EP0339798A1 - Rolled web dispensers - Google Patents
Rolled web dispensers Download PDFInfo
- Publication number
- EP0339798A1 EP0339798A1 EP89303082A EP89303082A EP0339798A1 EP 0339798 A1 EP0339798 A1 EP 0339798A1 EP 89303082 A EP89303082 A EP 89303082A EP 89303082 A EP89303082 A EP 89303082A EP 0339798 A1 EP0339798 A1 EP 0339798A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- feed roller
- dispenser
- web
- dispenser according
- vacuum
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
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Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47K—SANITARY EQUIPMENT NOT OTHERWISE PROVIDED FOR; TOILET ACCESSORIES
- A47K10/00—Body-drying implements; Toilet paper; Holders therefor
- A47K10/24—Towel dispensers, e.g. for piled-up or folded textile towels; Toilet-paper dispensers; Dispensers for piled-up or folded textile towels provided or not with devices for taking-up soiled towels as far as not mechanically driven
- A47K10/32—Dispensers for paper towels or toilet-paper
- A47K10/34—Dispensers for paper towels or toilet-paper dispensing from a web, e.g. with mechanical dispensing means
- A47K10/36—Dispensers for paper towels or toilet-paper dispensing from a web, e.g. with mechanical dispensing means with mechanical dispensing, roll switching or cutting devices
- A47K10/3631—The cutting devices being driven manually
- A47K10/3643—The cutting devices being driven manually by pulling the paper
Definitions
- This invention relates to a one-revolution stop mechanism for a dispenser and a dispensing method for rolled web material of the flexible sheet type such as paper toweling.
- the stop mechanism has a low operating force and is associated with the feed roller in the dispenser to allow the feed roller to undergo one revolution and then be stopped in dispensing an individual sheet of the rolled web material.
- Dispensers for rolled flexible sheet material such as paper toweling
- dispensers include mechanisms for perforating or severing a web of material to divide the web into individual sheets.
- Towel dispensers have also been developed with various mechanisms or techniques to provide a waste-restricting system, namely, the dispenser permits only a single individual sheet to be dispensed to the intending user at one time with a delay being provided before the user can gain access to a second individual sheet.
- towel dispensers in public washrooms should preferably be operable by merely pulling down on an exposed portion of the towel web with no need to touch parts of the dispenser such as cranks, buttons or levers commonly present in many prior art types of towel dispensers, these actuators serving to activate the towel dispenser in supplying the length of towel web or individual toweling sheets.
- the dispenser should eliminate unnecessary waste of paper toweling while still not unduly restricting use of the toweling to the intending user.
- Certain dispensers now on the market accomplish these objectives by such devices as spring-operated one-revolution stop feeding mechanisms and vacuum cup timers.
- Spring-operated devices have the disadvantage that in being cocked while the towel is being withdrawn from the dispenser, a substantial drag is placed on the web of paper toweling, often resulting in it being prematurely torn where it is held by the wet fingers of the intending user.
- Prior art vacuum cup timers provide the needed time delay between withdrawal of individual towel sheets to thus reduce waste but have the disadvantage that the desired preset time intervals cannot be reliably maintained especially at very short time interval settings.
- FIG. 1 represents one example of a towel dispenser known in the prior art.
- the dispenser 30 has a cabinet 31 adapted to be mounted at a convenient location for intending users of the paper toweling supplied from the rolled web material carried within the cabinet 31.
- a portion of the cabinet 31 is broken away to display a portion of the one-revolution stop mechanism and other components mounted within the cabinet 31.
- a roll 1 of flexible web material is mounted on a yoke 33, the yoke being pivoted at 34 to the backplate of the dispenser cabinet 31.
- Yoke 33 has a pair of yoke arms with cups 32 rotatably mounted at the outer ends of the yoke arms, these cups being inserted at each core end into the central tubular core of the towel roll 1.
- the web W withdrawn from roll 1 is threaded counterclockwise around a pinchroller 3.
- the web then passes clockwise around the rearside of a feed roller 4 to pass counterclockwise over an exit pinchroller 24.
- Pinchrollers 3 and 24 are pressed against the feed roller 4 by springs (not shown) with all rollers being supported by appropriate bearings (not shown) in the sideplates of the dispenser cabinet 31.
- the web W then exits through opening 26 in cabinet 31 to be accessible to intending users of the paper toweling material coming from roll 1.
- a tab length T of the toweling web W of about 3 inches (7.6 cm) will extend outside the dispenser beyond opening 26 to be available for grasping by the intending users of the web material.
- This preferred length T of web material is automatically fed from the dispenser 30 in conjunction with the operation of a one-revolution stop mechanism.
- the feed roller 4 has an internal knife 40 which is mounted laterally offset from the rotational axis of feed roller 4. Knife 40 is supported within the feed roller to project through an opening (not shown) in the feed roller periphery to essentially sever the web material when it passes over the feed roller surface as the feed roller 4 makes a single revolution.
- the web material is thus perforated to leave only, for example, three uncut1 ⁇ 4 inch (0.6 cm) long tabs connecting successive sheets in the web.
- This transverse perforating of the web material in cabinet 31 defines individual sheets which are of a length equal to the feed roller circumference so that the web W is formed with a row of perforations between one sheet and the next succeeding sheet.
- Feed roller 4 is rotatably mounted on shaft 32 which extends through an appropriate bearing which is carried by the sidewall of cabinet 31. Shaft 32 extends outwardly beyond the bearing and has a feed wheel 36 fixedly secured to it outer end. The feed wheel 36 has a control tab 38 which cooperates with a stop lever 41 to constitute the active components of the stop mechanism as described in allowed and commonly assigned Application Serial No. 838,799 (now U.S. Patent No. ).
