Multiple roll towel dispenser

Information

  • Patent Grant
  • 6250530
  • Patent Number
    6,250,530
  • Date Filed
    Monday, July 6, 1998
    26 years ago
  • Date Issued
    Tuesday, June 26, 2001
    23 years ago
Abstract
A dispenser for dispensing a web from a roll of paper includes a housing and a cover connected thereto to provide access to the housing interior. The dispenser has mechanism for supporting a paper roll and a drive roller and tension roller operatively associated therewith which urges paper from the paper roll into contact with the drive roller for dispensing a length of paper from the paper roll. Actuator mechanism operates the drive roller and extends across substantially the entire housing at the bottom thereof. A roller frame assembly is mounted within the housing and carries the tension roller and a transfer roller. The transfer roller releasably holds the free end of a first paper roll while paper from the second roll is dispensed upon actuation of the actuator to rotate the drive roller. Because the paper from a second paper roll is positioned between the drive roller and the transfer roller, rotation of the transfer roller during rotation of the drive roller is prevented until the second paper roll is exhausted.
Description




BACKGROUND OF THE INVENTION




This invention relates to a paper roll towel dispenser of the type which is capable of dispensing paper toweling and automatically dispensing paper from a reserve roll of toweling after a stub roll has been exhausted.




The invention provides a paper roll towel dispensing cabinet which includes a roll supporting cradle or bottom in which a stub roll is housed and a transfer mechanism which carries the free end of a reserve roll of paper toweling. After the stub roll is exhausted, the transfer mechanism operates automatically to dispense paper towel from the reserve roll of toweling. Such transfer assemblies in and of themselves are not new as disclosed in the Collins U.S. Pat. No. 5,400,982. However, most transfer mechanisms result in the transfer of toweling from both the reserve roll and the stub roll, whereas the present invention is designed such that the transfer mechanism only operates when the stub roll is exhausted.




The invention also relates to a method of dispensing toweling which is novel and conforms with the current ADA legislation for disabled persons. Additionally, the invention includes interior mechanism which provides for easy maintenance in the field, a desirable feature due to the fact that towel cabinets of the type set forth herein are commonly used in restaurant washrooms, gas station restrooms and other places where maintenance is sporadic and the level of skill of the maintenance people is not high.




SUMMARY OF THE INVENTION




Accordingly, an object of the invention is to provide a paper towel dispenser in which an actuator means is pivotally mounted on the cabinet housing outwardly of the housing and extends substantially across the entire housing at the bottom thereof.




Another object of the invention is to provide a towel dispenser with an actuator of the type set forth in which the pressure needed to dispense toweling is less than about 2 to 3 psi which is well below the ADA limit of 5 psi.




Another object of the invention is to provide a roller frame assembly pivotally mounted within the cabinet housing movable between the use position wherein a tension roller carried by the roller frame assembly is in contact with the paper web and urges same against a drive roller for dispensing the paper web from the cabinet and a maintenance position in which the roller frame assembly falls away from the drive roller permitting easy access to the interior of the towel cabinet for loading fresh rolls of toweling into the cabinet.




Yet another object of the invention is to provide a transfer roller for releasable holding the free end of a reserve roll of toweling which is transferred when the stub roll of toweling is exhausted.




The invention consists of certain novel features and a combination of parts hereinafter fully described, illustrated in the accompanying drawings, and particularly pointed out in the appended claims, it being understood that various changes in the details may be make without departing from the spirit, or sacrificing any of the advantages of the present invention.











BRIEF DESCRIPTION OF THE DRAWINGS




For the purpose of facilitating an understanding of the invention, there is illustrated in the accompanying drawings a preferred embodiment thereof, from an inspection of which, when considered in connection with the following description, the invention, its construction and operation, and many of its advantages should be readily understood and appreciated.





