Abstract:
An automatic electronic dispenser for dispensing a roll of paper product that avoids refeeding of paper by retarding breaking on the high side of the roll. A dispenser module drives paper from the roll through a discharge chute at the bottom of the module. The dispenser module utilizes two floating pressing rollers and a belt drive that provides quiet and consistent operation by pressing of the two pressing rollers onto a main roll. The dispenser module including a main bar module which holds the roll and which is received on paper holder arms.

Description:
TECHNICAL FIELD 
       [0001]    Embodiments of the invention relate generally to tissue dispensing mechanisms and, more particularly, to electronic tissue dispensing systems for perforated flexible sheet material. 
       BACKGROUND 
       [0002]    The dispensing of paper products has resulted in many different types of dispensing devices for controlling quantities dispensed as well as for determining how efficiently the paper products are dispensed. Primarily, these dispensers use mechanical paper feeding mechanisms, actuated by the user physically touching the dispenser equipment to deliver a fixed length of paper. This bodily contact can raise concerns over hygiene when such dispensers are located in public restroom facilities. 
         [0003]    Commercial dispensing devices for separating a continuous roll of tissue paper typically include a pair of arms for supporting the roll of tissue. Such devices include a driving roller and a pressing roller for pulling the tissue down through the dispenser throat. A cutting blade can cut the toilet paper when the paper is pulled by the user. Dispensing devices for separating a continuous roll of tissue paper with tear lines (i.e., perforations) typically drive the tissue through the dispenser so that the user tears the tissue paper along the tear lines. 
         [0004]    The use of electronic dispensers is becoming more prevalent especially in public restroom facilities where the electronic dispensers can dispense a measured length of towel sheet material upon sensing the presence of a user. In such “hands free” operation, the user does not manually activate or otherwise contact the dispenser in order to initiate a dispense cycle. However, the thinness of tissue sheet material has generally prevented the use of electronic dispensers for either public-use or residential dispensing equipment because the dispensing equipment will stop functioning if the perforated tissue breaks inside the dispenser. 
         [0005]    In addition, conventional electronic dispensers accumulate and discharge static electricity during the dispense cycle. Static charge can be generated by various components or operations such as the movement of sheet material over rollers, interactions between rollers, etc. If the static charge is not dissipated, the user may receive a static shock if he touches the dispenser during use. The static charge can adversely affect the electronic control and sensor circuitry in the dispenser. 
       SUMMARY 
       [0006]    In one embodiment, an electronic tissue dispenser is provided for dispensing tissue sheet material, for example, perforated tissue or other paper materials. A dispenser housing contains a support mechanism for holding at least one roll of tissue sheet material, and includes a base for mounting to a surface, a cover pivotally mounted to the base, and a discharge chute formed within the housing for discharging the tissue sheet material from the dispenser. A control circuit in the housing can control dispensing of the sheet material from the housing. A dispensing mechanism can drive tissue sheet material from the housing upon receiving a signal from the control circuit. The dispenser can include an adjustable proximity sensor. The dispensing mechanism is operative to be responsive to a signal from the proximity sensor to dispense a sheet of material. 
         [0007]    In one embodiment, an automatic electronic dispenser for dispensing a roll of perforated paper sheet materials includes a dispenser module for driving paper from the roll through a discharge chute at the bottom of the module. A front cover hinged on each side rotates to an open position for loading a paper roll. A back cover enables mounting the electronic dispenser to a vertical surface such as a wall. The dispenser module includes a paper roll holder attached to the sides of the dispenser module; a driving roller for unrolling the perforated paper material from the paper holder in response to a signal from an electronic sensor; and a plurality of pressing rollers, the pressing rollers engaging the driving roller as the perforated paper materials are being dispensed along a path between the pressing and driving rollers to a discharge chute. 
         [0008]    In another embodiment, an automatic electronic dispenser for dispensing a roll of paper product includes a dispenser module for driving paper from the roll through a discharge chute at the bottom of the module. The dispenser module includes a holder support mechanism secured to a dispenser frame; a paper roll holder mechanism including a plurality of paper holder arms attached to opposite ends of the holder support mechanism, the paper holder arms shaped to fit into a core of the paper roll; a driving roller for unrolling the paper from the paper holder in response to a signal from an electronic sensor; and a plurality of belt-driven pressing rollers, the pressing rollers engaging the driving roller to dispense paper along a path between the pressing and driving rollers to a discharge chute. 