- U.S. Patent No. Re 28,911 discloses the use of a conventional vacuum cup timer to provide a time delay between withdrawal of individual towel sheets. The operation of this type of timer will be explained with reference to Figures 2 and 3 which are taken from Figure 10 of the Re. 28,911 patent.
- Figure 2 is a side elevational view of the one-revolution stop mechanism in an unlatched position as used in the dispenser disclosed in the Re. 28,911 patent.
- the mechanism includes a feed wheel 240 which is drivenby the towel web being pulled from the dispenser.
- the mechanism also includes a stop lever 230 which pivots about pivot pin 232. Stop lever 230 has a cam follower 234 and a stop lug 236 which engage camming pin 238 formed on feed wheel 240.
- cam follower 234 is positioned in the rotational path of camming pin 238.
- the rotation of feed wheel 240 causes camming pin 238 to engage the underside of cam follower 234, raising cam follower 234 upwardly.
- Stop lever 230 thus, pivots in a clockwise direction about pivot pin 232.
- vacuum cup 242 is draw into vacuum-gripping relationship with vacuum cup 244.
- camming pin 238 passes under and out of engagement with cam follower 234 to arrive at the position shown in Figure 3. In this position, vacuum cups 242 and 244 are in full vacuum-gripping relationship and stop lug 236 is in engagement with camming pin 238.
- Vacuum cups 242 and 244 remain in vacuum-gripping relationship for a predetermined period of time which is regulated by needle valve 254.
- Needle valve 254 allows a controlled flow of ambient air into the vacuum environment between vacuum cups 242 and 244 in order to regulate the period of time during which the cups remain in vacuum-gripping relationship.
- stop lever 230 is returned to its unlatched position as shown in Figure 2 by spring 256 for the start of another cycle.
- vacuum cup timers perform their intended function, they suffer from a number of disadvantages.
- the desired preset time delay interval cannot be reliably maintained, especially at very short time interval settings.
- Another such disadvantage is that a relatively large amount of compression force is required in order to engage the vacuum cups in a vacuum-gripping relationship. Creation of such a large force also creates a corresponding drag on the towel web, often resulting in premature tearing of the towel.
- This particular disadvantage is addressed in the Re. 28,911 patent by making one cup of a relatively hard resilient material and the other of a relatively soft resilient material. The use of a soft resilient material also provides a better cushion for absorption of forces generated by the abrupt arresting of feed wheel movement, thus minimizing wear of the stop mechanism components.
- the rolled web dispenser of this invention basically overcomes the above-mentioned disadvantages of prior art dispensers by eliminating the use of feed-out springs altogether and provides a great improvement over the conventional use of vacuum cup timers.
- the present invention provides a fully reliable momentary stop and time delay which makes possible the use of very soft and weak paper toweling, with the dispenser being operated solely by pulling on the paper web of toweling while still providing the desired waste restricting system.
- the dispenser for rolled web flexible material of this invention overcomes the disadvantages discussed above with reference to prior art proposals by providing a stop mechanism for the feed roller which has a substantial advantage over conventional stop lever designs.
- a relatively small force by the user in pulling a towel from the dispenser is translated in a correspondingly larger force for setting the vacuum cups into vacuum-gripping engagement.
- operation of the dispenser is made much easier.
- the stop lever in accordance with Applicant's invention has a long actuating arm which pivots about a pivot point. The long actuating arm creates a substantial mechanical advantage for setting the vacuum cups in vacuum-gripping engagement.
- the mechanism advantage afforded by the stop lever of Applicant's invention greatly enhances the low pull force requirement and smooth operation of the dispenser.
- the pneumatic and elastic characteristics of the stop mechanism which incorporates Applicant's stop lever serves as an efficient way of absorbing the energy generated when the dispensing mechanism is cycled and abruptly stopped.
- the exit pinch roller is allowed to float in a slot.
- the slot is in angular relationship with the feed roller such that the web is drawn into biting relationship with the pinch roller when the web is pulled. This arrangement assures that the towel will separate outside the dispenser when pulled.
- FIG. 4 illustrates one embodiment of the one-revolution stop mechanism of Applicant's invention.
- Web W withdrawn from roll 1 is threaded counterclockwise around a pinchroller 3 through a nip 2.
- the web then passes clockwise around the rearside of feed roller 4 to pass counterclockwise over exit pinchroller 6 through a nip 5.
- the web then exits through opening 27 in cabinet 31 to be accessible to intending users of the paper toweling material coming from roll 1.
- a tab length 7 of the toweling web W of about 3 inches (7,6 cm) will extend outside the dispenser beyond opening 27 to be available for grasping by the intending users of the web material.
- This preferred length 7 of web material is automatically fed from the dispenser 30 in conjunction with the operation of the stop mechanism in accordance with Applicant's invention.
- the feed roller 4 has an internal knife as known in the art which is mounted laterally offset from the rotational axis of feed roller 4.
- the knife is supported within the feed roller to project through an opening (not shown) in the feed roller periphery to essentially sever the web material when it passes over the feed roller surface as the feed roller makes a single revolution.
- the web material is thus perforated to leave only three uncut 1 ⁇ 4 inch (0.6 cm) long tabs connecting successive sheets in the web.
- This transverse perforating of the web material in cabinet 31 defines individual sheets which are of a length equal to the feed roller circumference so that the web W is formed with a row of perforations between one sheet and the next succeeding sheet.
