This technical disclosure relates to ribbon supplies that can be used in a number of applications, including card personalization machines such as desktop card personalization machines.
The use of ribbon supplies in card personalization machines is well known. In some instances, the ribbon supplies are mounted on a cartridge that is removably installed into the card personalization machine. When the ribbon supply needs to be replaced, the end user removes the cartridge, removes the used ribbon supply from the cartridge, installs a new ribbon supply on the cartridge, and the user then reinserts the cartridge into the card personalization machine. Examples of cartridges and ribbon supplies are disclosed in U.S. Pat. Nos. 6,997,629 and 7,434,728.
Replacement of the ribbon supply of a card personalization machine is often performed by personnel for whom generating personalized cards is only an incidental portion of their job, such as a security guard or a desk clerk, and not by personnel who have special training in such equipment. Therefore, the replacement of the ribbon supply should be made to be relatively intuitive and straightforward.
A mounting of a ribbon supply on a re-useable cartridge is described where the mounting is designed so that the supply friction, supply and control of the ribbon supply are substantially independent of the cartridge. When the supply rolls are initially mounted on the cartridge, the supply rolls are frictionally engaged with the cartridge to reduce the tendency for the supply rolls to rotate or move prior to being loaded into the printer, which would loosen the ribbon material by unwinding, thereby reducing slack in the ribbon material. When the cartridge is loaded into a card personalization machine, features on the card personalization machine automatically reduces the frictional engagement between the supply rolls and the cartridge, permitting the supply rolls to rotate substantially freely relative to the cartridge so that the supply friction, supply and control are substantially independent of the cartridge. If the frictional engagement was not substantially removed, the cartridge would act as a friction drag clutch. However, friction drag clutches have an unacceptable high variation in drag friction, making it difficult to control wind and unwind tension on the ribbon material.
The ribbon supply can be any ribbon supply used in a card personalization machine, including desktop card personalization machines and central issuance card personalization systems. Examples of ribbon supplies include, but are not limited to, print ribbon supplies, retransfer films, laminate ribbons, topcoat ribbons, cleaning ribbons, embossed character tipping foils, indent foils, and other consumable supplies that have a ribbon-like material that is initially wound on a supply spool and during use the ribbon is wound onto a take-up spool. In the case of print ribbon supplies, the print ribbon can be monochromatic (i.e. single color) ribbon or ribbon with multiple discrete color panels, for example a YMCK print ribbon containing yellow, magenta, cyan and black panels.
In the mounting described herein, a cap is configured to be mounted to the end of the supply spool and/or the take-up spool of the ribbon supply. In one embodiment, the cap can be removably mounted to the end of the spool. The ribbon supply is mountable onto a cartridge that is removably installable into a card personalization machine. When the ribbon supply is mounted on the cartridge, the cap is designed to frictionally engage with the cartridge in a manner to hold the respective spool in place and reduce the tendency for the respective spool to rotate. When the cartridge is installed in the card personalization machine, a feature on the machine engages with the cap and/or the spool to substantially reduce the frictional engagement, thereby permitting the supply rolls to rotate substantially freely relative to the cartridge during use of the ribbon supply in the card personalization machine.
In one embodiment, a roll cap that is mountable at an end of a spool of a roll of a ribbon supply includes a cap body having a first end, a second end opposite the first end, and a central axis extending from the first end to the second end. The cap also includes a neck that extends from the first end toward the second end and that is sized to fit into the end of the spool. A first flange is formed on the cap body at an end of the neck, and the first flange is positioned between the neck and the second end. In addition, a second flange is formed on the cap body at a position so that the first flange is between the neck and the second flange. The first flange and the second flange define a channel therebetween. A protrusion projects from the second end of the cap body in a direction away from the first end, and the protrusion is located on the second end so that the central axis extends through the protrusion.
In another embodiment, a ribbon supply includes a ribbon supply roll and a ribbon take-up roll, each of the ribbon supply roll and the ribbon take-up roll has a spool with a first end and a second end. One of the roll caps described herein is mounted at either the first end or the second end of at least one of the spools. In one embodiment, a roll cap is mounted at the end of the spool of the ribbon supply roll. In another embodiment, a roll cap is mounted at the end of the spool of the ribbon take-up roll. In still another embodiment, there is a roll cap mounted at the end of the spool of the ribbon supply roll and a roll cap is mounted at the end of the spool of the ribbon take-up roll.
