ring and is securely coupled to the base, wherein underneath the display disc a cam disc is provided that is rotatable about the symmetry axis of the adjustment turret, said cam disc comprising at least one arc-shaped cam facing the base, including a rise/fall ramp acting in a rotational direction; and at least one rotatably fixed and longitudinally displaceable lock slide is arranged parallel to the symmetry axis of the adjustment turret at a circumference of the base, which lock slide is axially displaceable by one of the cams of the cam disc.
The inventive adjustment turret with indicator rings comprises a mounting saddle, preferably for mounting to the housing of a rifle scope. A rotatably fixed actuator is a slidable out of the saddle along a symmetry axis of the adjustment turret, for example for the vertical adjustment of an inversion system of art e scope with a reticle. A threaded fitting is coupled to a base for the adjustment of the actuator, wherein the base is rotatably mounted on the saddle. The adjustment ring is coupled to the base, which is not rotatable when locked and is rotatable when unlocked, wherein via the base a rotation causes an axial adjustment of the actuator. A rotatably mounted scale ring is located on the base, which is rotatable by turning the adjustment turret relative to a reference marking on the saddle. Additionally, at least one adjustably mounted indicator ring is provided on the base. A display disc securely coupled to the base is located in the surface of the adjustment ring, and underneath the display disc is a cam disc rotatable about the symmetry axis of the adjustment turret. The cam disc is intended to be the setting means with multiple rotation positions corresponding to different functions and further includes different function symbols on its top side, which are optionally visible to the user through a window in the display disc. In a first locked setting, an unintentional rotation of the adjustment ring with the display disc is not possible. In this setting (rotational default position of the cam disc), neither the scale ring nor the indicator ring can be adjusted.
In a second unlocked setting (2nd rotational position of the cam disc), the setting of for example a reticle means by rotation of the adjustment ring and thereby limited axial displacement of the actuator is unlocked/enabled. A rotation of the adjustment ring simultaneously rotates the display disc, the cam disc, the scale ring and an indicator ring. This means that also in this setting neither the scale ring nor the indicator ring can be adjusted or aligned with each other through relative rotation.
In a further setting (3rd rotational position of the cam disc), rotation of the adjustment ring, and thereby also of the display disc, is impeded. This unlocks/enables setting of the scale ring through relative rotation with respect to the base, while the setting of the indicator ring continues to be impeded.
In a further setting (4th rotational position of the cam disc), the rotation of the adjustment ring is likewise impeded by the display disc, while a setting of the indicator ring is freed through relative rotation relative to the base and therewith also relative to the scale ring. Setting the remaining elements such as the adjustment ring and scale ring is not possible.
In further settings (further rotational positions of the cam disc), the setting of additional indicator rings can be adjusted.
Thus, user operating error is advantageously prevented through clear functional allocation by rotational positions of the cam disc.
Positioned at the cam disc is at least one arc-shaped, base-facing cam including a rise/fall ramp extending in the rotational direction.
For optional locking or release, at least one fixed and longitudinally displaceable lock slide is arranged parallel to the symmetry axis of the adjustment turret at the peripheral circumference of the base, wherein the lock slide is axially displaceable along the cam of the cam disc.
An embodiment is schematically shown in the drawings.
These show:
A fundamental idea of the invention is the arrangement of a manually rotatable cam disc within the upper surface of the adjustment ring and the cam disc's selective operation of the axial adjustment of the adjustment turret, the scale ring and individual lock slides allocated to respective indicator rings.
The view presented in
An adjustment ring 6 with a knurling for improved grip is provided at the upper part of the adjustment turret 1. A cam disc 7 is rotatably mounted inside the upper side of the adjustment ring 6 and rotatable via manual grip of knobs 8. The cam disc 7 includes display symbols 9 which optionally are visible through a window 10 on a display disc 11. The adjustment ring 6 is securely coupled to the base 13 via the display disc 11. The adjustment ring 6 and the cam disc 7 are rotatable about a symmetry axis 12. The cam disc 7 is rotatable independently of the adjustment ring 6. A rotation of the adjustment ring 6 is conveyed to cam disc 7, the display disc 11, and the base 13 for the adjustment of the actuator 15.
A cross-sectional view of the adjustment turret 1 shown in
A scale ring 5 and multiple indicator rings 2 are rotatably mounted on top of each other on the base 13. The indicator rings 2 can include a setting protrusion 16, which is particularly advantageous for gripping of the indicator rings 2 having a relatively low height.
The adjustment ring 6 and the display disc 11 are securely coupled to the base 13. The cam disc 7 is rotatably mounted between the display disc 11 and the surface of the adjustment ring 6 that is coupled to the base 13.
The display disc 11 and the upper surface of the cam disc 7 are shown as a level surface in
The underside of the cam disc 7 comprises cams 17, 18 arranged concentrically to each other. The cam 17 engages as a turret cam 17 the upper part of a turret lock slide 19. The turret lock slide 19 extends in parallel to the symmetry axis 12 and is arranged relatively to the base 13 at its peripheral edge in a non-rotatable and longitudinally movable fashion. A return spring 20 supported against the base 13 pushes the upper part of the turret lock slide 19 upwards.