- Feed roller 4 is rotatably mounted by a shaft which extends through a bearing which is carried by the sidewall of cabinet 31 at pivot point 19.
- the shaft extends outwardly beyond the bearing and has a feed wheel 8 fixedly secured to its outer end.
- the shaft and feed wheel 8 are driven by the towel web being pulled from the dispenser.
- the feed wheel 8 has a camming lug 9 which cooperates with a stop lever 15.
- Stop lever 15 is pivotally mounted at point 11 on one of the side plates of dispenser cabinet 31 and is provided with a recipient arm 12, a long actuating arm 18 and a short actuating arm 17.
- Vacuum cup 13 is attached to the end of arm 12 which cooperates with vacuum cup 14 as shall be discussed below.
- feed roller 4 is caused to rotate which in turn causes feed wheel 8 to rotate in a corresponding manner.
- lug 9 engages and slides across surface 10 of arm 18, thereby causing arm 18 to pivot upwardly about pivot point 11.
- arm 12 causes vacuum cup 13 to engage vacuum cup 14.
- the relatively high mechanical advantage of long arm 18 pivoting stop lever 15 about point 11 causes cup 13 to firmly engage fixed cup 14, thus expelling air trapped in cavity 20 (See Figure 6) formed by the vacuum cups.
- a seal 21 is formed by the lips of the mating vacuum cups, thus holding arm 12 down by the pneumatic pressure created by the vacuum. Arm 17 is therefore held in a latched upward position so that lug 9 engages surface 16 to interrupt the rotation of feed wheel 8.
- stop lever 15 for setting vacuum cups 13 and 14 The low force required to create the relatively high mechanical advantage provided by stop lever 15 for setting vacuum cups 13 and 14 is abruptly reversed by the high pneumatic force holding arm 12 in position 21 as shown in Figure 6 and the relatively low mechanical leverage force exerted by arm 17 to resist the rotational force of lug 9 as lug 9 engages surface 16 of arm 17.
- stop lever 15 When vacuum cups 13 and 14 are compressed, they perform a most critical function.
- dimension A should be at least one-half that of dimension B. Such a length permits a relatively small amount of camming force from lug 9 to be translated into a relatively large force at the end of arm 15 for setting vacuum cups 13 and 14 in vacuum gripping relationship.
- radius C is chosen such that surface 10 is in line with pivot point 11 while lug 9 is in engagement with surface 10 as illustrated in Figure 5.
- This orientation of surface 10 with pivot point 11 creates an easy progression of force between surface 10 and lug 9 as lug 9 passes through its toggle point between surface 10, lug 9 and pivot point 19.
- venting device can be on either the moving cup 13 or the fixed cup 14. Needle valve 25 shown in Figure 6 serves this purpose.
- An orifice 22 is provided in vacuum cup 14 which cooperates with stem 23. Air can be metered into chamber 20 by moving stem 23 relative to orifice 22 and allowing the air to bleed past threads 24.
- FIG. 9 illustrates another embodiment of the vacuum cup timer of Applicants invention.
- flat plate 29 replaces vacuum cup 14.
- FIGS 10-14 illustrate another embodiment of lug 9.
- Lug 9a extends from the center portion of feed wheel 8 and has a shank portion 9b.
- Shank portion 9b provides additional shock absorption characteristics and has been found by Applicant to lend considerable reliability to the stop mechanism.
- Applicant's dispenser overcomes this problem by the use of a lower pinch roller 6 which is mounted in a slot 26 as shown in Figure 8.
- Slot 26 is in angular relationship E, as illustrated in Figure 8, with the feed roller so as to move away from nip 5 when the mechanism is cycled and into a biting relationship when the web is pulled. This assures that the towel will separate outside the dispenser past point 5.
- shaft 27 is allowed to float so that the portion of web 7 exerting the most pressure on roller 6 will be held the firmest at point 5.
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- Health & Medical Sciences (AREA)
- Public Health (AREA)
- Unwinding Webs (AREA)
- Replacement Of Web Rolls (AREA)
Abstract
A stop mechanism for a feed roller (4) associated with a cutter in a dispenser for flexible rolled web material (W) has a stop lever (15) which provides a substantial mechanical advantage. The increased mechanical advantage permits the vacuum cups (13,14) of a vacuum cup timer to be effortlessly and reliably set. The stop lever (15) has a long actuating arm (12) which pivots about a pivot point (11). A long engagement arm (18) of the lever (15) has a camming surface (10) which is engaged by a lug (9) carried by a feed wheel (8) rotatable with the feed roller (4) in order to bring the actuating arm (12) into a position in which the vacuum cup timer is set.
Description
- This invention relates to a one-revolution stop mechanism for a dispenser and a dispensing method for rolled web material of the flexible sheet type such as paper toweling. The stop mechanism has a low operating force and is associated with the feed roller in the dispenser to allow the feed roller to undergo one revolution and then be stopped in dispensing an individual sheet of the rolled web material.
- Dispensers for rolled flexible sheet material, such as paper toweling, are well-known in the art and many of these dispensers include mechanisms for perforating or severing a web of material to divide the web into individual sheets. Towel dispensers have also been developed with various mechanisms or techniques to provide a waste-restricting system, namely, the dispenser permits only a single individual sheet to be dispensed to the intending user at one time with a delay being provided before the user can gain access to a second individual sheet.
- For sanitary reasons, towel dispensers in public washrooms should preferably be operable by merely pulling down on an exposed portion of the towel web with no need to touch parts of the dispenser such as cranks, buttons or levers commonly present in many prior art types of towel dispensers, these actuators serving to activate the towel dispenser in supplying the length of towel web or individual toweling sheets.