         [0009]    In yet another embodiment, an automatic electronic dispenser for dispensing a roll of paper product that generally avoids a need for refeeding of the paper product into the dispenser prior to replacement of a spent roll by retarding breaking or premature tearing of the paper, such as along preformed perforations or other lines of separation on the high side of the roll is provided. A dispenser module drives paper from the roll through a discharge chute at the bottom of the module. The dispenser module utilizes drive roller drivers by operation of a drive motor and two floating pressing rollers driven by the drive roller via a belt drive arrangement that provides quiet and consistent operation of the pressing rollers in conjunction with the drive roll, with the perforated sheet material being positively drawn therebetween so as to further help avoid breaking or tearing of the paper sheets, such as along perforations therebetween. The dispenser module including a main bar module which holds the roll and which is received on paper holder arms. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0010]    These and other advantages and aspects of the embodiments of the disclosure will become apparent and more readily appreciated from the following detailed description of the embodiments taken in conjunction with the accompanying drawings as follows: 
           [0011]      FIG. 1  illustrates an isometric view of components of the electronic residential dispenser with front and back covers removed in an exemplary embodiment. 
           [0012]      FIG. 2  illustrates an exploded isometric view of the components of the electronic residential dispenser in an exemplary embodiment. 
           [0013]      FIG. 3  illustrates an exploded view of the dual driving roller assembly in an exemplary embodiment. 
           [0014]      FIGS. 4A-4B  illustrate external isometric front and bottom views of the residential electronic dispenser in an exemplary embodiment. 
           [0015]      FIGS. 5A-5B  illustrate the electronic residential dispenser module supporting a roll of electronic tissue between a pair of paper holder arms showing the location of a static release inside in an exemplary embodiment. 
           [0016]      FIGS. 6A-6B  illustrate the electronic residential dispenser module with the paper holder arms removed and an exploded view of the module frame and other components in an exemplary embodiment. 
           [0017]      FIGS. 7A-7B  illustrate the electronic residential dispenser module with the paper holder arms installed and an exploded view of the module frame and other components in an exemplary embodiment. 
           [0018]      FIG. 8  illustrates the driving roller and dual pressing rollers in physical contact with each other in an exemplary embodiment. 
           [0019]      FIG. 9  illustrates the separate driving roller and dual pressing roller components in an exemplary embodiment. 
           [0020]      FIGS. 10A-10B  illustrate front and bottom isometric views of the electronic residential dispenser module in an exemplary embodiment. 
           [0021]      FIG. 11  illustrates an isometric side view of the electronic residential dispenser module with the cover and paper holder arms removed in an exemplary embodiment. 
           [0022]      FIGS. 12A-12B  illustrate an isometric view of the electronic residential dispenser module with the cover closed and with the cover opened in an exemplary embodiment. 
           [0023]      FIG. 13  illustrates an isometric view of an electronic residential dispenser in a closed position in an alternate embodiment. 
           [0024]      FIG. 14  illustrates a bottom isometric view of an electronic residential dispenser module with in an alternate embodiment. 
           [0025]      FIGS. 15A-15B  illustrate an isometric view of an electronic residential dispenser with the cover closed and with the cover open in an alternate embodiment. 
           [0026]      FIGS. 16A-16B  illustrate a tissue roll support mechanism and a belt drive mechanism in an alternate embodiment. 
           [0027]      FIGS. 17A-17B  illustrate front perspective and side elevation views of the electronic residential dispenser in an alternate embodiment. 
           [0028]      FIGS. 18A-18B  illustrate the paper holder arms and wire holder support in greater detail in an alternate embodiment. 
           [0029]      FIG. 19  illustrates operation of the belt-driven components of the electronic residential dispenser module in an alternate embodiment. 
           [0030]      FIG. 20  illustrates an exploded view of the individual components of the dual pressing rollers, driving roller, and belt drive in an alternate embodiment. 
           [0031]      FIGS. 21A-21B  illustrate the motor and gear mechanism for the belt drive in an alternate embodiment. 
           [0032]      FIG. 22  illustrates the layout of an electronic dispenser network system  100  for automatic monitoring and dispensing in an exemplary network embodiment. 
           [0033]      FIG. 23  illustrates a block diagram of a master network device for the electronic dispensing system in an exemplary network embodiment. 
