The illustrative embodiments of the present invention relate generally to mailing machine fluid level indicators and, more particularly, to new and useful systems providing an effective level indicator for gravity-fed fluid delivery subsystems.
Certain mailing machines including certain DM SERIES mailing machines available from Pitney Bowes Inc. of Stamford, Conn. include an envelope flap sealing subsystem. The envelope flap sealing subsystem includes a gravity-fed fluid delivery subsystem that feeds an appropriate moistening fluid to a wick and then brush that moistens an envelope flap as the envelope is fed past the flap sealing subsystem.
The fluid delivery subsystem includes a moistening fluid storage bottle that holds a supply of moistening liquid that is gravity-fed in a “chicken-feeder” fashion to the wick and brush combination that applies the moistening fluid to the flap of an envelope. The moistening fluid storage bottle has a cap that incorporates a spring-loaded plunger to seal it from leaking when the bottle is in the cap-down orientation needed to install or withdraw it from the moistener. There is a post-like feature in the moistener that pushes the spring loaded plunger to the open position as the bottle completes its engagement in the moistener fluid tray. Since the spring force on the plunger is higher than the weight of the empty bottle, it will cause the bottle to rise vertically was it nears being empty. In such a system the operator will not know when it is advisable to replace the moistening fluid bottle. If an operator wishes to start a large envelope batch job, it may be necessary to know if a suitable amount of moistening fluid is available before starting the batch job.
Certain prior mailing machines including envelope moistening subsystems included either a sight glass in the wick tank or a float that activated an optical sensor. Both prior systems only indicate when there is no liquid remaining in the bottle and are not as useful for providing a preventive maintenance indication that an almost empty bottle should be changed to accommodate a large batch mail run. Moreover, they may not indicate a missing fluid container.
Accordingly, there is a need for an inexpensive mechanism for indicating moistener fluid level status or to indicate a missing fluid container. Optical detectors are sometimes used to detect fluid levels, but they require wiring in close proximity to the moistening liquid that could damage the detector and/or the printed circuit board that is driving it. Certain optical detectors require floats that can stick to walls due to the surface tension of the moistening liquid or containers having transparent walls that may get dirty over time. This illustrative embodiments of the present application fulfill at least the need for indicating to the operator that the moistener liquid level is getting low, when it is depleted and/or an indication of the number of envelopes that may be moistened.
The accompanying drawings show illustrative embodiments of the invention and, together with the general description given above and the detailed description given below serve to explain certain principles of the invention. As shown throughout the drawings, like reference numerals designate like or corresponding parts.
An illustrative mailing machine is provided including a moistening fluid level indicator. The mailing machine includes a mail piece transport including a mail piece flap opening and moistening assembly, a moistening fluid container operatively connected to the moistening assembly for providing moistening fluid to the moistening assembly, and a fluid level indicator arm operatively connected to the moistening fluid container, wherein the fluid level indicator arm has an indicator surface adjacent to an indicator window for indicating the presence of the moistening fluid level container and for indicating an amount of moistening fluid in the container.
In an alternative illustrative embodiment, a mailing machine is provided including an electrical moistening fluid detector. The mailing machine includes a mail piece transport including a mail piece flap opening and moistening assembly, a moistening fluid container operatively connected to the moistening assembly for providing moistening fluid to the moistening assembly, and an electrical moistening fluid detector downstream of the moistening fluid applicator for detecting presence of moistening fluid.
The illustrative embodiments of the present application provide new and useful mailing machine fluid level indicators and, in certain embodiments, effective level indicators for gravity-fed fluid delivery subsystems. The illustrative embodiments described herein satisfy at least a need for an inexpensive means of indicating moistener liquid status such as for indicating to the mailing machine operator that the moistening fluid container is missing, that moistener liquid level is getting low, when it is depleted and/or indicating the number of envelopes that may be moistened.
The illustrative embodiments provide a fluid level indicator including a lever mechanism that contacts the top of a moistener bottle and moves a colored surface past an opening in a machine cover to indicate at least four states. The first state indicates that the bottle is not installed. Conversely, any fluid level indication will also indicate that the bottle is in place. The second state is that the bottle contains a relatively large amount of liquid. The third state is that the bottle is transitioning from full toward empty. The fourth state is that the bottle is empty. An additional feature includes providing a hash line indicating that enough moistening fluid for a number of envelopes remains, e.g. 100 envelopes. The hash line may be adjustable to indicate a different number of envelope moistening capacity or may be replaced by a number providing such indication.