- At the same time, for the sake of economy, the dispenser should eliminate unnecessary waste of paper toweling while still not unduly restricting use of the toweling to the intending user. Certain dispensers now on the market accomplish these objectives by such devices as spring-operated one-revolution stop feeding mechanisms and vacuum cup timers. Spring-operated devices have the disadvantage that in being cocked while the towel is being withdrawn from the dispenser, a substantial drag is placed on the web of paper toweling, often resulting in it being prematurely torn where it is held by the wet fingers of the intending user. Prior art vacuum cup timers provide the needed time delay between withdrawal of individual towel sheets to thus reduce waste but have the disadvantage that the desired preset time intervals cannot be reliably maintained especially at very short time interval settings.
- In addition, in paper towel dispensers where the towel web is severed or perforated internally, a device must be provided to prevent the premature separating of individual towels from the following web as it uncoils from the supply roll of toweling. Strong, thus, harsh, paper toweling is therefore required.
- Figure 1 represents one example of a towel dispenser known in the prior art. The
dispenser 30 has acabinet 31 adapted to be mounted at a convenient location for intending users of the paper toweling supplied from the rolled web material carried within thecabinet 31. A portion of thecabinet 31 is broken away to display a portion of the one-revolution stop mechanism and other components mounted within thecabinet 31. - A
roll 1 of flexible web material is mounted on ayoke 33, the yoke being pivoted at 34 to the backplate of thedispenser cabinet 31. Yoke 33 has a pair of yoke arms withcups 32 rotatably mounted at the outer ends of the yoke arms, these cups being inserted at each core end into the central tubular core of thetowel roll 1. With this rather conventional mounting forroll 1, due to gravity the roll rests against the backplate ofcabinet 31 to provide a slight braking action and prevent overspinning of the roll when the paper towel web is being removed. - The web W withdrawn from
roll 1 is threaded counterclockwise around a pinchroller 3. The web then passes clockwise around the rearside of a feed roller 4 to pass counterclockwise over anexit pinchroller 24.Pinchrollers 3 and 24 are pressed against the feed roller 4 by springs (not shown) with all rollers being supported by appropriate bearings (not shown) in the sideplates of thedispenser cabinet 31. The web W then exits through opening 26 incabinet 31 to be accessible to intending users of the paper toweling material coming fromroll 1. Preferably a tab length T of the toweling web W of about 3 inches (7.6 cm) will extend outside the dispenser beyond opening 26 to be available for grasping by the intending users of the web material. This preferred length T of web material is automatically fed from thedispenser 30 in conjunction with the operation of a one-revolution stop mechanism. - The feed roller 4 has an internal knife 40 which is mounted laterally offset from the rotational axis of feed roller 4. Knife 40 is supported within the feed roller to project through an opening (not shown) in the feed roller periphery to essentially sever the web material when it passes over the feed roller surface as the feed roller 4 makes a single revolution. The web material is thus perforated to leave only, for example, three uncut¼ inch (0.6 cm) long tabs connecting successive sheets in the web. This transverse perforating of the web material in
cabinet 31 defines individual sheets which are of a length equal to the feed roller circumference so that the web W is formed with a row of perforations between one sheet and the next succeeding sheet. - Details of the mounting and operating mechanism for the cutting knife 40 are not shown but the construction may be of the sliding cutter construction disclosed in U.S. Patent No. 4,712,461.
- Feed roller 4 is rotatably mounted on
shaft 32 which extends through an appropriate bearing which is carried by the sidewall ofcabinet 31.Shaft 32 extends outwardly beyond the bearing and has afeed wheel 36 fixedly secured to it outer end. Thefeed wheel 36 has acontrol tab 38 which cooperates with astop lever 41 to constitute the active components of the stop mechanism as described in allowed and commonly assigned Application Serial No. 838,799 (now U.S. Patent No. ). - U.S. Patent No. Re 28,911 discloses the use of a conventional vacuum cup timer to provide a time delay between withdrawal of individual towel sheets. The operation of this type of timer will be explained with reference to Figures 2 and 3 which are taken from Figure 10 of the Re. 28,911 patent.
- Figure 2 is a side elevational view of the one-revolution stop mechanism in an unlatched position as used in the dispenser disclosed in the Re. 28,911 patent. The mechanism includes a
feed wheel 240 which is drivenby the towel web being pulled from the dispenser. The mechanism also includes astop lever 230 which pivots aboutpivot pin 232.Stop lever 230 has acam follower 234 and astop lug 236 which engage cammingpin 238 formed onfeed wheel 240. - As shown in Figure 2,
cam follower 234 is positioned in the rotational path ofcamming pin 238. The rotation offeed wheel 240 causescamming pin 238 to engage the underside ofcam follower 234, raisingcam follower 234 upwardly. Stoplever 230, thus, pivots in a clockwise direction aboutpivot pin 232. As stop lever 230 pivots,vacuum cup 242 is draw into vacuum-gripping relationship withvacuum cup 244. Asfeed wheel 240 continues to rotate, cammingpin 238 passes under and out of engagement withcam follower 234 to arrive at the position shown in Figure 3. In this position,vacuum cups stop lug 236 is in engagement withcamming pin 238. The vacuum-gripping force ofvacuum cups stop lever 230 in the position shown in Figure 3, thus preventing further rotation offeed wheel 240 due to the engagement ofcamming pin 238 withstop lug 236. The arrested motion offeed wheel 240 results in increased pulling force on the towel which permits an individual sheet of paper toweling to be torn from the web along preformed perforations. -
Vacuum cups needle valve 254.Needle valve 254 allows a controlled flow of ambient air into the vacuum environment betweenvacuum cups vacuum cups stop lever 230 is returned to its unlatched position as shown in Figure 2 byspring 256 for the start of another cycle. - Though vacuum cup timers perform their intended function, they suffer from a number of disadvantages. As mentioned above, the desired preset time delay interval cannot be reliably maintained, especially at very short time interval settings. Another such disadvantage is that a relatively large amount of compression force is required in order to engage the vacuum cups in a vacuum-gripping relationship. Creation of such a large force also creates a corresponding drag on the towel web, often resulting in premature tearing of the towel. This particular disadvantage is addressed in the Re. 28,911 patent by making one cup of a relatively hard resilient material and the other of a relatively soft resilient material. The use of a soft resilient material also provides a better cushion for absorption of forces generated by the abrupt arresting of feed wheel movement, thus minimizing wear of the stop mechanism components.