           [0034]      FIG. 24  illustrates a block diagram of an electronic dispenser control system in an exemplary embodiment. 
           [0035]      FIG. 25  illustrates an additional embodiment of an electronic residential dispenser module mounted on a pedestal. 
           [0036]      FIGS. 26A-26D  illustrate the electronic residential dispenser module of the embodiment of  FIG. 25  showing different configurations of hingeable covers. 
           [0037]      FIG. 27  illustrates a tissue roll support mechanism and a belt drive mechanism of the embodiment of  FIG. 25 . 
           [0038]      FIGS. 28A-28B  illustrate the electronic residential dispenser module of the embodiment of  FIG. 25  with the paper holder arms removed. 
           [0039]      FIGS. 29A-29B  illustrate front perspective views of the embodiment shown in  FIG. 25  of the electronic residential dispenser without and with a paper roll. 
           [0040]      FIG. 30  illustrates an exploded view of the electronic residential dispenser module components of the exemplary embodiment shown in  FIG. 25 . 
           [0041]      FIG. 31  illustrates an exploded view of the driving roller and dual press rollers of the embodiment shown in  FIG. 25 . 
           [0042]      FIGS. 32A-32B  illustrate the gear mechanism of the electronic residential dispenser module of in the embodiment of  FIG. 25 . 
           [0043]      FIG. 33  illustrates the driving roller and dual press rollers in physical contact with each other in the embodiment shown in  FIG. 25 . 
       
    
    
     DETAILED DESCRIPTION 
       [0044]    The following description is provided as an enabling teaching of embodiments of the invention. Those skilled in the relevant art will recognize that many changes can be made to the embodiments described, while still obtaining the beneficial results. It will also be apparent that some of the desired benefits of the embodiments described can be obtained by selecting some of the features of the embodiments without utilizing other features. Accordingly, those who work in the art will recognize that many modifications and adaptations to the embodiments described are possible and may even be desirable in certain circumstances. Thus, the following description is provided as illustrative of the principles of the invention and not in limitation thereof, since the scope of the invention is defined by the claims. 
         [0045]    The embodiments described may utilize concepts disclosed in commonly-owned patents U.S. Pat. No. 7,213,782 entitled “Intelligent Dispensing System” and U.S. Pat. No. 7,370,824 entitled “Intelligent Electronic Paper Dispenser,” both of which are incorporated by reference herein. The embodiments may also utilize concepts disclosed in published patent application US 2008/0100982 entitled “System and Method for Dissipating Static Electricity in an Electronic Sheet Material Dispenser” and incorporated by reference herein. 
         [0046]    The dispenser in the disclosed embodiments may also be referred to herein as the electronic residential tissue dispenser (ERTD) although the disclosed embodiments of the dispenser are also suitable for public or commercial uses. 
         [0047]    In one embodiment, a dispenser is provided for controlled dispensing of rolled sheet materials, for example, tissue paper sheets or other, similar materials that can have a series of perforations or other lines/areas of separation. It thus will be understood that while the present embodiment is shown for use in feeding tissue paper, other sheet materials also can be fed using the present dispenser. In the illustrated embodiments, the tissue paper roll can sit on the dispenser arms in a manner similar to that of towel dispensers currently available. When the user pulls tissue paper from the roll (manual operation), the tissue paper is pulled by the large driving roller through the two small pressing rollers. The problem with tissue paper is that it typically is perforated so as to define discrete size sheets. With the current design of towel dispensers is modified for use as a tissue dispenser, if the user pulls tissue and the perforation breaks above the pressing roller, the paper can no longer feed. The paper will not feed unless the dispenser unit “rolls the roll” as disclosed in U.S. Pat. No. 7,213,782 and U.S. Pat. No. 7,370,824. However, a more cost-effective design for tissue dispensing is provided by the disclosed embodiments having at least double pressing rollers. If the perforation tears between the two pressing rollers the dispenser will continue to self-feed in both manual and automatic operation (using infrared sensors to trigger tissue dispensing). 
         [0048]    The embodiments disclosed are suitable for both residential and commercial use. The use of double pressing rollers is unique in dispenser mechanisms. Other tissue dispensers function like the commercially available paper towel dispensers. If a perforation is read when paper is being dispensed, the dispenser re-feeds the perforated sheet and then sets the tissue so that it tears on the other side of the pressing roller. 