Certain illustrative embodiments of the present application provide a pivoting lever with unequal lever lengths in contact with the top of the moistening fluid bottle. The end of the shorter lever length is in contact with the top of the bottle and the longer length contains an arc-shaped surface with at least two different colors. The arc-shaped surface is in close proximity to the inside of the machine jam access cover and the jam access cover has an indicator opening that allows the color of the arc-shaped surface to be viewed. In an alternative embodiment, the arc shaped surface includes a hash mark used to indicate the number of envelopes that may be processed with the then current fluid level. A corresponding scale may be printed on the jam access cover adjacent to the indicator opening.
When the moistener bottle is full, its weight fully compresses the spring in its cap and the lever resting on the bottle positions the arc-shaped surface of the lever to a location that displays a first color such as blue in the opening in the jam clearing cover. As the moistener bottle nears being empty, the spring in its cap causes it to rise and move the arc-shaped surface on the lever to a position where the color line between its blue area and its red area appear in the opening in the jam clearing cover. Ultimately, that line moves downward in the cover opening as the bottle becomes completely empty. There is a second indicating area on the arch-shaped surface on the lever that is on the opposite extreme of the stroke of the lever. It appears in the opening in the cover when the bottle is not in the machine. Previous indicators would indicate only one or two of the states of the moistening liquid. The illustrative embodiments described herein indicate at least three distinct states. Moreover, the fluid level indicators described provide at least an analog estimate reading such as some degree of a “fuel gauge” like indication. For example, in the three color embodiment, the line between the blue and the red area is visible through the opening in the cover and moves as fluid is used. Additionally, more specific envelope capacity numbers may be provided as a preventive maintenance indicator to facilitate large mail batch runs.
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In this illustrative embodiment, the mailing machine 100 includes a manual sealing function engagement lever 219. When the sealing lever 219 is placed in the engaged position, the sealing ramp 218 is lowered below the mailing machine transport deck 112. The envelope flaps are partially opened to separate the flap 11 from the envelope 10 body sufficiently to transport the glue of the flap against the moistened sealing brush such that the envelope flaps are moistened. In certain mailing machines, the sealing ramp is automatically lowered via solenoid action controlled by the user interface controller. In the manual sealing function engagement lever 219 configuration, an electrical switch and/or optical sensor may be used to determine and report to the controller when the lever 219 is placed in the engaged position to indicate that the mailing machine 100 is set to moisten envelopes 10.
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When the moistener bottle 250 is full, its weight fully compresses the spring in its cap 252 and the lever 260 resting on the bottle positions the arc-shaped surface of the lever to a location that displays a first color 212 such as blue in the opening in the jam clearing cover. As the moistener bottle 250 nears being empty, the spring in its cap 252 causes it to rise and move the arc-shaped surface on the lever 260 to a position where the color line between its blue area 212 and its red area 214 appear in the opening in the jam clearing cover. Ultimately, that line moves downward in the cover opening as the bottle becomes completely empty. There is a second indicating area 216 on the arch-shaped surface on the lever that is on the opposite extreme of the stroke of the lever. It appears in the opening in the cover when the bottle is not in the machine and may be a white color. Previous indicators would indicate only one or two of the states of the moistening liquid. The illustrative embodiments described herein indicate at least three distinct states. Moreover, the fluid level indicators described provide at least an analog estimate reading such as some degree of a “fuel gauge” like indication using a scale 211 marked on cover 120. For example, in the three color embodiment, the line between the blue and the red area is visible through the opening 210 in the cover 120 and moves as fluid is used and can provide a level indication using scale 211.