- Though the use of resilient material for one of the vacuum cups presents a solution to the high compression force problem, other problems are created. For example, manufacturing cost are increased due to the need to fabricate cups from two different materials. There are obvious economies to be realized if both cups are of the same design and material. In addition, reducing the hardness of the vacuum cups also reduces the vacuum-gripping force between the cups.
- It is the overall objective of the present invention to provide a towel dispenser which can be operated at a low user pull force.
- It is a specific objective of the present invention to provide a one-revolution stop mechanism for a dispenser which requires substantially less force to cycle than such mechanisms known in the prior art.
- It is a further specific objective of the present invention to provide a one-revolution stop mechanism which permits a towel dispenser to be used with a wide variety of soft-ply paper towels.
- It is another specific objective of the present invention to provide a one-stop revolution mechanism which is efficient and reliable in operation.
- It is a still further objective of the present invention to provide a towel dispenser wherein individual towels reliably separate from the web outside of the dispenser.
- The rolled web dispenser of this invention basically overcomes the above-mentioned disadvantages of prior art dispensers by eliminating the use of feed-out springs altogether and provides a great improvement over the conventional use of vacuum cup timers. The present invention provides a fully reliable momentary stop and time delay which makes possible the use of very soft and weak paper toweling, with the dispenser being operated solely by pulling on the paper web of toweling while still providing the desired waste restricting system.
- The dispenser for rolled web flexible material of this invention overcomes the disadvantages discussed above with reference to prior art proposals by providing a stop mechanism for the feed roller which has a substantial advantage over conventional stop lever designs. Thus a relatively small force by the user in pulling a towel from the dispenser is translated in a correspondingly larger force for setting the vacuum cups into vacuum-gripping engagement. As a result, operation of the dispenser is made much easier. The stop lever in accordance with Applicant's invention has a long actuating arm which pivots about a pivot point. The long actuating arm creates a substantial mechanical advantage for setting the vacuum cups in vacuum-gripping engagement. The mechanism advantage afforded by the stop lever of Applicant's invention greatly enhances the low pull force requirement and smooth operation of the dispenser. The pneumatic and elastic characteristics of the stop mechanism which incorporates Applicant's stop lever serves as an efficient way of absorbing the energy generated when the dispensing mechanism is cycled and abruptly stopped.
- In addition, the problem with prior art dispensers having conventional spring biased exit pinch rollers is overcome by Applicants dispenser. In Applicant's dispenser, the exit pinch roller is allowed to float in a slot. The slot is in angular relationship with the feed roller such that the web is drawn into biting relationship with the pinch roller when the web is pulled. This arrangement assures that the towel will separate outside the dispenser when pulled.
- The above objectives and features of the invention will become apparent upon consideration of the detailed description of a preferred embodiment of the invention in connection with the accompanying drawings.
-
- Figure 1 is a side elevational view, with portions in section, of a rolled web dispenser.
- Figure 2 is an elevational view of the stop mechanism and associated elements used in a prior art dispenser, wherein the stop mechanism is in an unlatched position.
- Figure 3 is an elevational view of the stop mechanism and associated elements used in a prior art dispenser, wherein the stop mechanism is in a latched position.
- Figure 4 is a side elevational view of a rolled web dispenser in accordance with Applicant's invention displaying the stop mechanism associated with the feed roller and feed wheel.
- Figure 5 is a side view of a stop lever and vacuum cup timer in accordance with Applicant's invention.
- Figure 6 is a side elevational view of a vacuum cup timer in accordance with Applicant's invention.
- Figure 7 is a side elevational view showing the operation of the exit pin roller in a prior art dispenser.
- Figure 8 is a side elevational view showing the operation of an exit pin roller in accordance with Applicant's invention.
- Figure 9 is a side elevational view of another embodiment of the vacuum cup timer of Applicant's invention.
- Figure 10 is a front side elevational view of another embodiment of the camming lug which cooperates with the stop lever of Applicant's invention.
- Figure 11 is a cross-sectional view taken along line 11-11 in Figure 10.
- Figure 12 is a rear side elevation view of the camming lug shown in Figure 10.
- Figure 13 is a cross-sectional view taken along line 13-13 in Figure 12.
- Figure 14 is an enlarged elevational view of the center portion of Figure 10.