         [0049]    In the exemplary embodiments, perforations are not necessarily shown since it does not matter where the perforation is because of the double pressing rollers. Unless the tissue breaks above the top pressing roller, the tissue in the dispenser is always self-feeding. The tissue paper is always re-fed automatically through the driving roller and the dual pressing rollers. 
         [0050]      FIG. 1  illustrates an isometric view of components of the electronic residential dispenser with front and back covers removed in an exemplary embodiment. In this embodiment, the electronic residential dispenser  10  includes an electronic residential dispenser module  20 , a rear cover  14  that can be mounted to a wall, a front cover  12 , a roll of perforated tissue paper mounted between a pair of paper holder arms  18 , battery compartment lid  22 , and roller assembly  30 . The roller assembly including the driving roller and dual pressing rollers is described in detail herein. Although this embodiment is intended for mounting to a wall in a residential bathroom, other embodiments may use other types of mounts including a pedestal mount. This embodiment can also be installed in a commercial restroom modified to accept alternating current power instead of battery power. 
         [0051]      FIG. 2  illustrates an exploded isometric view of the components of the electronic residential dispenser in an exemplary embodiment. The components shown include driving roller  32 , dual pressing rollers  34 , paper holder arms  18 , battery lid  22 , batteries  24 , and various frame components. The dual pressing rollers  34  are mounted between end mounts  42  and to frame  42  by front mounts  46 . The dual pressing rollers  34 , driving roller  32 , and most components of electronic residential dispenser  10  can be made from a plastic or synthetic material, such as an ABS plastic, although other materials may be used in other embodiments. 
         [0052]    In the prior art, paper dispensers use a single pressing roller. However, with a single pressing roller, the user can tear the paper and the perforation may break inside the rollers. In the exemplary embodiment of  FIG. 2 , the two pressing rollers  34  are spring-loaded ABS rollers. The two pressing rollers  34  press against the driving roller  32 . The two pressing rollers are also referred to herein as double or dual pressing rollers. Both pressing rollers  34  press against the driving roller  32  when tissue is being dispensed. This allows the dispenser mechanism to prevent tissue perforations from tearing above the second pressing roller. If the perforation ever breaks between the pressing rollers, the tissue paper will continue to feed. 
         [0053]    In an exemplary embodiment, the electronic tissue paper dispenser has standard arms for holding the roll of tissue paper. The double pressing rollers may also be referred to as double feeding rollers. In contrast to automatic tissue dispensers in the art which include a tear bar or similar mechanism to cut paper towel, the disclosed embodiments do not have or need a tear bar. Instead a flapper bar is located at the bottom of the discharge chute (dispenser throat). The significance of having two rollers pressing on the driving roller is that if the perforations ever break on the upstream side of the second pressing roller, the second pressing roller continues to feed the paper. If the perforation breaks on the discharge side, the paper will continue to feed when requested by the user. 
         [0054]      FIG. 3  illustrates an exploded view of the dual driving roller  34  assembly in an exemplary embodiment. The figure shows the dual pressing rollers  34 , end mounts  42 , front frame part  44 , and a plurality of mounts  46  for securing frame part  46  to the dual pressing rollers  34 . 
         [0055]      FIGS. 4A-4B  illustrate external isometric front and bottom views of the residential electronic dispenser in an exemplary embodiment. The front isometric view of  FIG. 4A  shows the paper holder arms  18 , the battery compartment lid  22 , the driving roller  32 , and the upper pressing roller  34  of residential electronic dispenser  20 .  FIG. 4B  shows bottom surface  50 , cutting bar  56 , and proximity sensors  52 ,  54  which detect the presence of a user&#39;s hand below the throat  58  of the dispenser  20 . In one embodiment, the proximity sensors may include an infrared emitter and an infrared receiver. A flapper bar  56  is located adjacent the discharge chute (throat)  58  of the dispenser  20  for removing the perforated tissue paper hanging below the discharge chute  58 . 
         [0056]      FIGS. 5A-5B  illustrate the electronic residential dispenser module supporting a roll of tissue paper between a pair of paper holder arms showing the location of a static release inside in an exemplary embodiment.  FIG. 5A  shows the roll of tissue paper  16  which may be perforated held in place by paper roll holder  18 . Also shown is driving roller  32  contacting pressing roller  34 .  FIG. 5B  shows an interior portion of the electronic residential dispenser module  20  including a static release  60 . Static is released from the bottom of the module  20 . The dual rollers solve the paper break problem inside the dispenser module. The batteries that provide power for operation of the dispenser are loaded in the battery compartment on the back part of the dispenser. The static release is from the bottom of the dispenser module. 
