Systems and methods for automatically adjusting needle penetration depth for auto-injector devices

Therefore, at least the following is claimed: 1. An auto-injector device, comprising: a needle; a needle housing, the needle being moveably disposed within the needle housing; a compression mechanism comprising a spring coupled adjacent to a top portion of a compression sleeve, the compression mechanism surrounding a lower portion of the needle housing; and a needle depth estimator coupled to the compression sleeve of the compression mechanism, the needle depth estimator comprising a pulley system and an arm coupled to and being substantially perpendicular to the pulley system, the arm extending from the pulley system and into an inner portion of the needle housing and being designed to engage with a needle stop of the needle and restrict downward movement of the needle, and the needle depth estimator being designed to automatically adjust a position of the arm within the needle housing based at least in part on movement of the compression mechanism about the needle housing. 2. The auto-injector device of claim 1 , wherein the spring being designed to create a force that limits an upward movement of the compression sleeve about the needle housing. 3. The auto-injector device of claim 1 , wherein an upward movement of the compression sleeve about a longitudinal axis of the needle housing causes the arm of the needle depth estimator to move in a downward direction about the longitudinal axis of the needle housing. 4. The auto-injector device of claim 1 , wherein a needle depth of the needle penetrating a surface is based at least in part a level of softness of the surface. 5. The auto-injector device of claim 1 , wherein the pulley system of the needle depth estimator is designed to move the position of the arm in a direction opposite of the direction of movement of the compression sleeve in response to the movement of the compression sleeve. 6. The auto-injector device of claim 1 , wherein the needle depth estimator comprises a device configured to convert upward motion to downward deflection. 7. The auto-injector device of claim 1 , comprising a switch configured to select a sensitivity amplification factor for the needle depth estimator. 8. The auto-injector device of claim 7 , wherein the switch is configured to select a dosage amount of a drug that is dispensed through the needle. 9. The auto-injector device of claim 1 , comprising a gauge mechanism configured to monitor an amount of downward force exerted by a user of the auto-injector device and provide a feedback indication of the amount of downward force. 10. An auto-injector device comprising: a first tube; a second tube being moveably disposed around the first tube in a telescoping arrangement, the second tube being situated about a lower portion of the first tube; a spring disposed around the first tube and being adjacent to a top end of the second tube, the spring being designed to create a force that limits an upwards movement of the second tube about the first tube; and a depth estimation mechanism coupled to the second tube, the depth estimation mechanism comprising a pulley system and an arm coupled to the pulley system and being substantially perpendicular to the pulley system, the arm extending into an inner portion of the first tube, and the depth estimation mechanism being designed to adjust a position of the arm based at least in part on movement of the second tube. 11. The auto-injector device of claim 10 , wherein the first tube is a needle housing, and further comprising a needle being disposed within the first tube, and engagement of a needle stop of a needle with the arm restricts a downward movement of the needle about a longitudinal axis of the first tube. 12. The auto-injector device of claim 11 , wherein compression of a bottom end of the second tube on a target area corresponds to a level of softness of the target area, and a needle depth of the needle penetrating the target area is determined based at least in part on the level of softness. 13. The auto-injector device of claim 10 , wherein the pulley system is configured to convert an upward thrust associated with the second tube into a downward deflection of the arm. 14. The auto-injector device of claim 13 , wherein the pulley system comprises a material looped about one or more pulley components along a longitudinal axis of the first tube. 15. The auto-injector device of claim 10 , further comprising an outer sleeve disposed about the telescoping arrangement of the first tube and the second tube, wherein a force applied to the top of the outer sleeve by a user is transmitted via the outer sleeve to the first tube. 16. The auto-injector device of claim 15 , wherein a determination of whether the force exceeds a force threshold corresponding to a sufficient needle insertion is based at least in part on a deflection of the outer sleeve. 17. The auto-injector device of claim 16 , further comprising an indicator mechanism designed to indicate to the user whether the force applied corresponds to the sufficient needle insertion. 18. The auto-injector device of claim 15 , wherein needle insertion depth is further based in part on the force applied to the outer sleeve. 19. The auto-injector device of claim 10 , wherein the depth estimation mechanism comprises a deflection sensitivity adjustment, and further comprising a switch configured to select a sensitivity amplification factor for the deflection sensitivity adjustment. 20. The auto-injector device of claim 19 , wherein the switch is configured to select a dosage amount for dispensation by the auto-injector device.