FIG. 1

is a perspective view of a paper roll towel dispenser embodying the invention with the cover closed;





FIG. 2

is an enlarged perspective view of the cabinet illustrated in

FIG. 1

with the cover removed and the roller frame assembly in the non-maintenance or operating position thereof;





FIG. 3

is a side elevational view with the cover broken away showing a stub roll exhausted and a reserve roll of toweling in position to be dispensed by the mechanism;





FIG. 4

is an enlarged view of the transfer and tension roller mechanism when the roller frame assembly is in its maintenance position in the absence of toweling connected to the transfer mechanism;





FIG. 5

is a view like

FIG. 3

with the cabinet cover in the open position showing the mechanism being positioned for replacement of the toweling;





FIG. 6

is a view like

FIG. 5

with a stub roll being positioned in the bottom of the cabinet and a reserve roll being added with the free end thereof attached to the transfer mechanism;





FIG. 7

is a view like

FIG. 4

with the free end of a fresh roll being attached to the transfer mechanism;





FIG. 8

is a view like

FIG. 3

with both the stub roll and the reserve roll configured for operation;





FIG. 9

is a view like

FIG. 3

showing the operation of the transfer mechanism upon exhaustion of the stub roll;





FIG. 10

is a view like

FIG. 9

further along in the dispensing cycle;





FIG. 11

is a front elevational view of the transfer roller;





FIG. 12

is a view like

FIG. 11

rotated 90°;





FIG. 13

is an enlarged view partially in section of the transfer roller illustrated in

FIG. 11

as seen along line


13


-


13


thereof;





FIG. 14

is a view in section of the transfer toller illustrated in

FIG. 11

as seen along line


14


-


14


thereof;





FIG. 15

is a view in section of the transfer roller illustrated in

FIG. 11

as seen along line


15


-


15


thereof;





FIG. 16

is a front elevational view of a tear bar; and





FIG. 17

is a view of the tear bar assembly illustrated in

FIG. 16

as seen along lines


17


-


17


thereof.











DESCRIPTION OF THE PREFERRED EMBODIMENT




Referring to the drawings, there is disclosed a dispenser


20


which includes a housing


21


comprised of opposed and parallel side walls


22


and


23


, each of the side walls


2


and


23


respectively have an offset outwardly extending flange


24


and


26


. The outwardly extending flange


24


from the side wall


22


has a stamped portion


27


and similarly the outwardly extending offset flange


26


of the wall


23


has a stamped portion


28


. An aperture


30


, for a purpose hereinafter set forth, is positioned at the bottom of the flange


24


and a corresponding aperture (not shown) is in registry with the aperture


30


in the flange


26


. The housing


21


further includes a rear wall


32


which extends downwardly and interconnects the side walls


22


and


23


and the back terminates at the bottom edge of the side walls and a top wall


33


which interconnects the tow side walls


22


and


23


and the back wall


32


. Forwardly extending from the top wall


33


is a stair step ledge


34


which includes a pair of lock apertures


36


for a purpose hereinafter to be explained. A pair of clips


38


, only one of which is seen in

FIG. 2

, extend from the rear wall


32


for a purpose hereinafter set forth. A roll holder assembly


40


is mounted to the rear wall


32


of the housing


21


and has a pair of resilient arms


41


and


42


extending from a right portion of the paper roll holder assembly


40


, the right portion not being shown. The paper roll holder assembly


40


is standard in the art and includes a pair of hubs


43


and


44


, respectively, extending inwardly from the arms


41


and


42


.




A sleeve


46


extends inwardly from the stamped portion


27


of the flange


24


and is held in place by a screw


47


, the sleeve


46


being for a purpose hereinafter set forth while the screws


47


serve to maintain a chassis


55


within the housing


21


, as will be described.




A cover


50


is pivotally mounted to the housing


21


at the spaced apertures


30


, the cover including a front panel


51


integral with a top panel


52


and two side panels


53


. Locking mechanism


54


as seen in

FIG. 5

is provided in the top panel


52


and cooperates with the two lock apertures


36


to secure the cover


50


to the housing


21


, in a well recognized fashion.




As previously stated, the chassis


55


is mounted within the housing


21


on the clips


38


extending from the rear wall


32


and maintained in place by a pair of screws


47


extending from the stamped portions


27


and


28


in the sides of the housing


21


. The chassis


55


includes spaced parallel side walls


56


and


57


interconnected by a rear wall


58


and a curved arcuate bottom wall


59


which forms a well for a stub roll as will be explained. The bottom of the chassis extends below the housing


21


.