         [0057]      FIGS. 6A-6B  illustrate the electronic residential dispenser module with the paper holder arms removed and an exploded view of the module frame and other components in an exemplary embodiment.  FIG. 6A  shows the position of battery compartment lid  22  covering the battery compartment of residential dispenser module  20  and the top parts of the driving roller  32  and the upper pressing roller of dual pressing roller  34 . The exploded view of the module frame in  FIG. 6B  also shows battery compartment  62 , batteries  24 , driving roller  32 , dual pressing rollers  34 , end mounts  42 , front frame part  44 , and a plurality of mounts  46  for securing frame part  46  to the dual pressing rollers  34 . 
         [0058]      FIGS. 7A-7B  illustrate the electronic residential dispenser module with the paper holder arms installed and an exploded view of the module frame and other components in an exemplary embodiment.  FIG. 7A  shows the attachment of the paper holder arms to the electronic residential dispenser module  20 . In one embodiment, the paper holder arms  18  may be similar to paper holder arms used to support heavier sheet material such as paper towels. The driving roller  32 , pressing roller  34 , and battery compartment lid of electronic residential dispenser module  20  are also shown in this drawing.  FIG. 7B  shows an exploded view of the module frame in addition to driving roller  32 , battery compartment lid  22 , batteries  24 , and paper holder arms  18 . 
         [0059]      FIG. 8  illustrates the driving roller  32  and dual pressing rollers  34  in physical contact with each other in an exemplary embodiment. In operation, as the rollers  32 ,  34  rotate, the tissue paper is dispensed from the roll held by paper holder support arm  18  and driven between the rollers  32 ,  34  to the dispenser exit. If the tissue paper breaks at a perforation between the two pressing rollers  34 , the tissue paper will continue to automatically feed to the dispenser exit. 
         [0060]      FIG. 9  illustrates the separate driving roller  32  and dual pressing roller  34  components in an exemplary embodiment. In the embodiment shown, both driving roller  32  and pressing rollers  34  include a series of evenly-spaced annular ridges  33 ,  35 , respectively, on the periphery of each roller. As the rollers  32 ,  34  are activated to dispense tissue paper  16  between them; the ridges  33 ,  35  make contact with the tissue paper  16  as the rollers rotate to drive the tissue paper through the discharge chute. In other embodiments, the driving and dual pressing rollers may be fabricated without ridges (i.e., continuous outer surface) on the periphery of each roller. 
         [0061]      FIGS. 10A-10B  illustrate front and bottom isometric views of the electronic residential dispenser module in an exemplary embodiment.  FIG. 10A  shows the electronic residential dispenser with the front cover removed. The components depicted include dispenser module  20 , tissue paper roll  16 , paper holder support arm  18 , and rear cover  14 .  FIG. 10B  shows bottom surface  50  and proximity sensors  52 ,  54  which detect the presence of a user&#39;s hand below the throat  58  of the dispenser  20 . In one embodiment, the proximity sensors may include an infrared emitter and an infrared receiver. 
         [0062]      FIG. 11  illustrates an isometric side view of the electronic residential dispenser module with the cover and paper holder arms removed in an exemplary embodiment.  FIG. 11  shows driving roller  32 , dual pressing rollers  34 , and battery compartment cover  22 . 
         [0063]      FIGS. 12A-12B  illustrate an isometric view of the electronic residential dispenser module with the cover closed and with the cover opened in an exemplary embodiment. As shown in these figures, the electronic residential dispenser module  20  is fixed relative to the frame support. 
         [0064]    Parent patent application Ser. No. 13/842,343, filed Mar. 15, 2013, describes and illustrates an alternate embodiment of the electronic tissue dispenser in which electronic residential dispenser module has a swivel portion that opens for weight when the front cover is opened. The parent application Ser. No. 13/842,343, as amended on Jul. 10, 2013 and Nov. 4, 2013, is hereby incorporated by reference in its entirety herein. 