A ribbon supply as used throughout this application, including the claims, unless otherwise defined, includes at least a ribbon supply roll that supplies a consumable ribbon-like material to be used, and optionally a ribbon take-up roll upon which the ribbon-like material is wound after the ribbon-like material is used. Each of the ribbon supply roll and the ribbon take-up roll can be referred to individually as a supply roll or simply a roll of the ribbon supply.
Each of the ribbon supply roll and the ribbon take-up roll has a spool. In the case of the ribbon supply roll, the spool may be referred to as a supply spool. In the case of the ribbon take-up roll, the spool may be referred to as a take-up spool. A consumable ribbon-like material is wound onto the supply spool. During use of the ribbon supply, the ribbon-like material is wound onto (i.e. taken-up on) the take-up spool. Prior to use, an end of the ribbon-like material may be pre-attached, directly or indirectly, in any suitable manner to the take-up spool eliminating the need for the end user to attach the end to the take-up spool. In another embodiment, the end of the ribbon-like material may not be pre-attached to the take-up spool and the end user is required to attach the end, directly or indirectly, to the take-up spool prior to use. In either event, at some point prior to the ribbon supply being loaded into a machine for use, the end of the ribbon-like material is attached, directly or indirectly, to the take-up spool so that the ribbon-like material can be wound up (i.e. taken up) on the take-up spool.
The ribbon supply is configured to be removably mounted onto a re-usable cartridge that is removably installable into a machine in which the ribbon supply is to be used. When the ribbon supply needs to be replaced, the re-useable cartridge can be removed from the machine. The supply rolls can be then be removed from the cartridge and a new ribbon supply mounted onto the cartridge. The cartridge can then be reinstalled into the machine.
The ribbon supply can be any type of ribbon supply that is mountable onto a re-useable cartridge that is removably installable for use in any type of machine that uses such a re-useable cartridge. In one embodiment, the ribbon supply is for use in a card personalization machine that is designed to personalize one or more plastic cards including, but not limited to financial (e.g., credit, debit, or the like) cards, driver's licenses, national identification cards, business identification cards, gift cards, and other plastic cards which bear personalized data unique to the cardholder and/or which bear other card information. In some embodiments, the ribbon supply may be used to personalize passports or other non-card-like documents which may also be personalized in a machine that can generally be referred to as a card personalization machine. The card personalization machine can be a desktop card personalization machine that is designed to personalize cards one at a time, for example on the order of tens or hundreds per hour, or a central issuance system that is designed to simultaneously personalize multiple cards, for example on the order of thousands per hour. For sake of convenience, the machine will be described as being a card personalization machine that is intended to encompass a machine that personalizes cards as well as passports and other identification documents.
The ribbon-like material can be any ribbon-like material that is consumed or used, and that from time-to-time needs replacement. Examples of ribbon-like materials include, but are not limited to, print ribbons, retransfer films, laminate ribbons, topcoat ribbons, cleaning ribbons, embossed character tipping foils, indent foils, and other consumable supplies that have a ribbon-like material that is initially wound on a supply spool and during use the ribbon is wound onto a take-up spool. In the case of a print ribbon, the print ribbon can be a monochromatic (i.e. single color) ribbon or a ribbon with multiple discrete color panels, for example a YMCK print ribbon containing yellow, magenta, cyan and black panels.
Referring initially to
Referring to
The cartridges 36, 37 are each designed to mount the rolls 12-15 of their respective ribbon supply 10, 11 in a generally similar manner. When the rolls 12-15 are initially mounted on the respective cartridge 36, 27, the rolls are frictionally engaged with the cartridge to reduce the tendency for the rolls to rotate or move prior to being loaded into the machine 150, which would loosen the ribbon material by unwinding, thereby reducing slack in the ribbon material. When the cartridges 36, 37 are loaded into the card personalization machine 150, features on the card personalization machine 150 automatically reduce the frictional engagement between the rolls 12-15 and the cartridges 36, 37, permitting the rolls 12-15 to rotate substantially freely relative to the cartridges 36, 37 so that the supply friction, supply and control are substantially independent of the cartridges 36, 37.