- Figure 4 illustrates one embodiment of the one-revolution stop mechanism of Applicant's invention. Web W withdrawn from
roll 1 is threaded counterclockwise around a pinchroller 3 through a nip 2. The web then passes clockwise around the rearside of feed roller 4 to pass counterclockwise over exit pinchroller 6 through anip 5. The web then exits through opening 27 incabinet 31 to be accessible to intending users of the paper toweling material coming fromroll 1. Preferably a tab length 7 of the toweling web W of about 3 inches (7,6 cm) will extend outside the dispenser beyond opening 27 to be available for grasping by the intending users of the web material. This preferred length 7 of web material is automatically fed from thedispenser 30 in conjunction with the operation of the stop mechanism in accordance with Applicant's invention. - The feed roller 4 has an internal knife as known in the art which is mounted laterally offset from the rotational axis of feed roller 4. The knife is supported within the feed roller to project through an opening (not shown) in the feed roller periphery to essentially sever the web material when it passes over the feed roller surface as the feed roller makes a single revolution. The web material is thus perforated to leave only three uncut ¼ inch (0.6 cm) long tabs connecting successive sheets in the web. This transverse perforating of the web material in
cabinet 31 defines individual sheets which are of a length equal to the feed roller circumference so that the web W is formed with a row of perforations between one sheet and the next succeeding sheet. - Feed roller 4 is rotatably mounted by a shaft which extends through a bearing which is carried by the sidewall of
cabinet 31 atpivot point 19. The shaft extends outwardly beyond the bearing and has a feed wheel 8 fixedly secured to its outer end. The shaft and feed wheel 8 are driven by the towel web being pulled from the dispenser. The feed wheel 8 has a camming lug 9 which cooperates with astop lever 15. - Stop
lever 15 is pivotally mounted at point 11 on one of the side plates ofdispenser cabinet 31 and is provided with arecipient arm 12, along actuating arm 18 and ashort actuating arm 17.Vacuum cup 13 is attached to the end ofarm 12 which cooperates withvacuum cup 14 as shall be discussed below. - As web W is being pulled from the dispenser by a user, actuating lug 9 rotates with feed wheel 8 and engages
surface 10 ofstop lever 15 as shown in Figure 5, thus causing a movement ofstop lever 15 about pivot point 11. Asstop lever 15 pivots,vacuum cup 13 is bought into vacuum engagement withvacuum cup 14 to expel air trapped between the vacuum cups. This is the compression stroke ofstop lever 15. The air expelled from between vacuum cups 13 and 14 causes a vacuum to be created between the cups. The vacuum causesstop lever 15 to be held in a latched position as shown in Figure 5. During this initial period, feed wheel 8 continues to rotate until lug 9 engagessurface 16 ofshort arm 17. When this occurs, feed roller 4 and the freedom of movement of the web material are abruptly stopped. Thus, the pull applied by the intending user on the web separates the web along the row of perforations for the user to receive an individual sheet. - Thus in summary, when web W is pulled through the dispenser, feed roller 4 is caused to rotate which in turn causes feed wheel 8 to rotate in a corresponding manner. After feed wheel 8 has rotated a predetermined distance, lug 9 engages and slides across
surface 10 ofarm 18, thereby causingarm 18 to pivot upwardly about pivot point 11. Accordinglyarm 12 causesvacuum cup 13 to engagevacuum cup 14. The relatively high mechanical advantage oflong arm 18 pivotingstop lever 15 about point 11 causescup 13 to firmly engage fixedcup 14, thus expelling air trapped in cavity 20 (See Figure 6) formed by the vacuum cups. Aseal 21 is formed by the lips of the mating vacuum cups, thus holdingarm 12 down by the pneumatic pressure created by the vacuum.Arm 17 is therefore held in a latched upward position so that lug 9 engagessurface 16 to interrupt the rotation of feed wheel 8. - The low force required to create the relatively high mechanical advantage provided by
stop lever 15 for settingvacuum cups force holding arm 12 inposition 21 as shown in Figure 6 and the relatively low mechanical leverage force exerted byarm 17 to resist the rotational force of lug 9 as lug 9 engagessurface 16 ofarm 17. When vacuum cups 13 and 14 are compressed, they perform a most critical function. - Both the pneumatic and elastic characteristics of Applicant's stop mechanism serves to absorb the energy generated when the mechanism is cycled and abruptly stopped. As feed wheel 8 rotates and lug 9 strikes surface 16 of
short arm 17, stoplever 15 tries to rotate around pivot 11 and separate vacuum cups 13 and 14. However, due to the position stoplever 15 has now taken, the forward rotation of the mechanism is arrested, energy is dissipated and the towel web separates along perforations. - Applicant has found that the relationship between dimensions A and B and radius C of
stop lever 15, as illustrated in Figure 5, can be optimized to achieve smooth and effortless operation of the stop mechanism. The relatively long length ofarm 18 provides a significant mechanical advantage for sittingvacuum cups - It has been found that dimension A should be at least one-half that of dimension B. Such a length permits a relatively small amount of camming force from lug 9 to be translated into a relatively large force at the end of
arm 15 for settingvacuum cups - The mechanical advantage manifest by the construction of Applicant's stop lever is made evident by the greatly reduced force required of the user to pull a single towel from the dispenser. In addition, the smooth camming action of lug 9 along
surface 10 results in the smooth operation of the stop mechanism which is apparent to the user. - As shown in Figure 5, radius C is chosen such that
surface 10 is in line with pivot point 11 while lug 9 is in engagement withsurface 10 as illustrated in Figure 5. This orientation ofsurface 10 with pivot point 11 creates an easy progression of force betweensurface 10 and lug 9 as lug 9 passes through its toggle point betweensurface 10, lug 9 andpivot point 19. - After a predetermined delay, it is necessary to provide a venting device to induce air back into the vacuum created when vacuum cups 13 and 14 were compressed so that
chamber 20 can be reformed. The venting device can be on either the movingcup 13 or the fixedcup 14.Needle valve 25 shown in Figure 6 serves this purpose. Anorifice 22 is provided invacuum cup 14 which cooperates withstem 23. Air can be metered intochamber 20 by movingstem 23 relative to orifice 22 and allowing the air to bleedpast threads 24. - Figure 9 illustrates another embodiment of the vacuum cup timer of Applicants invention. In this embodiment,
flat plate 29 replacesvacuum cup 14. - Figures 10-14 illustrate another embodiment of lug 9.