         [0065]      FIG. 13  illustrates an isometric view of an additional embodiment of an electronic residential dispenser  200 , shown in a closed position, which dispenser can operate on standard alkaline battery cells or other, similar power source so as to enable the dispenser to be a portable or stand-alone unit as needed. Low power light  202  and manual button  204  are shown on the front of the dispenser module  220 . Dispenser cover  206  can be fabricated from a lightweight, low cost plastic material such as a clear ABS plastic, or other, similar material. The core of a paper roll such as a perforated tissue or other rolled paper material, is mounted on paper roll holders  218  which are mounted to formed circular clamps at opposite ends of a U-shaped holder support mechanism  230  which, in turn, is mounted to brackets on the rear vertical portion of dispenser module  220 . Although this embodiment could be mounted to a wall in a residential bathroom, other types of mounts could be used including a pedestal mount. This embodiment can also be installed in a commercial restroom modified to accept alternating current power instead of battery power. 
         [0066]      FIG. 14  illustrates a bottom isometric view of the electronic residential dispenser module of  FIG. 13 .  FIG. 14  shows bottom surface  208 . Proximity sensors, for example being located at areas such as indicated at  209 , can detect the presence of a user&#39;s hand below the throat of the dispenser module  220 . In one embodiment, the proximity sensors may include an infrared emitter and an infrared receiver. 
         [0067]      FIGS. 15A-15B  illustrate an isometric view of the electronic residential dispenser  200  with the clear cover closed and with the clear cover opened. Both illustrations show the dispenser module  220 , holder support mechanism  230  and the outer surface of paper holder arm  218 . 
         [0068]      FIGS. 16A-16B  illustrate the paper roll support mechanism  230  and a drive mechanism  240  therefor in further detail. For example,  FIG. 16A  shows a roll of tissue paper  16  wherein the paper roll  16  is mounted on paper holder arms  218 . The paper holder arms  218  can include generally conically shaped members that can be formed of a reduced friction material to help assist in easy feeding of the paper from the roll. The paper holder arms  218 , which may also be referred to as “hubs”  218  herein are attached to the dispenser module  220  frame by the roll holder support mechanism  230 , shown in the present embodiment as including wire or similar supports  231  that can have a bias or resiliency to accommodate varying size rolls and to provide some amount of flex or giving as the paper is drawn from the roll, although other materials also can be used.  FIG. 16B  shows the paper holder arms  218  and roll holder support mechanism  230  in greater detail with the roll of paper removed, and further generally illustrates the arrangement of a driving roller  232  and pressing rollers  234  of the present embodiment, defining a paper feed passage  233  through which the paper sheet material is drawn during a feeding operation. 
         [0069]    Also shown in the expanded portion of dispenser module  220  of  FIG. 16B  is the drive mechanism  240 . The drive mechanism  240  can include one or more belt drive assemblies  240 A/ 240 B mounted on opposite sides of the dispenser. Each belt drive assembly  240 A/ 240 B including a drive belt  241  that is extended about grooves  245  defined or formed at the ends  246  of pressing rollers  234 , about and received within a peripheral surface of external gears  242 . The belts  241  also can be extended/engaged about gears, sprockets or other hub members mounted to the ends of the pressing rollers. The drive belts  241  generally can be formed of a substantially non-stretch, non-slip material to avoid reductions in driving traction, and alternatively could include a linkage of a plastic or synthetic material. A biased tension or take-up roller  249 , also can be provided, with the drive belt extended thereabout, to help maintain tension in the drive belt during use. A motor  248  (shown in  FIGS. 19 and 20 ) engages a driving roller  232  with the dual pressing rollers  234  being correspondingly driven with the operation of the drive roller  232  by the drive belt passing thereabout. 
         [0070]      FIGS. 17A-17B  illustrate further front perspective and side elevation views of the electronic residential dispenser of the present embodiment. The front perspective view of  FIG. 17A  shows a full roll of tissue paper  16  mounted on paper holder arms  218  by roll holder support mechanism  230  which is attached to the dispenser module  220  frame by brackets  228 . The paper in this illustration feeds into and is driven directly by the driving roller  232  and the pressing rollers  234 .  FIG. 17B  shows the range of motion for the roll holder support mechanism  230  during the dispensing of a full roll of paper. 
