Filter connection for a smoke evacuation device

What is claimed is: 1 . A filter connection for a smoke evacuation system, comprising: a filter canister comprising: a body; a connection nipple disposed at an end of the body; a seal disposed around the connection nipple; and a first electronic connector; a housing having a socket, the socket comprising: a first recess configured to receive the canister body; a second recess configured to receive the connection nipple; and a second electronic connector; and wherein a first longitudinal distance between the seal and the first electronic connector is greater than a second longitudinal distance between the second recess and the second electronic connector so that a sealed airflow path extending from the connection nipple to the second recess is made before the first and second electronic connectors meet when the filter canister is inserted into the socket. 2 . The filter connection of claim 1 , wherein the seal is an O-ring that creates an airtight boundary between an outside surface of the connection nipple and an inside surface of the second recess. 3 . The filter connection of claim 2 , wherein the seal creates the airtight boundary when the filter canister is partially inserted into the socket. 4 . The filter connection of claim 1 , wherein the socket further comprises a transition surface connecting the first and second recesses, wherein the first electronic connector is disposed at a second end of the filter canister and the second electronic connection is disposed at the transition surface of the socket. 5 . The filter connection of claim 4 , wherein the first electronic connector and second electronic connector come into contact with each other when the filter canister is fully inserted into the socket. 6 . The filter connection of claim 1 , wherein the socket further comprises an opening in the housing, wherein the first electronic connector is disposed at a first end of the filter canister and the second electronic connector is disposed at the opening of the socket so that the first and second electronic connectors meet when the filter canister is fully inserted into the socket. 7 . The filter connection of claim 1 , wherein the second end of the filter canister comprises a cross-sectional shape having only one line of symmetry. 8 . The filter connection of claim 7 , wherein the first recess comprises a cross-sectional shape having only one line of symmetry. 9 . The filter connection of claim 1 , wherein the second end of the filter canister comprises a key notch. 10 . The filter connection of claim 9 , wherein the first recess comprises a key groove configured to correspond to the key notch. 11 . The filter connection of claim 1 , wherein the second end of the filter canister comprises an at least partially conical surface. 12 . The filter connection of claim 11 , the socket comprising a partially conical transition surface between the first recess and the second recess, the transition surface being configured to mate with the at least partially conical surface of the filter canister. 13 . The filter connection of claim 1 , the connection nipple further comprising a cylindrical outer surface and an inner pathway through which a filtered gas may pass. 14 . The filter connection of claim 13 , wherein the second recess of the socket communicates with an airflow path of the smoke evacuation system, wherein the filtered gas can pass through the inner pathway and into the airflow path of the smoke evacuation system when the filter canister is fully inserted into the socket. 15 . A filter canister for a smoke evacuation system, comprising: a first end having an inlet port; a second end having a cross-sectional shape with only one line of symmetry; an electronic connector disposed at either the first end or the second end; and a connection nipple disposed at the second end; 16 . The filter canister of claim 15 , further comprising a key notch. 17 . The filter canister of claim 15 , further comprising a seal disposed around the connection nipple. 18 . The filter canister of claim 15 , further comprising a body extending between the first and second ends. 19 . The filter canister of claim 18 , wherein a cross-sectional shape of the body has only one line of symmetry, the cross-sectional shape of the body being substantially similar to the cross-sectional shape of the second end. 20 . A method for connecting a filter in a smoke evacuation system, the method comprising: providing a filter canister; providing a socket in the smoke evacuation system housing; inserting the filter canister a first distance into the socket so that the filter canister creates an airtight boundary between the filter canister and the socket; and inserting the filter canister a second distance into the socket so that an electronic connection is made between the filter canister and the socket; wherein the second distance is greater than the first distance. 21 . The method of claim 20 , the method further comprising: before inserting the filter canister into the socket, aligning the filter canister with the socket so that cross-sectional shapes of the filter canister and socket coincide, the alignment allowing the filter canister to be inserted into the socket. 22 . The method of claim 20 , the method further comprising: before inserting the filter canister into the socket, aligning the filter canister with the socket so that a key notch in the filter canister coincides with a key groove of the socket, the alignment allowing the filter canister to be inserted into the socket.