Electronic vapor provision system

1 . Apparatus comprising a first unit for connection by a bayonet fitting to a second unit in an electronic vapor provision system having a longitudinal axis, wherein the bayonet fitting provides a mechanical and electrical connection between the first and second units, the first unit being arranged to: receive insertion of the second unit along said longitudinal axis to a first engagement position of the bayonet fitting; and allow the second unit to rotate about the longitudinal axis from the first engagement position to a final engagement position that prevents both (i) relative movement of the first and second units along said longitudinal axis, and (ii) rotation of the second unit past the final engagement position further away from the first engagement position; and wherein the first unit further includes in the bayonet fitting a biasing means that applies a rotational bias against rotation of the second unit from the final engagement position back to the first engagement position. 2 . The apparatus of claim 1 , wherein a transition point is located between the first engagement position and the final engagement position, and when the second unit is located between the first engagement position and the transition point, the bias means applies a rotational bias in favor of rotation of the second unit in a rotational direction from the final engagement position towards the first engagement position, and when the second unit is located between the final engagement position and the transition point, the bias means applies a rotational bias in favor of rotation of the second unit in a rotational direction from the first engagement position towards the final engagement position. 3 . The apparatus of claim 2 , wherein the bias means suffers elastic deformation as the second unit is rotated between the first engagement position and the final engagement position, and wherein the elastic deformation is a maximum at said transition point. 4 . The apparatus of claim 3 , wherein said elastic deformation is primarily in a radial direction with respect to the longitudinal axis. 5 . The apparatus of claim 4 , wherein said elastic deformation is caused by at least one protruding member on the second unit, and wherein said transition point occurs when the biasing means has a tangential configuration with respect to the rotation of said at least one protruding member. 6 . The apparatus of claim 5 , wherein said biasing means comprises a substantially U-shaped member a pair of opposing arms that joined together by an arc section, wherein said a rotational bias against rotation of the second unit from the final engagement position back to the first engagement position is caused by separation of the arms from a rest position. 7 . The apparatus of claim 6 , wherein the arc section is substantially coaxial with said longitudinal axis. 8 . The apparatus of claim 7 , wherein the arc section is rotationally located with respect to said first and final engagement positions such that said rotational bias is applied when the first and second units are in the final engagement position. 9 . The apparatus of claim 8 , wherein the first unit includes a connector which includes: one or more channels for receiving a respective protruding member of the second unit; and a pair of windows for receiving a respective opposing arm of said substantially U-shaped member, wherein the second unit has two protruding members that contact the bias means through a respective window. 10 . The apparatus of claim 9 , wherein the one or more channels for receiving a respective protruding member of the second unit act to guide the second unit as it is inserted into the first unit to the first engagement position and then rotated from the first engagement position to the final engagement position. 11 . The apparatus of claim 1 , wherein said rotational bias is applied when the first and second units are in the final engagement position. 12 . The apparatus of claim 1 , wherein said first unit comprises a body portion of an electronic vapor provision system, said body including a cell or battery and a control circuit. 13 . An electronic vapor provision system comprising: the apparatus of claim 12 as the body portion; and a cartomizer as the second unit, wherein said cartomizer includes a reservoir of a substance and a heater powered by the cell or battery of said portion for vaporizing said substance. 14 . An electronic vapor provision system comprising: a first unit comprising a battery or cell; a second unit comprising a heater and a nicotine source for producing nicotine vapor when heated; wherein the first unit and the second unit comprise a bayonet fitting for providing a mechanical and electrical connection between the first and second unit, wherein said electrical connection allows the battery or cell to provide power to the heater to produce nicotine vapor from the nicotine source; wherein the electronic vapor provision system has a longitudinal axis, and the bayonet fitting is configured such that the first and second units are connected by: relative movement of the first and second units along said longitudinal axis to a first engagement position; and relative rotation of the first and second units about the longitudinal axis from the first engagement position to a final engagement position that prevents both (i) relative movement of the first and second units along said longitudinal axis, and (ii) relative rotation of the first and second units further away from the first engagement position; and wherein the bayonet fitting further includes a biasing means that provides a rotational bias to prevent rotation of the first and second units from the final engagement position to the first engagement position. 15 . The system of claim 14 , wherein a transition point is located between the first engagement position and the final engagement position, and when the first and second units are located between the first engagement position and the transition point, the bias means applies a rotational bias in favor of relative rotation of the first and second units in a rotational direction from the final engagement position towards the first engagement position, and when the first and second units are located between the final engagement position and the transition point, the bias means applies a rotational bias in favor of relative rotation of the first and second units in a rotational direction from the first engagement position towards the final engagement position. 16 . The system of claim 15 , wherein the bias means suffers elastic deformation as the first and second units are rotated between the first engagement position and the final engagement position, and wherein the elastic deformation is a maximum at said transition point. 17 . The system of claim 16 , wherein said elastic deformation is primarily in a radial direction with respect to the longitudinal axis. 18 . The system of claim 17 , wherein said elastic deformation is caused by at least one protruding member on the first or second unit, and wherein said transition point occurs when the biasing means has a tangential configuration with respect to the rotation of said at least one protruding member. 19 . The system of claim 18 , wherein said biasing means comprises a substantially U-shaped member a pair of opposing arms that joined together by an arc section, wherein said a rotational bias is caused by separation of the arms from a rest position. 20 . The system of claim 19 , whe