A latch protrusion 21 is arranged at the bottom part of the turret lock slide 19. The latch protrusion 21 is pushed to the open part of the sleeve 22 of a lock element 23 by actuation by the turret cam 17 (
The sleeve 22 includes a lock pawl 24 at its closed tip having an edge extending parallel to the symmetry axis 12, which engages a locking ratchet toothing located at the saddle 3 through bias by a compression spring 25 supported against the base 13.
When the latch protrusion 21 is in engagement position, the base 13 and the saddle 3 are securely coupled, preventing rotation with respect to each other. A display symbol 9 of a shut padlock is visible in the window 10 of the display disc 11. When the latch protrusion 21 is unengaged, the base 13 adjacent to the saddle 3 is rotatable and can thereby displace the actuator 15. In window 10 of the display disc 11 a display symbol 9 of an open padlock is visible. When the base 13 is rotated, the edge of the lock pawl 24 audibly springs from a locking ratchet tooth at the saddle 3 into the following tooth under bias by the compression spring 25. To prevent wear and tear of the locking ratchet toothing, the shown component 26 of the saddle 3 can be made from a specially adapted material that is harder than the saddle 3 itself.
The cross-sectional view through the adjustment turret 1 of
The scale ring 5 and the indicator rings 2 include axially superimposed ratchet lock rings 32 and peripheral grooves 33 at their inner circumferential surface. Seal/slide elements, not shown, can be included between the superimposed surfaces of the scale and indicator rings. For the mechanical centering of the rings (6, 2, 5), the non-depicted seal/slide elements advantageously include a square cross-section, or a rectangular cross-section. The outer surfaces of the rings can overlap each other (
Depending on the rotational setting of the cam disc 7, a cam 18 is engages the upper surface of the sleeve elements 30. The cam 18 is formed such that in the event of rotation of the cam disc 7 it only acts on one of the lock slides 27, 28 at a time. Absent engagement by a cam 18, the respective sleeve element is lifted by a compression spring 25′ supported against the smaller diameter of the cylindrical pin 29, wherein the respective latch protrusion 31 engages the respective lock ring 32, as shown at the scale ring lock slide 27. Under engagement of the cam 18, the latch protrusion 31 is pressed into the peripheral groove 33, as illustrated at the scale ring lock slide 28. In the window 10 of the display disc 11, a respective indicator ring 2 display symbol 9 is displayed. Only the indicator ring 2 shown in the display as released can be freely rotated.
In the perspective view of
A locking ratchet toothing 34 is provided at an inner surface of the saddle 3, serving the adjustment turret 1 lock previously described prior in
In the outer circumferential surface of the cylindrical body of the base 13, known click/lock elements 35 are arranged, which engage the lock rings 32 of the scale/indicator rings 2, 5 to prevent rotation and to generate a clicking sound.
In the upper surface of the base 13 receptacle holes can be provided, in this embodiment only a single bore 36 for a not further illustrated lock element, for example a spring mounted ball, which can work with the ratchet notches 38 depicted in
Shown in
Ratchet notches 38 are included in an inner circumference of the underside of the cam disc 7, which in conjunction with the previously described lock elements, for example a spring mounted ball in the bore(s) 36 of the upper surface of the base 13, serves to hold the cam disc 7 at the set display symbols 9, 9′, 9″, 9′″.
In the detail section of an alternatively configured adjustment turret 1 shown in
The uppermost arranged indicator ring 2 is provided for simple gripping with an adjustment protrusion. The indicator rings 2 include axially stacked lock rings 32 and peripheral grooves 33 at their inner peripheral surface. A seal/slide element 40 is included in the space between the adjustment ring 6 and the uppermost indicator ring 2, and included in other functional elements moveable relative to one another. The inner and outer surfaces of the rings (6, 2) include inner and outer overlap and centering sections, in order to center the rings (6, 2, 5) relative to each other and enhance the seal.
Number | Date | Country | Kind |
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102018119869.8 | Aug 2018 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/DE2019/100725 | 8/13/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2020/035110 | 2/20/2020 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
7578091 | Klepp | Aug 2009 | B2 |
7581346 | Klepp | Sep 2009 | B2 |
8166697 | Sueskind | May 2012 | B1 |
8904696 | Geller | Dec 2014 | B2 |
9188408 | Huynh | Nov 2015 | B2 |
10054398 | White | Aug 2018 | B2 |
10724829 | Ding | Jul 2020 | B1 |
20040144013 | Leatherwood | Jul 2004 | A1 |
20070240356 | Klepp et al. | Oct 2007 | A1 |
20080289239 | Menges | Nov 2008 | A1 |
20160274619 | Windauer | Sep 2016 | A1 |
20170254620 | Dasukevich | Sep 2017 | A1 |
20230099212 | Toy | Mar 2023 | A1 |
Number | Date | Country |
---|---|---|
516034 | Feb 2016 | AT |
616034 | Feb 2016 | AT |
202012012707 | Sep 2013 | DE |
102017129682 | Jun 2019 | DE |
Entry |
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Patent Cooperation Treaty International Preliminary Report on Patentability PCT/DE2019/100725. |
Number | Date | Country | |
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20210302127 A1 | Sep 2021 | US |