In many kinds of printers printing includes delivering fluid from a fluid supply to a printhead. The fluid is ink or another fluid used in the printer. In some types of printers the fluid is contained in a fluid bag, wherein a closed pressurizing volume surrounds the fluid bag to expel fluid to the printhead when pressure is applied from a pressurizing system to the pressurizing volume. In some types of printers the printhead is part of a cartridge containing the fluid, in others the printhead is separate from a fluid supply. When printhead and fluid supply are separate, the printhead obtains fluid via a fluid delivering tube.
When the fluid delivering system is in a printing mode, fluid is delivered from the interior of the fluid bag 110 to the printhead 130 via the fluid delivering tube 150 when pressure is applied to the pressurizing volume 120 of the fluid supply 100.
An example pressurizing system 160 to apply pressure to the pressurizing volume 120 is shown in
The fluid delivering system includes a second pressure sensor 180 which provides an output signal that indicates a pressure difference between the pressurizing system 160, more particularly, the tubing 165, and the fluid delivering tube 150.
A controller 300 of the fluid delivering system is connected to the first and second pressure sensors 170, 180 and to the pump 140 to control the pressure applied to the pressurizing volume 120 of the fluid supply 100.
The output signal of the second sensor 180 that indicates a pressure difference between the pressurizing system 160 and the fluid delivering tube 150 is used to check the amount of fluid remaining in the fluid bag 110 of the fluid supply 100 until reaching an empty state. When the output signal of the second sensor 180 is properly calibrated, the amount of fluid remaining in the fluid bag 110 of the fluid supply 100 can be detected very precisely by the pressure difference between the pressurizing system 160 and the fluid delivering tube 150. By reading pressures from the second sensor 180, printer 200 malfunction or damage in the printhead 130 can be avoided.
When in the example the ink level inside the fluid bag 110 is over certain amount, the first sensor 170 measures the pressure in the tubing 165 of the pressurizing system 160 compared to atmosphere, and the second sensor 180 measures the difference between the tubing 165 and the fluid delivering tube 150. When, e.g. the fluid bag 110 is full the pressure difference as measured by the second sensor 180 is small, as can be seen on the left-hand side of
When the fluid bag 110 is almost empty of ink, so that increasing pressure in the pressurizing volume 120 is to expel the rest of ink from the fluid bag 110, the curve shown in
In general, to calibrate the second sensor 180 the pressurizing volume 120 of the fluid supply 100 is disconnected from the pressurizing system 160. A connection of the pressurizing volume 120 to atmosphere is established to transmit atmospheric pressure to the fluid in the fluid bag 120 and the fluid delivering tube 150, and pressure is generated in the pressurizing system 160.
Measurements of the pressure in the pressurizing system 160 relative to atmosphere by the first sensor 170 are taken and used to calibrate the second sensor 180.
As shown in the example of
In the example of
Referring back to
According to one example the blocking element 195 is a blocking valve which is operable to connect and to disconnect the pressurizing volume 120 of the fluid supply cartridge 100 from the pressurizing system 160. Similar, in an example, the vent 125 is a venting valve which is operable to provide and to close a connection of the pressurizing volume 120 to atmosphere.
In the example calibrating mode the fluid delivering system includes a fluid supply 100 having a fluid bag 110 which contains a fluid to be delivered to a fluid delivering tube 150 connected to a printhead 130, and a closed pressurizing volume 120 which surrounds the fluid bag 110 to expel fluid to the fluid delivering tube 150 when applying pressure from the pressurizing system 160, as illustrated in
The example method is started at 400. At 410 the pressurizing volume 120 of the fluid supply 100 is disconnected from the pressurizing system 160, and a connection of the pressurizing volume 120 to atmosphere is provided to transmit atmospheric pressure to the fluid in the pressurizing volume.
At 420 pressure in the pressurizing system 160 is generated. At 430 pressure in the pressurizing system relative to atmosphere is measured by the first sensor 170, and an output signal of second sensor 180 is provided which indicates a pressure difference between the pressurizing system 160 and the fluid delivering tube 150.
At 440 is decided whether enough measurements have been carried out to perform calibration of the second sensor 180. If No, return is to 420. If the decision at 440 is Yes, at 450 the output signal of the second sensor 180 is calibrated by the measurements of the first sensor 170, and the calibrating mode ends at 460.
Start is at 500. In the example printing mode a connection of the pressurizing volume 120 of the fluid supply 100 to atmosphere is blocked, and the pressurizing volume 120 of the fluid supply 100 has a connection to the pressurizing system 160, as indicated at 510.
At 520 pressure in the pressurizing system 160 is generated at a given pressure to expel fluid from the fluid bag 110 over the fluid delivering tube 150 to the printhead 130.
At 530 measurement of pressure relative to atmosphere is measured by the first sensor 170. At 540 measurement of the pressure difference between the pressurizing system 160 and the fluid delivering tube 150 is measured by the second sensor 180.
At 550 the output signal of the second sensor 180 is used to determine a remaining amount of fluid in the fluid bag 110 of the fluid supply 100. The method ends at 560.
In an example, connecting the pressurizing volume 120 of the fluid supply 100 to atmosphere and disconnecting the pressurizing volume 120 of the fluid supply 100 from the pressurizing system 160 can be done by a specialized fluid supply cartridge 100 which has a blocking element 195 which blocks the pressurizing volume 120 from the pressurizing system 160, and a vent 125 which provides a connection of the pressurizing volume 120 to atmosphere. (in contrast, in a normal fluid supply 100 there is no connection of the pressurizing volume 120 to atmosphere, and the pressurizing volume 120 of the fluid supply 100 is not disconnected from the pressurizing system 160.)
In another example, the blocking element 195 is a blocking valve which is operable to optionally connect and disconnect the pressurizing volume 120 of the fluid supply cartridge 100 to and from the pressurizing system 160, and wherein the vent 125 includes a venting valve which is operable to optionally provide and close a connection of the pressurizing volume 120 to atmosphere.
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/US2017/024583 | 3/28/2017 | WO | 00 |