An actuator assembly mechanism


65


includes a push bar


66


extending across the bottom of the housing


21


which includes a concave surface


67


against which the user pushes, the push bar


66


being connected to an arm


68


and an arm


69


at opposite ends of the push bar


66


. The arm


68


is pivotally connected to the chassis side wall


56


and the arm


69


is pivotally connected to the chassis side wall


57


. As seen in

FIGS. 3 and 5

, the arm


68


has a bearing


71


which mounts the push bar


66


and the actuator assembly mechanism


65


to the chassis


55


, the other bearing for the arm


69


not being illustrated. The push bar


66


has an inner edge


72


which is positioned adjacent the bottom wall


59


of the chassis


55


a distance preferably less than fingers width to prevent injury to a user described operation of the dispenser


20


, as hereinafter will be described, as well as preventing vandalism of the dispenser


20


.




The actuator assembly mechanism


65


has one arm


68


thereof which includes an arcuate segment


75


which carries a quadrant gear


76


with the gear teeth facing inwardly but not being illustrated for purposes of clarity. The gear teeth on the quadrant gear


76


are for a purpose hereinafter set forth. A second open portion in segment


75


has a stop wall


77


which contacts the sleeve


46


extending inwardly of the flange


44


, for a purpose hereinafter set forth. Finally, a torsion spring


80


cooperates with the arm


69


in a manner which is well known, to provide resistance to the actuation of the actuator assembly mechanism


65


and to bias the assembly mechanism


65


into its rest position illustrated in FIG.


2


.




A roller frame assembly


85


includes spaced apart side wall members


86


and


87


, interconnected by a bottom plate


88


, the roller frame assembly


85


having arm extensions through which extend pivot mounting aperatures


89


(see

FIG. 5

) pivotally mounting the roller frame assembly to the chassis


55


. Reinforcement members


91


extend from the bottom plate


88


to an upstanding wall


92


, as best seen in

FIG. 2

, and bearings


93


are located at the top of the side walls


86


and


87


for a purpose hereinafter set forth.




A tear bar


95


as best seen in

FIGS. 16 and 17

is either mounted to or integral with the bottom of the roller frame assembly


85


. The tear bar


95


may be provided with tabs


95




a


and clips


95




b


for attachment to the bottom of the roller frame assembly


85


if the tear bar


95


is not molded as part of the roller frame assembly


85


. A serrated edge


95




c


is at the bottom of the tear bar


95


for a purpose to be explained.




Finally, spring receptacles


96


at both sides of the roller frame assembly


85


from a box-like device between the bottom plate


88


and adjacent side walls


86


or


87


to house two leaf springs


97


which extend forwardly of the roller frame assembly


85


and cooperate with the cover


50


and particularly the front


51


thereof when the cover is in its closed position, as will be explained.




A tension roller assembly


100


is rotatably mounted on the roller frame assembly


85


and has a pair of bearings, not shown. The tension roller assembly


100


includes a shaft


101


, see

FIGS. 3-10

, and spaced roller segments


102


. A transfer roller assembly


105


is mounted interior of the tension roller assembly


100


on bearings


93


of the roller frame assembly


85


. The transfer roller assembly


105


includes a shaft cruciform in cross section, see

FIGS. 11-15

, provided with a journal


107


at one end and a journal


108


at the other end of the shaft, the journal


108


having a stop plate


109


extending upwardly from the journal, for a purpose to be set forth. A transfer mechanism


110


is positioned generally centrally of the shaft


106


and includes a cylindrical portion


11


having an indented or removed portion


112


and a groove or receptacle


116


which receives a snap clip


115


, as seen in

FIG. 2

, which is resilient and cooperates with the portion


112


for a purpose hereinafter set forth.




A drive roller assembly


120


is rotatably mounted on the chassis


55


and includes a plurality of longitudinally spaced apart drive roller segments


121


on a shaft connected at one end to a drive gear


122


at one end of the shaft. The drive gear


122


is more completely described in U.S. Pat. No. 3,843,218 issued to Krueger et al. Oct. 22, 1995, the disclosure of which is herein incorporated by reference. The drive gear


122


includes drive gear teeth


123


which mesh with the quadrant gear teeth


76


. The drive gear


122


further includes a one-way clutch assembly, all as previously described in the above-mentioned '218 patent.




A paper roll


130


may be mounted on the paper roll holder assembly


40


and more particularly between the two spaced apart hubs


43


and


44


thereof. The arms


41


and


42


are resilient to allow the arms to be spread to accommodate a new paper roll


130


. A flight of paper


131


from the roll


130


extends from the roll and as will be explained, passes over the drive roller


120


and is held thereagainst by the action of the tension roller assembly


100


, as is common in the art. The free end


132


of the paper roll


130


, when installed may be inserted under the clip


115


of the transfer mechanism


110


as will be described. When the paper roll


130


has been partially dispensed, it may be moved downwardly into the well formed by the bottom wall


59


of the chassis


55


whereupon it becomes a stub roll


135


, the core


138


of which is shown in

FIG. 3

in the well provided by the bottom


59


of chassis


55


. A flight of paper


136


from the stub roll


135


passes over the drive roller assembly


120


as particularly illustrated in

FIGS. 6 and 8

.