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In this embodiment, the moistening/sealing assembly 200 includes an opener deck 220 and associated brush holder 232 and moistening brush 230. In this embodiment, the brush holder 232 is elongated in the media transport direction. The Moistening fluid container bottle 250 includes a finger grip 258 and is also operatively connected to fluid level indicator assembly 260. The top cover 120 includes an indicator window 210. The envelope 10 with flap 11 is transported adjacent to registration wall 114 along the feed deck 110 generally in a left to right direction. As the envelope passes thorough the assembly 200, it is opened and the flap is moistened. If the mail batch run does not need to be sealed, the seal/no seal lever 219 located near the indicator window 120 is activated to raise a bypass ramp in the assembly 200 so that the opening blade ramp 218 is not engaged.
Downstream of the moistening brush 230, the underside of the brush holder 232 includes two copper electrical contacts 238, 239. Each contact is electrically connected to a circuit in the main controller 130 such as by two respective copper wires (not shown). The controller 130 includes a continuity circuit that is used to test whether an electrical connection is present across the gap between contact 238 and contact 239. The continuity circuit may include a connection to VCC such as 5 volts, a current limiting resistor, the gap between 238, 239 and a connection to ground. In another example, the continuity circuit may include a sample and hold circuit including a capacitor grounded on one end that is switched to VCC when the gap 238, 239 is electrically closed.
In alternative embodiments, any known switch debounce or sample and hold circuit may be used for accurately sampling whether the gap 238, 239 is electrically closed to indicate that the moistening fluid was applied. For example, when a moistened envelope flap is transported past and against the brush holder 232, the wet glued flap provides an electrical contact between contacts 238, 239 and closes the circuit. Here, the mailing machine 100 uses a manual moistening/sealing engagement lever 219 and a sensor informs the controller 130 when to expect moistened envelopes to be transported by the electrical detector 238, 239. In a mailing machine with an automatic moistening sealing ramp control, the controller 130 would set the ramp and then test the moistening fluid detector at the appropriate time when an envelope is sealed.
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In yet another alternative embodiment, an electrical switch or optical sensor is placed in assembly 260 to electrically report to the controller 130 the fact that the moistening fluid bottle is empty. Is such an alternative, the first electrical signal from the assembly 260 may be utilized to provide an initial warning to the mailing machine operator and the second electrical signal from detector 238, 239 may be used to provide a second more critical moistening/sealing failure warning to the mailing machine operator.
In another illustrative embodiment, a mailing machine having a moistening fluid level indicator includes a mail piece transport including a mail piece flap opening and moistening assembly, a moistening fluid container operatively connected to the moistening assembly for providing moistening fluid to the moistening assembly, and a fluid level indicator arm operatively connected to the moistening fluid container, wherein the fluid level indicator arm has an indicator surface adjacent to an indicator window for indicating the presence of the moistening fluid level container and for indicating an amount of moistening fluid in the container. In an alternative, the moistening assembly includes a moistening brush connected to a moistening flap for applying moistening fluid to an envelope flap. In another alternative, the mailing machine further includes an electrical moistening fluid presence detector connected to the moistening flap downstream of the moistening brush, wherein the electrical moistening fluid presence detector is operatively connected to the mailing machine processor. In yet another alternative, the mailing machine further includes an electrical moistening fluid level detector operatively connected to the fluid level indicator arm to determine moistening fluid level, wherein the electrical moistening fluid level detector is operatively connected to the mailing machine processor. In another alternative, the user interface controller is configured to provide an indication to a mailing machine user based upon a signal received from the electrical moistening fluid presence detector. In another alternative, the user interface controller is configured to provide an indication to a mailing machine user based upon a signal received from the electrical moistening fluid level detector. In yet another alternative, the user interface controller is configured to provide a second indication to a mailing machine user based upon a signal received from the electrical moistening fluid presence detector.
Although the invention has been described with respect to particular illustrative embodiments thereof, it will be understood by those skilled in the art that the foregoing and various other changes, omissions and deviations in the form and detail thereof may be made without departing from the scope of this invention.
This application claims priority under 35 U.S.C. section 119(e) from Provisional Patent Application Ser. No. 61/247,794, filed Oct. 1, 2009, entitled Mailing Machine Fluid Level Indicator, by Walter J. Kulpa, et al., which is incorporated herein by reference in its entirety.
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Number | Date | Country | |
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20110079359 A1 | Apr 2011 | US |
Number | Date | Country | |
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61247794 | Oct 2009 | US |