Latch mechanism for preventing lancet oscillation in a lancing device

1. A device for lancing skin, comprising:

• a lancet having a sharp tip for puncturing the skin during a lancing stroke;
  
  a carrier holding the lancet and movable through the lancing stroke from a retracted position, through a forward portion of the lancing stroke, to an advanced position puncturing the skin, and through a return portion of the lancing stroke, the lancing stroke defining a lancing stroke axis;
  
  a drive mechanism operable to drive the lancet carrier through the lancing stroke;
  
  a charging mechanism operable to charge the drive mechanism; and
  
  a latch mechanism operable to permit the lancet carrier to travel through the lancing stroke but prevent excess oscillation of the lancet carrier, wherein the latch mechanism includes a latch member, a spring-biased latch retainer, a latch-pivoting element of the charging mechanism, and a pressed surface and a latch-engaging element of the lancet carrier, wherein the latch member includes a charge-pivot cam surface, a pressing surface, and a drive-stop surface, and wherein the latch member pivots between a blocking position, an intermediate non-blocking position, and a press non-blocking position, and is spring-biased to the blocking position,wherein operating the charging mechanism to charge the drive mechanism prior to the lancing stroke moves the latch-pivoting element of the charging mechanism into engagement with the charge-pivot cam surface of the latch member to pivot the latch member from the blocking position to the intermediate non-blocking position, wherein the latch retainer retains the latch member in the intermediate non-blocking position to prevent reverse pivoting of the latch member,wherein as the lancet carrier travels along the forward portion of the lancing stroke the latch retainer is withdrawn from engagement with the latch member and the latch member reverse pivots to the press non-blocking position with the pressed surface of the lancet carrier interfering with the pressing surface of the latch member to prevent reverse pivoting of the latch member to the blocking position,wherein as the lancet carrier travels along the return portion of the lancing stroke the pressed surface of the lancet carrier clears interference with the pressing surface of the latch member and the latch member reverse pivots to the blocking position,wherein, with the latch member in the blocking position, if the lancet carrier is driven along the forward portion of the lancing stroke a second time the drive-stop surface of the latch member engages and blocks the latch-engaging element of the lancet carrier to prevent excess lancet-carrier oscillation, andwherein the latch member further includes a spring-deflection surface and an anti-pivot surface, wherein when the latch member is in the blocked position, the spring-biased latch retainer is in a charged state biasing against the spring-deflection surface, and when the latch member is pivoted out of the blocking position, the spring-biased latch retainer moves out of engagement with the spring-deflection surface as it discharges and moves into engagement with the anti-pivot surface to retain the latch member in the intermediate non-blocking position.