Lug 9a extends from the center portion of feed wheel 8 and has a shank portion 9b. Shank portion 9b provides additional shock absorption characteristics and has been found by Applicant to lend considerable reliability to the stop mechanism. - In paper towel dispensers where the towel web is severed or perforated internally, a device must be provided to prevent the premature separating of individual towels from the following web as it uncoils from the supply roll of toweling. In prior art dispensers, spring biased exit pinch rollers were used as shown in Figure 7. To be effective, a high degree of force is required to hold this type of pinch roller in contact with the feed roller, requiring greater force to cycle the mechanism. Strong, thus, harsh, paper toweling is therefore required.
- If a lower spring force is used to lower the energy requirements for cycling the mechanism in order to dispense a soft plush towel, the lower pinch roller would move out of contact with the feed roller when the towel web is pulled out of the dispenser shown in Figure 7. In this case the towel will separate at
point 25, or further back in the mechanism, thus making the dispenser appear to be empty. - Applicant's dispenser overcomes this problem by the use of a lower pinch roller 6 which is mounted in a
slot 26 as shown in Figure 8.Slot 26 is in angular relationship E, as illustrated in Figure 8, with the feed roller so as to move away from nip 5 when the mechanism is cycled and into a biting relationship when the web is pulled. This assures that the towel will separate outside the dispenserpast point 5. In the above configuration,shaft 27 is allowed to float so that the portion of web 7 exerting the most pressure on roller 6 will be held the firmest atpoint 5. - It should be obvious from the above-discussed apparatus embodiment that numerous other variations and modifications of the apparatus of this invention are possible, and such will readily occur to those skilled in the art. Accordingly the scope of this invention is not to be limited to the embodiment disclosed, but is to include any such embodiments as may be encompassed within the scope of the claims appended thereto.
Claims (14)
1. A dispenser (30) for rolled web material (W), said dispenser comprising:
a dispenser cabinet (31) having means (32,33,34) in said cabinet (31) for mounting a roll (1) of web material (W);
a feed roller (4) rotatably mounted on a shaft (32) in said cabinet to guide said web from the roll (1) to the exterior of said cabinet, so that said web may be grasped by a user and pulled out of said dispenser;
camming pin means (38,238,9) rotatable with said feed roller (4) and spaced radially from the feed roller axis for providing a camming action;
a cutter mechanism (40) associated with said feed roller (4) to transversely perforate said web as it passes over said feed roller; and
a stop mechanism for stopping the operation of said feed roller (4) to arrest the movement of said web (W) for a predetermined period of time after a predetermined length of said web (W) has been withdrawn from said dispenser (30);
characterized in that said stop mechanism comprises lever means (15) mounted to pivot in a plane normal to the axis of said feed roller (4) for activating said stop mechanism, said lever means having a first engagement arm (18), a second engagement arm (17) and an actuating arm (12), a first end of each of said arms (18,17,12) terminating at a pivot point (11) of said lever means (15), said first engagement arm (18) being adapted to engage said camming pin means (9) to raise said first engagement arm (18) to a high level and said actuating arm (12) to a low level as said feed roller (4) rotates, said second engagement arm (17) being adapted to engage said camming pin means (9) after said first engagement arm (17) has been raised, said second engagement arm (17) holding said camming pin (9) and preventing said feed roller from rotating for a predetermined period of time.
a dispenser cabinet (31) having means (32,33,34) in said cabinet (31) for mounting a roll (1) of web material (W);
a feed roller (4) rotatably mounted on a shaft (32) in said cabinet to guide said web from the roll (1) to the exterior of said cabinet, so that said web may be grasped by a user and pulled out of said dispenser;
camming pin means (38,238,9) rotatable with said feed roller (4) and spaced radially from the feed roller axis for providing a camming action;
a cutter mechanism (40) associated with said feed roller (4) to transversely perforate said web as it passes over said feed roller; and
a stop mechanism for stopping the operation of said feed roller (4) to arrest the movement of said web (W) for a predetermined period of time after a predetermined length of said web (W) has been withdrawn from said dispenser (30);
characterized in that said stop mechanism comprises lever means (15) mounted to pivot in a plane normal to the axis of said feed roller (4) for activating said stop mechanism, said lever means having a first engagement arm (18), a second engagement arm (17) and an actuating arm (12), a first end of each of said arms (18,17,12) terminating at a pivot point (11) of said lever means (15), said first engagement arm (18) being adapted to engage said camming pin means (9) to raise said first engagement arm (18) to a high level and said actuating arm (12) to a low level as said feed roller (4) rotates, said second engagement arm (17) being adapted to engage said camming pin means (9) after said first engagement arm (17) has been raised, said second engagement arm (17) holding said camming pin (9) and preventing said feed roller from rotating for a predetermined period of time.
2. A dispenser according to claim 1, wherein a feed wheel (8) is fixedly secured to said shaft means (32) and said camming pin means (9) is carried by said feed wheel (8).
