Now that "cheap" Pro-100 printheads can no longer be found it is now becoming necessary for the unfortunate ones who have discovered that Cartridge condition is vital to keeping these printers printing problem free. Method of refilling is important and even with the best of practices, the tank condition will eventually degrade to the point it causes printing and printhead issues. I hope those who have indeed replaced printheads due to "clogging" have kept them as you will discover except for those heavily used in the toughest situations commercially, can many times be recovered with the procedures to follow. Printheads that indicate an electronic fault condition are NOT recoverable with cleaning.
First, let's go over a key point. When the Pro-100 is unused for several weeks or even several months, it is generally problem free from the standpoint of clogs provided two conditions are met.
The FIRST is that when going into a long rest or period of no use, none of the tanks are empty or low and preferably should be refilled to full or near full, depending on the period of intended rest. The tanks will continue to "breathe" daily even when they are unused. This is due to the fact that they are open to the atmosphere and are subject to thermal and atmospheric pressure changes. They will dry out as a result of this, so having full tanks helps. If the tanks completely dry out, then this can lead to a potential head clog.
The SECOND condition is that the printhead parking station operates properly. That the sealing gasket indeed still seals perfectly to prevent the underside of the printhead from "drying" If the seal no longer seals properly then air can leak and slowly the underside of the printhead will dry and ink will dry and cause a clog.
With the above conditions met, clogs from storage are indeed rare.
If the printer does clog from storage, most times it can be fixed by removing the tanks and soaking the underside of the printhead in "Windex" or even dollar store glass cleaner or water modified so that the water does not easily bead but sheets instead. Detergents can do this but choose one free of oils and perfumes which can end up modifying the surface properties of the internals of the printhead making them more hydrophobic or greater tendency to bead. After soaking overnight, rinse the underside as well as the intake ports of the top side until it is mostly clear. Using a kitchen faucet spray hose can also help. Warm water also aids as well.
Dry and reinstall.
Now as stated before the need for the above is low.
The other source of "clogging" generally comes when the printhead is starved of ink while it is printing. This condition originates from the tank not being able to deliver sufficient ink that the printhead requires. This can originate from an "empty" tank, one that is physically devoid of ink from careless management or more often, from continuing to use tanks whose condition has degraded to the point where ink does not want to exit as easy as it normally needs to. In the latter case, printing should immediately cease and a proper working tank should be used.
If printing continues when either of the above happens a printhead can be damaged permanently. If the fault condition lasts a short while and is caught EARLY a proper working tank will fix the situation with no issues. However if extended printing continues before it is caught then more significant problems arise. If it is not too long and a proper tank is used and does not fix the problem then the soak and under the sink flush can resolve it. If it does not then the next stage of resolution is needed.
Before I describe the next stage it is important to identify the nozzles and the patterns.
When you perform a nozzle check, you will notice that above the nozzle check sheet are numbers "1" and "2". This refers to Group 1 as well as Group 2. Group 1 are the colors below 1 and are PC, M,Y,PM. Group 2 are C,BK,LGY and GY. These groupings are significant because each group shares a common seal on the underside of the printhead. So if it is observed that frequent clogging occurs within a certain group when the printer has rested for a while, one needs to check the seal on the printhead. Allied with this grouping are the actual nozzles that fire the ink out.
Looking at the printhead as it would sit in the printer from the front. The Group "1" are the leftmost nozzle group BUT and note this NOT the leftmost tanks on the top. I repeat. Also the sequence of the nozzles do NOT match the arrangement of the tanks of Group "2" as well.
TANK arrangement is as follows. LEFT to RIGHT.
M - PC - Y - BK |||||||||||||| GY - PM - LGY - C
However looking from the front, there are 8 lines of nozzles on the underside. The NOZZLE arrangement from LEFT to RIGHT is as follows
PC - M - Y - PM ||||||||||||| C - BK - LGY - GY
Again pay close attention and observe the order. This will be important when cleaning the nozzles as I will describe in the next post.
First, let's go over a key point. When the Pro-100 is unused for several weeks or even several months, it is generally problem free from the standpoint of clogs provided two conditions are met.
The FIRST is that when going into a long rest or period of no use, none of the tanks are empty or low and preferably should be refilled to full or near full, depending on the period of intended rest. The tanks will continue to "breathe" daily even when they are unused. This is due to the fact that they are open to the atmosphere and are subject to thermal and atmospheric pressure changes. They will dry out as a result of this, so having full tanks helps. If the tanks completely dry out, then this can lead to a potential head clog.
The SECOND condition is that the printhead parking station operates properly. That the sealing gasket indeed still seals perfectly to prevent the underside of the printhead from "drying" If the seal no longer seals properly then air can leak and slowly the underside of the printhead will dry and ink will dry and cause a clog.
With the above conditions met, clogs from storage are indeed rare.
If the printer does clog from storage, most times it can be fixed by removing the tanks and soaking the underside of the printhead in "Windex" or even dollar store glass cleaner or water modified so that the water does not easily bead but sheets instead. Detergents can do this but choose one free of oils and perfumes which can end up modifying the surface properties of the internals of the printhead making them more hydrophobic or greater tendency to bead. After soaking overnight, rinse the underside as well as the intake ports of the top side until it is mostly clear. Using a kitchen faucet spray hose can also help. Warm water also aids as well.
Dry and reinstall.
Now as stated before the need for the above is low.
The other source of "clogging" generally comes when the printhead is starved of ink while it is printing. This condition originates from the tank not being able to deliver sufficient ink that the printhead requires. This can originate from an "empty" tank, one that is physically devoid of ink from careless management or more often, from continuing to use tanks whose condition has degraded to the point where ink does not want to exit as easy as it normally needs to. In the latter case, printing should immediately cease and a proper working tank should be used.
If printing continues when either of the above happens a printhead can be damaged permanently. If the fault condition lasts a short while and is caught EARLY a proper working tank will fix the situation with no issues. However if extended printing continues before it is caught then more significant problems arise. If it is not too long and a proper tank is used and does not fix the problem then the soak and under the sink flush can resolve it. If it does not then the next stage of resolution is needed.
Before I describe the next stage it is important to identify the nozzles and the patterns.
When you perform a nozzle check, you will notice that above the nozzle check sheet are numbers "1" and "2". This refers to Group 1 as well as Group 2. Group 1 are the colors below 1 and are PC, M,Y,PM. Group 2 are C,BK,LGY and GY. These groupings are significant because each group shares a common seal on the underside of the printhead. So if it is observed that frequent clogging occurs within a certain group when the printer has rested for a while, one needs to check the seal on the printhead. Allied with this grouping are the actual nozzles that fire the ink out.
Looking at the printhead as it would sit in the printer from the front. The Group "1" are the leftmost nozzle group BUT and note this NOT the leftmost tanks on the top. I repeat. Also the sequence of the nozzles do NOT match the arrangement of the tanks of Group "2" as well.
TANK arrangement is as follows. LEFT to RIGHT.
M - PC - Y - BK |||||||||||||| GY - PM - LGY - C
However looking from the front, there are 8 lines of nozzles on the underside. The NOZZLE arrangement from LEFT to RIGHT is as follows
PC - M - Y - PM ||||||||||||| C - BK - LGY - GY
Again pay close attention and observe the order. This will be important when cleaning the nozzles as I will describe in the next post.
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