The rolls 12-15 can be substantially similar in construction to one another. For example, referring to
The ribbon-like material 16, 17 is initially wound onto the spool 18 of the respective roll 12, 13, and as the ribbon-like material 16, 17 is used, it is wound onto the take-up spool of the roll 14, 15 in known manner.
Each spool 18 can also include a roll cap, generally referenced by numeral 34, that is mounted at one of the open ends, for example the first open end 20, of the spool 18. Each roll cap 34 is designed to mount the respective roll 12-15 to the respective cartridge 36, 37. Each roll cap 34 can be removably mounted to the respective spool 18 in a manner that allows the respective roll cap 34 to be removed from the respective spool 18 at the end of use of the ribbon supply 10, 11 without destroying the roll cap 34 or the spool 18, thereby allowing individual re-use of the rolls caps 34 and the spools 18. In another embodiment, the roll caps 34 can be designed to the permanently attached to the respective spool 18 so that the rolls caps 34 cannot be removed without destroying either the roll caps 34 or the spools 18, although the roll caps 34 and spool 18 combinations can be re-used.
The roll cap 34 can have any configuration suitable for achieving the functions of the roll cap 34 described herein. The roll caps 34 used on the rolls 12-15 can be the same or substantially the same. In another embodiment, the roll caps 34 can be different from one another depending upon the type of roll 12-15. For example, as discussed further below, different roll cap geometries and/or sizes can be provided based on the type of ribbon supply the roll cap is used with. For example, in one embodiment discussed further below with respect to
Referring to
Likewise, referring to
The cartridges 36, 37 are generally similar in overall construction and operation. For example, the illustrated cartridges 36, 37 are devoid of the standard spindles on which spools of a ribbon supply are traditionally mounted as disclosed in U.S. Pat. Nos. 6,997,629 and 7,434,728. Instead, each of the rolls 12-15 is mounted on the respective cartridge 36, 37 without using spindles on the cartridge 36, 37. The cartridges 36, 37 are configured to hold the rolls 12-15 steady and prevent rotation and other movement of the rolls 12-15 once the rolls 12-15 are mounted at the respective mounting locations 38-41 and prior to the cartridges 36, 37 being installed in the card personalization machine 150. In particular, each of the mounting locations 38-41 of the cartridges 36, 37 includes a retaining lip 46 and a biasing arm 48 that engages against the roll cap 34 of the respective roll 12-15 to bias the roll cap 34 against the retaining lip 46 to hold the respective roll 12-15 in place via friction. Further details on the construction and operation of each mounting location 38-41 will be described below.
Referring to
The roll caps 34a-c can have any configuration suitable for achieving the functions of the roll caps 34a-c described herein. Each of the rolls caps 34a-c have a generally common overall construction where each roll cap 34a-c is generally cylindrical and includes a cap body 50 having a first end 52, a second end 54 opposite the first end 52, and a central axis A-A extending from the first end 52 to the second end 54. For each roll cap 34a-c, a first flange 56 and a second flange 58 are formed on the cap body 50. The first flange 56 is circumferentially continuous, and is circular in shape with a first diameter. The second flange 58 is also circumferentially continuous, and is also circular in shape with a second diameter. However, in the roll cap 34a, the first diameter is greater than the second diameter. In the roll cap 34b, the first diameter is less than the second diameter. In the roll cap 34c, the first diameter is approximately equal to or slightly less than the second diameter. In one embodiment, the second flange 58 of the roll caps 34a-c can have different diameters to prevent, for example, improper loading of the particular supply roll 12-15. For example, in one embodiment, a ribbon supply roll can include the roll cap 34a mounted to the spool 18 of the supply roll 12 and having the second flange 58 with a first diameter, the ribbon supply roll further including the roll cap 34b mounted to the spool 18 of the take-up rolls 14, 15 and with the second flange 58 having a second diameter that is different than the first diameter.