3. A dispenser according to claim 1, 2, wherein said cutter mechanism comprises a cutting blade (40) mounted within said feed roller (4).
4. A dispenser according to claim 1, 2 or 3, wherein said first engagement arm (18) has a cam follower surface (10) which engages said camming pin means (9), said surface (10) being aligned with the pivot point (11) of said lever means.
5. A dispenser according to any one of the preceding claims, wherein said camming pin means (9) and said first engagement arm (18) cooperate to provide a mechanical advantage with respect to said actuating arm (12).
6. A dispenser according to any one of the preceding claims, further comprising timer means (13,14,25) activated by said actuating arm (12), to produce said predetermined period of time.
7. A dispenser according to claim 6, wherein said timer means comprises vacuum cup means (13,28) drawn into vacuum-gripping relation by said actuating arm (12) with another vacuum cup means (14) or plate means (29), said vacuum gripping relation holding said first engagement arm (18) in the raised position for said predetermined period.
8. A dispenser according to claim 6 or 7, wherein said predetermined period is regulated by valve means (28) for destroying said vacuum gripping relation.
9. A dispenser according to claim 2, wherein said camming pin means (9) comprises a cam portion (9a) and a shank portion (9b), said shank portion (9b) extending along a side of said feed wheel (8) to a center portion of said feed wheel (8), said shank portion (9b) being attached to said feed wheel (8) at said center portion.
10. A dispenser according to claim 2 or 9, wherein said camming pin means (9) or said cam portion (9a) thereof is located adjacent the peripheral side edge of said feed wheel (8).
11. A dispenser according to any one of the preceding claims, further comprise exit roller means (6) adjacent said feed roller (4) for pinching said web material (W) between said feed roller (4) and said exit roller (6) when said web material (W) is pulled from said dispenser (30).
12. A dispenser according to claim 11, wherein said exit roller (6) is mounted on a shaft (27) which is retained in an opening (26) which provides said shaft freedom of movement within said opening (26).
13. A dispenser according to claim 12, wherein said opening is a slot (26).
14. A dispenser according to claim 13, where said slot (26) is in an angular relation (E) with said feed roller (4).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US17525588A | 1988-03-30 | 1988-03-30 | |
US175255 | 1988-03-30 |
Publications (1)
Publication Number | Publication Date |
---|---|
EP0339798A1 true EP0339798A1 (en) | 1989-11-02 |
Family
ID=22639577
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP89303082A Pending EP0339798A1 (en) | 1988-03-30 | 1989-03-29 | Rolled web dispensers |
Country Status (7)
Country | Link |
---|---|
EP (1) | EP0339798A1 (en) |
JP (1) | JPH02504119A (en) |
BR (1) | BR8906481A (en) |
CA (1) | CA1335982C (en) |
FI (1) | FI895729A0 (en) |
PT (1) | PT90156A (en) |
WO (1) | WO1989009013A1 (en) |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2369851A (en) * | 1939-02-18 | 1945-02-20 | Philip A Wooster | Towel dispenser |
GB1114891A (en) * | 1965-03-11 | 1968-05-22 | Dudley Hill Engineering Compan | Towel dispensing cabinets |
USRE28911E (en) * | 1971-01-06 | 1976-07-20 | Georgia-Pacific Corporation | Dispenser for flexible sheet material and a perforating mechanism adapted to be used therein |
US4712461A (en) * | 1985-10-18 | 1987-12-15 | Georgia-Pacific Corporation | Rolled material dispenser with feed roller containing a sliding cutter |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3739965A (en) * | 1969-01-24 | 1973-06-19 | Georgia Pacific Corp | Dispenser for flexible sheet material and a perforating mechanism adapted to be used therein |
US3575328A (en) * | 1969-01-24 | 1971-04-20 | Georgia Pacific Corp | Dispenser for flexible sheet material and a perforating mechanism adapted to be used therein |
-
1989
- 1989-03-28 CA CA000594870A patent/CA1335982C/en not_active Expired - Lifetime
- 1989-03-29 EP EP89303082A patent/EP0339798A1/en active Pending
- 1989-03-29 PT PT90156A patent/PT90156A/en not_active Application Discontinuation
- 1989-03-30 WO PCT/US1989/001246 patent/WO1989009013A1/en active Application Filing
- 1989-03-30 BR BR898906481A patent/BR8906481A/en unknown
- 1989-03-30 JP JP1506248A patent/JPH02504119A/en active Pending
- 1989-11-29 FI FI895729A patent/FI895729A0/en not_active IP Right Cessation
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2369851A (en) * | 1939-02-18 | 1945-02-20 | Philip A Wooster | Towel dispenser |
GB1114891A (en) * | 1965-03-11 | 1968-05-22 | Dudley Hill Engineering Compan | Towel dispensing cabinets |
USRE28911E (en) * | 1971-01-06 | 1976-07-20 | Georgia-Pacific Corporation | Dispenser for flexible sheet material and a perforating mechanism adapted to be used therein |
US4712461A (en) * | 1985-10-18 | 1987-12-15 | Georgia-Pacific Corporation | Rolled material dispenser with feed roller containing a sliding cutter |
Also Published As
Publication number | Publication date |
---|---|
CA1335982C (en) | 1995-06-20 |
JPH02504119A (en) | 1990-11-29 |
PT90156A (en) | 1989-11-10 |
WO1989009013A1 (en) | 1989-10-05 |
FI895729A0 (en) | 1989-11-29 |
BR8906481A (en) | 1990-11-27 |
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