Operation of the dispenser


20


is hereinafter set forth. Referring now to

FIGS. 2

,


3


,


4


and


5


of the drawings, it will be seen that when the cover


50


of the dispenser


20


is moved away from the locked position thereof shown in

FIG. 1

to the position shown in

FIG. 5

, the roller frame assembly


85


rotates outwardly about the pivot shafts in apertures


89


such that the tension roller


100


and the transfer roller


105


carried on the roller frame assembly


85


are away from the drive roller mechanism or assembly


120


and the interior of the housing


21


is accessible. A reserve roll of toweling


130


may be inserted onto the paper roll holder assembly


40


by spreading the arms


41


and


42


apart so as to locate the hubs


43


and


44


into the core of a paper roll


130


. The flight


131


of which can be positioned easily over the drive roller assembly


120


as illustrated in

FIG. 5

, it being appreciated that

FIG. 5

shown a paper roll


130


which is partially dispensed while

FIG. 3

shows a paper roll that is reserve. The flight


131


of the paper roll


130


passes over the drive roller assembly


120


and thereafter the cover


50


can be moved from the open position shown in

FIG. 5

to the closed position shown in FIG.


3


. Movement of the cover


50


to the closed position of FIG.


3


causes the leaf springs


97


mounted on the roller frame assembly


85


to come in contact with the inside of the cover front panel


51


and resiliently to urge the tension assembly


100


into contact with the flight


131


from the paper roll


130


thereby to ensure frictional contact between the paper flight


131


and the drive roller assembly


120


and more particularly the drive roller segments


121


thereof.




As can be seen in

FIG. 3

, the actuator assembly mechanism


65


is in the home or rest position in

FIG. 3

whereas when the housing


21


is open for maintenance, the actuator assembly mechanism


65


is moved from the rest or home position illustrated in

FIG. 3

to the dispensing position illustrated in FIG.


5


. In the position illustrated in

FIG. 5

, it will be noted that the segment stop wall


77


is in contact with the sleeve


46


to prevent further rotation of the actuator assembly mechanism


65


around the pivots or mounting


71


to the chassis


55


. The sleeve


49


in cooperation with the stop wall


77


also limits the amount of toweling dispensed with each actuation of the push bar


66


.




After a certain amount of the roll


130


has been dispensed, the towel dispenser


20


is again opened to the position shown in FIG.


5


. This time, a portion of the roll


130


remains and a reserve roll of toweling can now be moved into position. As illustrated in

FIGS. 6-8

, the previous roll of toweling partially dispensed (but preferably having a diameter of about 4 inches or less) is now moved into the position shown in

FIGS. 6 and 8

and is denoted by the reference numeral


135


as a stub roll which rests on the bottom


59


of the chassis


55


. The flight


136


extending from the stub roll


135


which is mounted on a core


138


as seen in

FIGS. 3

,


9


and


10


, still passes over the drive roller assembly


120


. After the stub roll


135


is moved to the position shown in

FIGS. 6 and 8

, a fresh roll


130


of toweling can be inserted onto the paper roll holder assembly


40


as previously described. The flight


131


having a free end


132


is then threaded into the transfer roll assembly


105


. More specifically, the free end


132


of the flight


131


is retained under the clip


115


which urges the toweling against the indented portion


112


of the transfer mechanism


110


after the free end


132


of the reserve roll


130


is inserted into the clip


115


, the flight


131


from the reserve toll


130


passes over the flight


136


from the stub roll


135


and is therefore out of contact with the drive roller assembly


120


and more particularly out of contact with the drive roller segments


121


. The drive roller segments


121


are preferably made from a tacky material such as rubber or other frictional materials such as sand paper or the like in order to drive the flight of toweling in contact therewith. Because of the weight of the roller frame assembly


85


with both tension roller assembly


100


and transfer roller assembly


105


mounted thereon, the roller frame assembly


85


moves to its maintenance position illustrated in

FIG. 6

when the cover


50


is in the open position as illustrated in

FIGS. 5 and 6

.




