Capping assembly for inkjet printhead

The invention claimed is: 1. A capping assembly for an inkjet printhead, the capping assembly comprising: a capper including a capping chamber having a perimeter seal for sealing engagement with the printhead, a drainage port extending from the floor of the capping chamber and a breather port defined in the capping chamber; and a bellows assembly external to the capper and connected to the breather port via a flexible breather tube, wherein: the bellows assembly is always closed to atmosphere when the capper is sealingly engaged with the printhead; a capping volume of the capping assembly is variable in response to relative differences in pressures inside and outside the capping volume; and the drainage port is configured to be closed during capping periods and open during at least some non-capping periods for drainage of excess ink from the capping chamber. 2. The capping assembly of claim 1 , wherein the capping chamber has a perimeter lip surrounding a mouth of the chamber, the perimeter seal being bonded to the perimeter lip. 3. The capping assembly of claim 1 , wherein the bellows flex in response to pressure changes. 4. The inkjet printer of claim 1 , wherein the bellows assembly comprises a plurality of concentric portions joined via concertinaed sidewalls. 5. The capping assembly of claim 1 , further comprising a movement mechanism for moving the capper relative to the printhead. 6. The capping assembly of claim 5 , wherein the capper is movable relative to the bellows. 7. A printer comprising: an inkjet printhead; and a capping assembly comprising: a capper including a capping chamber having a perimeter seal for sealing engagement with the printhead, a drainage port extending from the floor of the capping chamber and a breather port defined in the capping chamber; and a bellows assembly external to the capper and connected to the breather port via a flexible breather tube, wherein: the bellows assembly is always closed to atmosphere when the capper is sealingly engaged with the printhead; a capping volume of the capping assembly is variable in response to relative differences in pressures inside and outside the capping volume; and the drainage port is configured to be closed during capping periods and open during at least some non-capping periods for drainage of excess ink from the capping chamber.