This invention relates generally to remanufactured toner cartridges and, more specifically, remanufactured toner cartridges that are heat sealed so that they may be reused by a printing device.
High volume printing devices, such as those used as network printers, are typically designed to use toner cartridges which store and transmit ink in the form of toner to an intended medium such as paper. Once the toner is depleted from the toner cartridge, the cartridge is removed from the printing device and is typically disposed of. The cartridge is replaced by a new toner cartridge in the printing device so that printing may continue.
With an ever growing focus on protecting the environment, a significant interest in refilling emptied toner cartridges to avoid disposal in landfills has emerged. Currently, refilling a toner cartridge involves drilling or cutting a hole in the toner storage area of the toner cartridge, also known generally as the hopper, and thereafter dispensing additional toner through the hole and into the hopper by way of a needle, tube, funnel, or other device. Once refilling is complete, the fill hole is closed using a pressure-sensitive foam patch or a push-in plastic plug.
In some aspects, a remanufactured toner cartridge includes a wall defining a fill hole that is used to refill the cartridge with toner. A patch covers the fill hole, and a heat activated adhesive non-removably attaches the patch to the wall.
In other aspects, a remanufactured toner cartridge includes a body defining a toner chamber for storing toner. The body includes a wall having formed therein a fill hole communicating with the toner chamber and affording access to the toner chamber for refilling the toner chamber with toner. A heat activated patch is non-removably attached to the wall and completely covers the fill hole. The heat activated patch includes a heat activated adhesive on at least one side thereof for forming a seal between the wall and the heat activated patch.
In still other aspects, a fill hole is formed in a wall of a remanufactured toner cartridge. The fill hole is used to refill the toner cartridge with toner. A method for sealing the fill hole includes positioning a patch over the fill hole. The patch includes a heat activated adhesive on at least one side. The method further includes applying heat and pressure to the patch thereby activating the heat activated adhesive and non-removably attaching the patch to the wall.
In still other aspects, a toner cartridge includes a body defining a toner chamber and a wall, and a method for remanufacturing the toner cartridge includes piercing the wall with a heat knife to form a fill hole. The method also includes withdrawing the heat knife from the wall to thereby form a raised ridge around the perimeter of the fill hole. A patch is positioned on the raised ridge and over the fill hole. The patch includes a heat activated adhesive on at least one side thereof. Heat and pressure are applied to the patch thereby activating the heat activated adhesive, softening and at least partially flattening the ridge, and non-removably attaching the patch to the wall.
In the following detailed description, various details are set forth by way of examples to provide a thorough understanding of certain concepts and teachings. While the invention is capable of being practiced and carried out in a variety of ways, at least one embodiment will be described herein in detail with the understanding that the present disclosure is provided to highlight and exemplify certain principles of the invention and should not be regarded as limiting the scope of the invention only to the embodiment(s) illustrated and described.
Referring also to
To cut the fill hole 18 using a heat knife (not shown), the heat knife is heated to an appropriate temperature for cutting through the material defining the wall 14 of the cartridge 10. By way of example only, when the cartridge 10 is formed of polystyrene, the heat knife can be heated to temperatures between about 460 and 500 degrees Fahrenheit. In other embodiments, when the cartridge is formed of polyethylene, the heat knife can be heated to temperatures between about 260 and 300 degrees Fahrenheit. Once the knife reaches the desired temperature, the knife is moved into contact with and through the wall 14, thereby piercing the wall 14 and forming the fill hole 18. In the illustrated embodiment, the knife is substantially cylindrical and the resulting fill hole 18 is therefore substantially circular, but other shapes may also be used. As the knife is withdrawn from the cartridge, some of the locally heated and softened material of the wall 14 is drawn outwardly with the knife and thereby forms a ridge 26 of raised wall material extending generally around a perimeter of the fill hole 18. After the knife is completely withdrawn the raised wall material of the ridge 26 cools and solidifies. Once the knife has retracted from the fill hole 18 an ejector pin can be used to knock the disk of material removed from the wall 14 out of the knife.
Once the fill hole 18 has been formed in the wall 14, the toner chamber 22 optionally can be cleaned to remove any residual toner using a variety of cleaning techniques. Toner is then added to the toner chamber 22 through the fill hole 18 using one or more filling techniques. For example, tubes, funnels, needles, channels, and other material guidance and transportation structure can be used to guide or channel toner through the fill hole 18 and into the toner chamber 22.
After refilling the toner chamber 22 with the appropriate amount of toner, the fill hole 18 is covered, plugged, or otherwise closed to prevent the toner from leaking out of the fill hole 18. In this regard, and with reference also to
In some embodiments, to cover the fill hole 18 with the patch 30, a guide bushing 34 is positioned around the fill hole 18 and contacts the wall 14 (
In the illustrated embodiment, the patch 30 is positioned over the fill hole 18 and lowered into the guide bushing 34 such that the outer edges of the patch 30 overlie the ridge 26 that surrounds the fill hole 18 (
With the patch 30 pressed against the wall 14, heat from the heated die 38 activates the adhesive 32 on the patch 30 and also softens the material defining the ridge 26 that surrounds the fill hole 18. The die 38 continues to press the patch 30 against the wall 14 for a duration of time sufficient to ensure proper adhesion of the patch 30 to the wall 14. The combination of pressure and heat bonds the patch 30 to the wall 14 and also at least partially flattens the ridge 26 such that when the operation is complete and the die 38 is retracted, the patch 30 is flush or substantially flush with the outer surface of the wall 14 (see
The size and shape of the heated die 38 generally, but not necessarily, corresponds to the size and shape of the patch 30 and fill hole 18. For example, the heated die 38 can be circular or cylindrical in cross-section. Furthermore, it may be advantageous to select a patch 30 including a heat-activated adhesive 32 having an activation temperature that is substantially similar to the softening temperature of the material that defines the ridge 26. By way of example only, in one embodiment the wall 14 of the cartridge 10 is formed of polystyrene, which has a softening temperature of about 270° F. to about 280° F., and the heated die 38 is heated to a temperature of between about 300° F. and about 350° F. The heated die 38 presses the patch 30 against the wall 14 with between about 10 psi and about 20 psi of pressure for a dwell time of between about 2 and about 5 seconds, which is generally sufficient to both flatten the ridge 26 and activate the heat-activated adhesive 32. It should be appreciated that the specific temperatures, pressures and times can vary and may depend upon the specific materials used in a particular application. For example, increasing the pressure can improve heat transfer and allow the temperature and/or the dwell time to be reduced. However, the amount of pressure that can be applied may be limited by the structural integrity of the wall 14.
After the heated die 38 is withdrawn and the part is cooled, the patch 30 is non-removably attached to the wall, which is to say that although it may be possible to remove the patch 30 using extraordinary means, the patch 30 is intended to remain securely in place throughout the useful life of the remanufactured print cartridge 10.
This is a continuation of U.S. patent application Ser. No. 13/409,989, filed Mar. 1, 2012, the entire contents of which are hereby incorporated by reference herein.
Number | Date | Country | |
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Parent | 13409989 | Mar 2012 | US |
Child | 14168216 | US |