When the cover


50


is moved to its closed position as illustrated in

FIG. 8

, the leaf springs


97


bear against the inside of the front


51


of the cover


50


and urge the roller frame assembly


85


into the position illustrated in

FIG. 8

wherein the tension roller assembly


100


and more particularly the roller segments


102


thereof are urged against the flight


136


of the stub roller


135


which passes over the drive roller assembly


120


to ensure frictional contact between the drive roller segments


121


and the flight


136


. As will be noted from

FIGS. 6 and 8

, the transfer roller assembly


105


is out of contact with the drive roller assembly


120


due to the flight


136


from the stub roll


135


which passes therebetween. In this condition, actuation of the actuator assembly


65


to dispense paper toweling


136


from the dispenser


20


does not cause rotation of the transfer roller assembly


105


.




As before noted, the torsion spring biases the actuator assembly mechanism


65


into the position shown in

FIGS. 3 and 8

. Movement of the push bar


66


causes rotation of the drive roller assembly


120


. More particularly, movement of the actuator assembly mechanism


65


to the right as shown in

FIGS. 3 and 8

causes the quadrant gear


76


and the teeth thereof to engage the teeth


123


on the drive gear


122


to cause the drive gear


122


and thereby the drive roller segments


121


to rotate in a counter clockwise direction. The one way clutch in the mechanism


122


disengages after the actuator assembly mechanism


65


reaches the end of its stroke whereupon the sleeve


46


comes in contact with the stop surface


77


of the arcuate segment


75


. When the torsion spring causes the push bar


66


to move to the left in the direction opposite of the arrows in

FIGS. 3 and 8

, the one way clutch assembly in the drive gear


122


disengages whereby the drive rollers


121


do not rotate in an opposite direction. Repeated actuation of the push bar


66


causes the stub roll


135


to be dispensed, in general a web of approximately 5-12 inches of toweling is dispensed with each complete actuation of the actuator assembly mechanism


65


and toweling is torn from the dispenser


20


by engagement of the flight of toweling with the tear bar


95


and particularly the serrated edge


95




c.


In some instances, the paper is glued to the roll and in these instances the roll tends to interfere with the transfer roll assembly


105


. To prevent this core stops may be added to prevent contact of the roll with the transfer roll assembly


105


.




When the paper roll


130


gets to be approximately four inches in diameter, it can be moved from the position shown in FIG.


3


and becomes a stub roll


135


as shown in

FIGS. 6 and 8

. After a reserve roll


130


is inserted into the dispenser


20


and the free end


132


of the flight


131


is inserted the clip


115


as previously discussed, the configuration illustrated in

FIGS. 6 and 8

is obtained. In

FIG. 9

the stub roll


135


is exhausted and a free end


132


of the flight


131


is moved into the nip formed between the transfer roller


105


and the drive roller assembly


120


, all as illustrated in

FIG. 9

, because the absence of flight


131


causes the transfer roll assembly


105


to contact the drive rollers


121


causing clockwise rotation of the transfer roller


105


. Continued movement of the actuator assembly


65


to the right or in the direction of the arrow in

FIG. 9

causes the free end


132


of the flight


131


to move between the transfer roller


105


and the drive roller


120


until the free end


132


meets the nip between the tension roller


100


and the drive roller assembly


120


. Further actuation then causes the flight


131


to be dispensed from the housing


121


as previously illustrated. Rotation of the transfer roller


105


is limited by the stop plate


109


. Thereafter, toweling is dispensed in response to actuation of the actuator assembly mechanism


65


until the roll


130


is reduced to about four inches in diameter whereafter it can be moved as a stub roll


135


to the position illustrated in

FIGS. 6 and 8

.




An important feature of the present invention is the relationship between the actuator assembly mechanism


65


and particularly the push bar


66


thereof and the bottom


59


of the chassis


55


. The close spatial relationship in the arc of travel of the bar


66


and the shape of the bottom


59


prevent users from inadvertently jamming a finger between the inner edge surface


72


of the push bar


66


and the bottom


59


of the chassis


55


. This is an important safety feature and particularly useful for young children.




