Elevator with compensating device

We claim: 1. An elevator comprising: an elevator cage disposed in a shaft; a counterweight disposed in the shaft; a suspension device coupled to the elevator cage and the counterweight; a compensation device for the suspension device, the compensation device being coupled to the elevator cage and the counterweight; a guide device for the compensation device, the guide device causing the compensation device to form a linear part, a loop part and a curved part, the loop part and curved part together having a parabolic form; a monitoring device at the guide device, the monitoring device having a detection region, the monitoring device being triggered by the loop part of the compensation device being in the detection region; the monitoring device comprising a sensor, the sensor comprising a line resiliently mounted between a first bracket and a second bracket to form a longitudinal axis, the line passing through a plane spanned by the loop part; and a cam being configured to move along the longitudinal axis in case of deflection of the line by the loop part. 2. The elevator of claim 1 , the monitoring device being coupled to an elevator drive, the monitoring device being configured to generate, upon being triggered, a fault signal for switching off the elevator drive. 3. The elevator of claim 1 , the sensor acting at approximately right angles or at an inclination to the plane. 4. The elevator of claim 1 , further comprising an electrical switch that turns off an elevator drive upon detecting movement of the cam. 5. An elevator comprising: an elevator cage disposed in a shaft; a counterweight disposed in the shaft; a suspension device coupled to the elevator cage and the counterweight; a compensation device for the suspension device, the compensation device being coupled to the elevator cage and the counterweight; a guide device for the compensation device, the guide device causing the compensation device to form a linear part, a loop part and a curved part, the loop part and curved part together having a parabolic form; a monitoring device at the guide device, the monitoring device having a detection region, the monitoring device being triggered by the loop part of the compensation device being in the detection region; the monitoring device comprising a sensor, the sensor comprising a light beam that passes through the plane spanned by the loop part, the sensor being configured to turn off an elevator drive when the light beam is interrupted, the light beam corresponding to the detection region. 6. An elevator method, comprising: monitoring a detection region of a monitoring device arranged in an elevator shaft, an elevator cage and a counterweight also being arranged in the elevator shaft, a suspension device being coupled to the elevator cage and the counterweight, a compensation device for the suspension device being coupled to the elevator cage and the counterweight, the compensation device being guided by a guide device forming a linear part, a loop part and a curved part, the loop part and the curved part together having a parabolic form, the monitoring device being arranged near the guide device, the monitoring device comprising a sensor, the sensor comprising a line resiliently mounted between a first bracket and a second bracket to form a longitudinal axis, the line passing through a plane spanned by the loop part, and a cam being configured to move along the longitudinal axis in case of deflection of the line by the loop part, the monitoring device being triggered by the loop part of the compensation device being in the detection region; generating a fault signal upon detecting that the loop part of the compensating device has entered the detection region of the monitoring device. 7. The method of claim 6 , further comprising: switching off an elevator drive based on the fault signal; and engaging a drive brake on the fault signal.