Defrost airflow assembly for a heating, ventilation, and air-conditioning (HVAC) case

The invention claimed is: 1 . A defrost airflow assembly for a heating, ventilation, and air-conditioning (HVAC) case, comprising: a first defrost channel starting in a mixing chamber and terminating in a first defrost outlet with a first defrost door movable between an open position and a closed position so as to sealingly divide the defrost channel into a pre-door first defrost channel and a post-door first defrost channel; a first demist channel starting in the mixing chamber and terminating in a first demist outlet with a first demist door movable between an open position to a closed position so as to sealingly divide the first demist channel into a pre-door first demist channel and a post-door first demist channel; a first bypass channel connected directly with the post-door first defrost channel and the post-door first demist channel, and indirectly with the pre-door first defrost channel and the pre-door first demist channel; wherein the first bypass channel is configured to allow airflow from the mixing chamber to the first defrost outlet when the first defrost door is in the closed position and the first demist door is in the open position. 2 . The defrost airflow assembly according to claim 1 , wherein the first bypass channel is connected with the pre-door first defrost channel and the pre-door first demist channel exclusively through the post-door first defrost channel and the post-door first demist channel so that any airflow from the mixing chamber has to first pass through any of the pre-door first defrost channel and the pre-door first demist channel to reach any of the post-door first defrost channel and the post-door first demist channel. 3 . The defrost airflow assembly according to claim 1 , wherein the first defrost door and the first demist door are adapted to collectively block the airflow through the defrost airflow assembly when both in their respective closed positions. 4 . The defrost airflow assembly according to claim 1 , wherein the first defrost door is configured to seal the first defrost outlet with respect to the pre-door first defrost channel in the closed position of the first defrost door. 5 . The defrost airflow assembly according to claim 1 , wherein the first defrost door is configured to allow airflow between the first bypass channel and the first defrost outlet in the closed position of the first defrost door. 6 . The defrost airflow assembly according to claim 1 , wherein the first demist door is configured to seal the pre-door first demist channel with respect to the first demist outlet and the first bypass channel in the closed position of the first demist door. 7 . The defrost airflow assembly according to claim 1 , wherein the first defrost door has a first defrost door rotation axis, and the first demist door has a first demist door rotation axis. 8 . The defrost airflow assembly according to claim 7 , wherein the first bypass channel extends along a first bypass channel extension axis which is parallel to the first defrost door rotation axis or the first demist door rotation axis. 9 . The defrost airflow assembly according to claim 7 , wherein the first bypass channel extends along a first bypass channel extension axis which is parallel to the first defrost door rotation axis and the first demist door rotation axis. 10 . The defrost airflow assembly according to claim 7 , wherein the first defrost door rotation axis and the first demist door rotation axis are coaxial. 11 . The defrost airflow assembly according to claim 1 , wherein the first defrost channel and the first demist channel extend in parallel defining thereby a separation section therebetween. 12 . The defrost airflow assembly according to claim 11 , wherein the first bypass channel extends at least partly within the separation space. 13 . The defrost airflow assembly according to claim 11 , wherein the first bypass channel extends exclusively within the separation space. 14 . The defrost airflow assembly according to claim 1 , wherein the first bypass channel has a sidewall defining an elongated passage between the first defrost channel and the first demist channel. 15 . The defrost airflow assembly according to claim 1 , wherein the elongated passage has a cross-section of an ovate shape. 16 . A heating, ventilation, and air-conditioning (HVAC) case, comprising a housing and a defrost airflow assembly including: a first defrost channel starting in a mixing chamber and terminating in a first defrost outlet with a first defrost door movable between an open position and a closed position so as to sealingly divide the defrost channel into a pre-door first defrost channel and a post-door first defrost channel; a first demist channel starting in the mixing chamber and terminating in a first demist outlet with a first demist door movable between an open position to a closed position so as to sealingly divide the first demist channel into a pre-door first demist channel and a post-door first demist channel; a first bypass channel connected directly with the post-door first defrost channel and the post-door first demist channel, and indirectly with the pre-door first defrost channel and the pre-door first demist channel; wherein the first bypass channel is configured to allow airflow from the mixing chamber to the first defrost outlet when the first defrost door is in the closed position and the first demist door is in the open position.