Another important feature of the present invention is the fact that the push bar


66


extends entirely across the width of the housing


21


. This configuration of the push bar


66


permits easy use of the dispenser


20


by both left handed and right handed individually as well as by disabled persons in wheelchairs or younger users who are not tall enough to reach the usual mechanisms which are higher up on the housing


21


. The dispenser


20


may be made out of plastic or metal as may be the major constituents of the dispenser. Preferably, the housing is made of a plastic material and molded in one piece. The cover


50


may also be molded of a single piece and pivotally mounted onto the housing


21


. The chassis


55


is also preferably molded as a single piece and is easily inserted into the housing


21


, even in the field due to the clips


38


and the screws


47


. The roller frame assembly


85


is also preferably molded as a single plastic piece and the tear bar


95


may be either integrally molded with the roller frame assembly


85


or may be a metal piece clipped on by use of the tabs


95




a


and the resilient clips


95




b.


The transfer roller assembly


105


can also be integrally molded as a single piece with the clip


115


being snap fit into the receptacle


116


provided in the transfer mechanism cylindrical position


111


. As previously stated, the stop plate


109


serves to limit the amount of rotation of the transfer roller assembly


105


so that the transfer roller assembly


105


rotates through approximately 180° of arc.




Because the quadrant gear


76


causes the drive roller to rotate in a counter clockwise direction as viewed in

FIG. 9

, the transfer roller


105


rotates in a clockwise direction until the free end


132


of the flight


131


is introduced into the nip between the tension roller


100


and the drive roller assembly


120


.




A significant aspect and important object of the invention is that the dispenser


20


is designed to transfer the reserve roll


130


only when the stub roll


135


is exhausted. Although it may be that under certain conditions of high static electricity, a premature transfer may take place, the only result of this is that two flights of paper


131


and


136


are dispensed simultaneously, a condition which can be endured and is preferred to the situation where no paper is dispensed. Nevertheless, under the usual and ordinary commercial working situation, the dispenser


20


will operate to transfer paper at a zero condition, that is when the stub roll


135


is exhausted and the transfer roller


105


and most particularly the cylindrical portion


111


thereof comes in contact with the drive roller segments


121


thereby causing rotation of the transfer roller


105


to introduce the free end


132


of the flight


131


into the nip between the drive roller assembly


120


and the tension roller assembly


100


. At the present time, the dispenser


20


dispenses about 5-{fraction (


1


/


2


)} inches of towel per stroke, but this can be varied by means well know in the art.




While there has been disclosed what is considered to be the preferred embodiment of the present invention, it is understood that various changes in the details may be made without departing from the spirit, or sacrificing any of the advantages of the present invention.



Claims
  • 1. In a dispenser for dispensing a web from a roll of paper, said dispenser including a housing and a housing cover connected thereto movable between a closed position and an open position to provide access to the housing interior, said housing defining a dispensing outlet and including means for supporting a paper roll within said housing, a drive roller rotatably mounted inside said housing for dispensing a length of paper from the paper roll, drive means for rotating said drive roller including actuator means operatively connected to said drive means, the improvement comprising a roller frame assembly mounted within said housing carrying a tension roller thereon, said roller frame assembly being movable between a use position wherein said tension roller contacts a paper web from the roll of paper urging the paper web against said drive roller and a maintenance position wherein said housing cover is in its open position and said roller frame assembly is spaced away from said drive roller to provide access to the housing interior and to said means for supporting a paper roll, and said roller frame assembly being movable between said use position and said maintenance position independently of the housing cover, said roller assembly being biased by gravity toward its maintenance position such that when said housing cover is in its open position said tension roller is spaced away from said drive roller permitting easy insertion of a paper web therebetween, and said roller frame assembly carries spring means contacting said housing cover when in it's closed position urging said roller frame and said tension roller toward said driver roller to maintain frictional contact between the paper web and said drive roller, whereby movement of said actuator when said housing cover is in its closed position and said roller frame is in its use position operates said drive means to rotate said drive roller causing paper in contact therewith to be unwound from the paper roll and dispensed through said dispensing outlet.
  • 2. The dispenser of claim 1, wherein said roller frame assembly is pivotally mounted with respect to said housing.
  • 3. The dispenser of claim 1, and further comprising a serrated tear at the bottom of said roller frame assembly for tearing paper dispensed by movement of said actuator.
Parent Case Info

This is a divisional of application Ser. No. 08/705,326 filed Aug. 29, 1996, now U.S. Pat. No. 6,032,898.

US Referenced Citations (35)
Number Name Date Kind
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