For each roll cap 34a-c, the cap body 50 further includes a neck 60 that extends from the first end 52 toward the second end 54, for example to the first flange 56, and that is sized to fit into the gap 32 at the end 20 of the respective spool 18. The neck 60 is generally cylindrical and can fit into the end 20 with a tight interference fit between the exterior surface of the neck 60 and the interior surface of the respective spool 18 so that the respective roll cap 34a-c cannot rotate relative to the respective spool 18 and the roll cap 34a-c is secured to its respective spool 18. The diameter of the exterior surface of the neck 60 is less than the diameter of the first flange 56 so that the first flange 56 will act as a stop limiting the insertion depth of the roll cap 34a-c into the respective spool 18. In another embodiment, the neck 60 can include a lock feature 61, such as a circumferential lip or barb, that can engage with a feature on the inside of the respective spool 18 to help lock the roll cap 34a-c in place.
The first flange 56 and the second flange 58 define a channel 62 therebetween which is formed by the exterior surface of the cap body 50. The exterior surface that defines the channel 62 has a diameter that is less than the diameter of the first flange 56, and less than the diameter of the second flange 58. For the roll cap 34a, the diameter of the channel 62 is less than the diameter of the neck 60. For the roll cap 34b, the diameter of the channel 62 is greater than the diameter of the neck 60. For the roll cap 34c, the diameter of the channel 62 is less than the diameter of the neck 60.
For each roll cap 34a-c, the cap body 50 can be configured so that it closes the open end 20 of the respective spool 18. However, each cap body 50 can be generally hollow as seen in
For the roll cap 34a, the second flange 58 is disposed at the second end 54, and has a diameter that is larger than the diameter of the exterior surface that defines the channel 62. For the roll cap 34b, the second flange 58 is disposed at the second end 54, and has a diameter that is larger than the diameter of the exterior surface that defines the channel 62. For the roll cap 34c, the second flange 58 is disposed at the second end 54, and has a diameter that is larger than the diameter of the exterior surface that defines the channel 62.
Each roll cap 34a-c further includes a protrusion 70 that projects from the second end 54 of the cap body 50 in a direction away from the first end 52. For each roll cap 34a-c, the protrusion 70 is centrally located at the second end 54 so that the central axis A-A extends through the center of the protrusion 70. The protrusions 70 of the roll caps 34a-c form loading features to prevent loading of the incorrect rolls 12-15 in the incorrect mounting locations 38-41. In addition, the tip ends of the protrusions 70 form relatively small, central contact points that contact their respective cartridges 36, 37 with a small surface area to minimize contact with the cartridge 36, 37. The protrusions 70 can have any configuration(s) suitable for achieving these functions.
In the case of the roll cap 34a, the protrusion 70 is illustrated as being generally circular in shape and having a diameter that is approximately equal to the diameter of the surface that defines the channel 62. However, the protrusion 70 has an angled or tapered side wall 71 that continuously tapers (i.e. reduces in diameter) from its point of connection at the second end 54 to its tip end. In one embodiment, the protrusion 70 of the roll cap 34a can have a diameter of about 25 mm and have a height measured from the second end 54 to its tip end of from about 1.0 to about 10 mm.
In the case of the roll cap 34b, the protrusion 70 is illustrated as being generally cylindrical or in the shape of a conical frustum, and has a tip end 72 and an angled or tapered sidewall 74 that continuously tapers (i.e. reduces in diameter) from its point of connection at the second end 54 to the tip end 72. In some embodiments, the tip end 72 can be convexly curved in a direction away from the first end 52 so that the tip end 72 is rounded outwardly. In one embodiment, the protrusion 70 of the roll cap 34b can have a diameter of about 6 mm and have a height measured from the second end 54 to the tip end 72 of from about 1.0 to about 10 mm.
In the case of the roll cap 34c, the protrusion 70 is illustrated as being generally circular in shape and having a diameter that is less than the diameter of the protrusion 70 of the roll cap 34a, and greater than the diameter of the protrusion 70 of the roll cap 34b. The protrusion 70 also has an angled or tapered side wall 73 that continuously tapers (i.e. reduces in diameter) from its point of connection at the second end 54 to its tip end. In one embodiment, the protrusion 70 of the roll cap 34c can have a diameter of about 11 mm and have a height measured from the second end 54 to its tip end of from about 1.0 to about 10 mm.
