Recovery system for an inkjet type dispenser

The invention claimed is: 1. A single valve assembly for an inkjet type dispenser having multiple bi-stable cam actuated valves each to open and close a corresponding one of multiple separate liquid flow channels, wherein, while the multiple separate liquid flow channels are open a first resistance to a flow of fluid to a printhead unit coupled to the single valve assembly is greater than a second resistance to a flow of liquid to a removable container coupled to the single valve assembly. 2. The assembly of claim 1 , comprising a single driver operatively connected to an actuator cam to open all of the valves simultaneously and to close all of the valves simultaneously. 3. The assembly of claim 2 , comprising an actuator having multiple cams and corresponding cam followers each to open and close a single one of the valves. 4. The assembly of claim 1 , comprising multiple cams and corresponding cam followers each to open and close a single one of the valves. 5. The assembly of claim 4 , wherein the cams and followers are arranged with respect to one another to open all of the valves simultaneously and to close all of the valves simultaneously. 6. The assembly of claim 4 , comprising a single motor to turn all of the cams simultaneously. 7. A valve assembly for an inkjet type dispenser, comprising: a body; a flow channel through the body; a seat in the body; a movable stem mounted in the body; a disc movable with the stem into the seat to close the flow channel and out of the seat to open the flow channel, wherein while the flow channel is open a first resistance to a flow of liquid to a printhead unit is greater than a second resistance to a flow of liquid to a removeable container; and an actuator operatively connected to the stem to move the disc into and out of the seat, the actuator comprising: a shaft; a cam on the shaft; and a follower connected to the stem, the follower having a first surface to engage and follow the cam in a first direction to move the disc into the seat in a closed position and a second surface opposite the first surface to engage and follow the cam in a second direction opposite the first direction to move the disc out of the seat in an open position, the cam and the follower arranged with respect to one another so that the cam exerts a force on the follower along a line through a center of the shaft in both the closed and open positions. 8. The assembly of claim 7 , wherein: the body is a single body; the flow channel comprises multiple separate flow channels; the seat comprises multiple seats each for a corresponding flow channel; the stem comprises multiple stems; the disc comprises multiple discs each movable with a corresponding one of the stems into and out of a corresponding one of the seats; the cam comprises multiple cams rotatable together simultaneously on a single shaft; and the follower comprises multiple followers each connected to a corresponding one of the stems and each to follow a corresponding one of the cams. 9. The assembly of claim 8 , wherein the cams and followers are arranged with respected to one another to open all of the separate flow channels simultaneously and to close all of the separate flow channels simultaneously. 10. The assembly of claim 8 , including a single motor to turn the shaft. 11. The assembly of claim 7 , including: a first stop to stop the cam rotating past the closed position; and a second stop to stop the cam rotating past an open position. 12. A liquid recovery system for an inkjet type dispenser, comprising: a reservoir; an interconnect to connect to a removable container; a flow channel from the reservoir to a printhead unit and back to the reservoir and from the reservoir to the interconnect; a pump to pump ink from the reservoir along the flow channel; and a bi-stable cam actuated valve to open and close the flow channel downstream from the pump between the reservoir and the interconnect, wherein, while the flow channel is open a first resistance to a flow of liquid to the printhead unit is greater than a second resistance to a flow of liquid to the removable container. 13. The system of claim 12 , comprising a pressure control device to inhibit the flow of liquid to the printhead unit so that the first resistance is greater than the second resistance. 14. The system of claim 12 , wherein the valve comprises: a body; a seat in the body; a movable stem mounted in the body; a disc movable with the stem into the seat to close the flow channel and out of the seat to open the flow channel; and an actuator operatively connected to the stem to move the disc into and out of the seat, the actuator comprising: a shaft; a cam on the shaft; and a follower connected to the stem, the follower having a first surface to engage and follow the cam in a first direction to move the disc into the seat in a closed position and a second surface opposite the first surface to engage and follow the cam in a second direction opposite the first direction to move the disc out of the seat in an open position, the cam and the follower arranged with respect to one another so that the cam exerts a force on the follower along a line through a center of the shaft in both the closed and open positions. 15. A liquid recovery system for an inkjet type dispenser, comprising: multiple separate reservoirs; multiple separate interconnects each to connect to a corresponding removable container; multiple separate flow channels each from a corresponding reservoir to a printhead unit and back to the corresponding reservoir and from the corresponding reservoir to a corresponding interconnect; a pump to pump ink from each reservoir along the corresponding flow channel; and a single bi-stable cam actuated valve assembly to open and close each flow channel downstream from the pump between the reservoir and interconnect, wherein, while the multiple separate flow channels are open a first resistance to a flow of fluid to the printhead unit is greater than a second resistance to a flow of liquid to the corresponding removable container. 16. The system of claim 15 , where the pump comprises multiple pumps each to pump ink from a corresponding reservoir along the corresponding flow channel. 17. The system of claim 15 , wherein the valve assembly comprises: a single body defining a part of each flow channel from the reservoir to the interconnect; multiple seats in the body; multiple movable stems mounted in the body; multiple discs each movable with one of the stems into a corresponding seat to close the flow channel and out of the seat to open the flow channel; and an actuator operatively connected to the stems to move the discs into and out of the seats, the actuator comprising: a single shaft mounted in the body; multiple cams on the shaft; and a follower connected to each stem, the follower having a first surface to engage and follow a corresponding one of the cams in a first direction to move each disc into a seat in a closed position and a second surface opposite the first surface to engage and follow the corresponding cam in a second direction opposite the first direction to move each disc out of a seat in an open position, the cams and the followers arranged with respect to one another so that each cam exerts a force on the corresponding follower along a line through a center of the shaft in both the closed and open positions. 18. The system of claim 17 , comprising a single motor to turn the shaft.