Cap and cartridge assembly

What is claimed is: 1. A cap for sealing a cartridge containing fluid, the cartridge including a cartridge body and a flange extending outwardly from the cartridge body, the cartridge body defining a cartridge outlet, the cap comprising: a cap body including a cap wall and an annular wall extending from the cap wall in a proximal direction, the annular wall defining a channel within and including a retention member; a plug positioned at least partially within the channel of the cap body, the plug being configured to substantially seal the cartridge outlet; and a biasing member configured to provide a biasing force to bias the cap wall in a distal direction opposite the proximal direction, wherein the cap is configured to rotatingly transition between a locked position and an unlocked position, wherein in the locked position the retention member is secured to the flange of the cartridge and the plug substantially seals the cartridge outlet, wherein the biasing force provided by the biasing member retains the cap in the locked position, and wherein in the unlocked position the retention member is not secured to the flange, wherein the cap includes at least one of the following features: (a) the retention member includes a barb, a stop spaced apart from the barb, and a base extending circumferentially about the annular wall from the bard to the stop, wherein the barb, the stop, and the base define a retention channel and the flange is positioned within the retention channel when the cap is in the locked position; (b) the retention member is disposed on an outer surface of the annular wall; (c) the plug includes a plug wall extending substantially perpendicular to the proximal direction and a plug member extending from the plug wall in the proximal direction, wherein the biasing member is positioned between the plug wall and the cap wall and the biasing force biases the cap wall away from the plug wall; and/or (d) the biasing member is formed on a distal side of a plug wall of the plug such that the plug and the biasing member form a single component. 2. The cap of claim 1 , wherein the cap is further configured to transition to a released position, wherein the cap transitions between the unlocked position and the released position by rotating the cap body relative to the cartridge body, and wherein the cap transitions from the released position to the locked position by moving the cap body in the distal direction relative to the cartridge body, wherein the biasing force provided by the biasing member biases the cap into the locked position from the released position. 3. The cap of claim 2 , wherein, in the locked position, rotation of the cap body relative to the cartridge body is substantially prevented, wherein an unlock force applied to the cap body in the proximal direction transitions the cap from the locked position to the released position, wherein the unlock force is greater than the biasing force provided by the biasing member. 4. The cap of claim 1 , wherein the cap includes at least feature (c) and the biasing member is formed on a proximal side of the cap wall such that the cap body and the biasing member form a single component. 5. The cap of claim 1 , wherein the cap includes at least feature (c) and the biasing member comprises a spring. 6. The cap of claim 1 , wherein the cap includes at least feature (c) and the cartridge outlet is a first cartridge outlet, the cartridge body further defining a second cartridge outlet, and wherein the plug member is a first plug member, the plug further including a second plug member extending from the plug wall in the proximal direction, wherein the first plug member is configured to substantially seal the first cartridge outlet, and the second plug member is configured to substantially seal the second cartridge outlet. 7. The cap of claim 1 , wherein the biasing member is positioned between a proximal end of the annular wall of the cap body and a proximal end of the cartridge body. 8. A fluid cartridge assembly comprising: a fluid cartridge comprising: a cartridge body defining a cartridge outlet, and a flange extending outwardly from the cartridge body; and the cap of claim 1 . 9. The fluid cartridge assembly of claim 8 , wherein the cap is further configured to transition to a released position, wherein the cap transitions between the unlocked position and the released position by rotating the cap body relative to the cartridge body, and wherein the cap transitions from the released position to the locked position by moving the cap body in the distal direction relative to the cartridge body, wherein the biasing force provided by the biasing member biases the cap into the locked position from the released position. 10. The fluid cartridge assembly of claim 9 , wherein, in the locked position, rotation of the cap body relative to the cartridge body is substantially prevented, wherein an unlock force applied to the cap body in the proximal direction transitions the cap from the locked position to the released position, wherein the unlock force is greater than the biasing force provided by the biasing member. 11. The fluid cartridge assembly of claim 8 , wherein the plug includes a plug wall and a plug member extending from the plug wall in the proximal direction, wherein the cartridge outlet defined by the cartridge body is a first cartridge outlet, wherein the plug member of the plug is a first plug member, wherein the cartridge body further defines a second cartridge outlet, wherein the plug further includes a second plug member extending from the plug wall in the proximal direction, and wherein in the locked position the second plug member substantially seals the second cartridge outlet. 12. The fluid cartridge assembly of claim 8 , wherein the biasing member is positioned between a proximal end of the annular wall of the cap body and a distal end of the cartridge body. 13. The fluid cartridge assembly of claim 12 , wherein the biasing member is formed on a distal side of the cartridge body such that the cartridge body and the biasing member form a single component. 14. The fluid cartridge assembly of claim 12 , wherein the biasing member is in direct contact with the proximal end of the annular wall when the cap is in the locked position. 15. The fluid cartridge assembly of claim 12 , wherein the plug includes a plug wall and a plug member extending from the plug wall in the proximal direction, and wherein the biasing member is positioned between the plug wall and the cap wall. 16. The cap of claim 1 , wherein the cap includes at least one of features (c) and (d) and the plug wall is configured to be slidable within the channel. 17. A cap for sealing a cartridge containing fluid, the cap comprising: a cap body including a cap wall and an annular wall extending from the cap wall in a proximal direction, the annular wall defining a channel within, the annular wall including a retention member having a barb, a stop spaced apart from the barb, and a base extending circumferentially about a portion of the annular wall from the barb to the stop, wherein the barb, the stop, and the base define a retention channel; a plug positioned at least partially within the channel of the cap body, the plug including a plug wall and a first plug member extending from the plug wall in the proximal direction and a second plug member extending from the plug wall in the proximal direction; and a biasing member positioned within the channel of the cap body between the plug wall and the cap wall, the biasing member being configured to provide a b