Returning to
With reference to
Each mounting location 38-41 further includes a slot/channel 86 that leads up to the respective entrance/exit 80a-d. The slot/channel 86 is sized and configured to receive the protrusion 70 on the respective roll cap 34a-c when the rolls 12-15 are slid into and from the mounting locations 38-41. For example, with reference to
Further details of the mounting locations 38-41 and their interaction with the rolls caps 34a-c will be described with reference to
An upper surface 82 of the cartridge 36 forms a guide surface on which a bottom surface of the second end 54 of the cap body 50 can slide when installing the roll 14 into the mounting location 40 and when removing the roll 14 from the mounting location 40. The slot/channel 86 receives the protrusion 70 on the roll cap 34b. As the roll 14 is slid into the mounting location 48, the second flange 58 slides underneath the retaining lip 46. At the same time, the biasing arm 48 engages against the second end 54 of the roll cap 34b which pushes the biasing arm 48 downward against the biasing force of the arm 48. The biasing arm 48 in turn applies a biasing force on the roll cap 34b, biasing the roll cap 34b, and the entire roll 14, in a direction away from the cartridge 36 so that the second flange 58 is held against the lip 46. In one embodiment, each biasing arm 48 can optionally include a detent 88 that receives the tip end of the protrusion 70 when the roll 14 is fully installed on the cartridge 36.
Referring to
Referring to
In operation, the roll 14 is positioned in the entrance/exit 80b with the protrusion 70 in the channel 86 and the bottom surface of the cap body 50 sliding on the surface 82 of the entrance/exit 80b. The roll 14 is then slid into the mounting location 40 through the open end of the entrance/exit 80b between the ends 110a, 110b of the retaining lip 46. As the roll 14 is slid into position, the sloped ramp surfaces 112 engage with the second flange 58 forcing the second flange 58 to slide underneath the retaining lip 46. See
During use of the roll 14 (and the other rolls 12, 13 and 15) in the card personalization machine, the frictional engagement between the second flange 58 and the retaining lip 46 is released. Once released, the only frictional engagement between the rolls 12-15 and the cartridges 36, 37 is the minimal engagement between the tip ends of the protrusions 70 and the biasing arms 48. As a result, the rolls 12-15 are able to rotate with minimal friction applied thereto, allowing better control of winding and unwinding tension by the card personalization machine.
Referring to
For example, the machine 150 includes mounting spindles 154. In the illustrated embodiment, the mounting spindles 154 include a wall 152 and a projecting portion extending from the wall 152. The machine 150 includes one mounting spindle 154 for each roll 12-15. One or more of the spindles 154 can be rotatably driven by suitable drive mechanisms (not shown) known in card personalization machines, for example by stepper motors or the like. The spindles 154 are configured to engage with the ribs 30 in the spools 18 (see
When the cartridges 36, 37 are removed from the machine 150, the biasing force of the biasing arms 48 again forces the second flanges 58 against the retaining lips 46. The rolls 12-15 can then be removed from the cartridges 36, 37 by sliding the rolls 12-15 out from their respective mounting locations 38-41 opposite of the way that the rolls 12-15 were installed. New rolls 12-15 can then be mounted on the cartridges 36, 37.
The examples disclosed in this application are to be considered in all respects as illustrative and not limitative. The scope of the invention is indicated by the appended claims rather than by the foregoing description; and all changes which come within the meaning and range of equivalency of the claims are intended to be embraced therein.
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2011109456 | Sep 2011 | WO |
Entry |
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International Search Report and Written Opinion of International Application No. PCT/US2016/061632, dated Feb. 16, 2017, total 20 pages. |
Photographs showing a roll cap used by Entrust Datacard Corporation prior to Nov. 13, 2015, 3 pages. |
Number | Date | Country | |
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20170136795 A1 | May 2017 | US |
Number | Date | Country | |
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62255107 | Nov 2015 | US |