Abstract: An adjusting turret for a long-range optical device, in particular a telescopic sight, includes a rotary cap rotatable about a rotary axis and at least one locking ring having a toothing and at least one locking element cooperating permanently with the toothing. The at least one locking element is moved by rotating the rotary cap out of a first, non-locked engagement position, in which the at least one locking element is in engagement with a first portion of the toothing of the at least one locking ring, overcoming a rotary resistance produced by the force of at least one elastic element into a second, non-locked engagement position, in which the at least one locking element is moved into engagement with a second, portion of the toothing of the locking ring. The adjusting turret includes at least one adjusting element in particular for the stepless adjustment of the rotary resistance.
Abstract: An adjusting turret for a telescopic sight or reflex sight includes a rotary cap, which is rotatable about a rotary axis by applying a first torque, as an actuator for a spindle, wherein the rotary cap includes at least one rotation stop which is rotatable relative to the spindle about the rotary axis by applying a second torque that is smaller than the first torque, wherein the adjusting turret has at least one scale which is arranged on a part that is separate from the rotation stop.
Abstract: An adjusting turret for a telescopic sight or reflex sight includes a rotary cap, which is rotatable about a rotary axis by applying a first torque, as an actuator for a spindle, wherein the rotary cap includes at least one rotation stop which is rotatable relative to the spindle about the rotary axis by applying a second torque that is smaller than the first torque, wherein the adjusting turret has at least one scale which is arranged on a part that is separate from the rotation stop.
Abstract: An adjusting turret for a long-range optical device, in particular a telescopic sight, includes a rotary cap rotatable about a rotary axis and at least one locking ring having a toothing and at least one locking element cooperating permanently with the toothing. The at least one locking element is moved by rotating the rotary cap out of a first, non-locked engagement position, in which the at least one locking element is in engagement with a first portion of the toothing of the at least one locking ring, overcoming a rotary resistance produced by the force of at least one elastic element into a second, non-locked engagement position, in which the at least one locking element is moved into engagement with a second portion of the toothing of the locking ring. The adjusting turret includes at least one adjusting element in particular for the stepless adjustment of the rotary resistance.