         [0071]      FIGS. 18A-18B  illustrate the paper holder arms (hubs)  218  and roll holder support mechanism  230  in greater detail. The rear section of roll holder support mechanism  230  is secured to the back of the dispenser module  220  by brackets  228 . The two sides of roll holder support mechanism  230  include circular clamps  226  at the ends thereof that fit over both roll holder supports  216  centered on the outer surface of paper holder arms  218 . End supports  224  secure the circular clamps  226  to each roll holder support by a bolt or other attachment means. 
         [0072]      FIG. 19  further illustrates the drive mechanism  240  and belt-driven components of the electronic residential dispenser module, which generally performs substantially the same functionality as the embodiment of  FIGS. 1-12 . In this embodiment, the motor  248  is attached to a gear box  250 , or transmission, for providing a driving force or power to the driving roller  232  to drive the rotation thereof. Also shown in  FIG. 19  are drive belts  240  positioned over and received with the grooved surfaces  245  defined at the ends  246  of pressing rollers  234  and formed about the peripheral surface of belt drive hubs  242  at each side of the dispenser. The drive belts can be seated within the grooves  245  of the belt drive hubs  242  and pressing roller ends in a tensioned or substantially engaged, fitted arrangement to help maintain a consistent driving of the pressing rollers at a substantially equivalent or cooperative rate with the rotation of the driving roll for drawing or pulling the paper sheet through the feed passage  233 . The drive belt driven operation of the pressing rollers in cooperation/conjunction with the operation of the driving roller of the present embodiment thus can provide for an enhanced, substantially consistent positive engagement and pulling of the sheet material through the feed passage between the driving and pressing rollers, which can help minimize the potential for tearing of the paper above the driving roller. The belt drive mechanism also can enable a reduction in noise generated by operation of the dispenser, which further can be less costly to produce and operate, while being suitable for use as a residential or commercial tissue or paper dispenser, and/or for use in other types of flexible sheet dispensers, without requiring substantial adjustments during the dispensing cycle to line up the paper perforations with a flapper bar or other cutting mechanism. 
         [0073]    In the present embodiment, the driving roller  232  and pressing rollers  234  also can be fabricated from wood, which can reduce the cost of the rollers over the cost of using ABS plastic or rubber rollers, while enabling a positive engagement and drawing of the paper sheet material therebetween, and can further reduce the incidence of static electricity potentially being generated during feeding of the paper by the rollers. As  FIGS. 19-20  indicate, the driving roller  232  could include grooves  236 , and the pressing rollers  234  can include grooves  238 , which serve to keep the paper from sliding on the rollers, i.e., from pulling to one side during operation. The grooves  236 ,  238  of the drive and pressing rollers are designed and spaced for keeping the paper from sliding on the rollers  232 ,  234  regardless of the material used for the rollers. The driving roller  232  and double pressing rollers  234  also can be machined to provide spacers between each section of the rollers. For example, the driving roller  232  can be machined into two-four sections (or more), each section separated from each adjacent section by a spacer or cut-out section. The pressing rollers  234  also can be machined into sections, (i.e., two-four or more sections) each having a length to match that of the corresponding section of the pressing roller  232  that each comes into contact with during dispensing operations. Each section of both the driving and pressing rollers further generally can include at least one groove machined midway in each section length. 
         [0074]    As also shown in  FIG. 19  the pressing rollers  234 , generally will be mounted in a floating arrangement, positioned to engage the driving roller adjacent the upstream and downstream points or ends of the feed passage  233  defined between the driving and pressing rollers. The engagement of the driving and pressing rollers in this arrangement thus defines multiple nip or pressing points  239 A/ 239 B, whereby the paper sheet material is engaged between the driving and pressing rollers at multiple points as it is drawn through the feed passage. Such an arrangement of the dual pressing roller engaging the driving roller, which rollers further are positively driven by the drive belt arrangement in a cooperative movement/rate with the driving of the driving roller helps maintain the positive engagement of the paper sheet material at multiple points, and thus the substantially consistent feeding thereof. 
         [0075]    As a result, the potential incidence of the tearing or breaking of the paper sheet material, such as along the tear lines or perforations thereof, is substantially reduced or minimized. In particular, the arrangement of the pressing rollers engaging the driving roller helps to substantially ensure that tearing or breaks in the paper will not occur above the driving roller, and, to the extent that such breaks or tearing were to potentially occur, that the paper sheet material can continue to be fed by the dispenser without requiring the manual reloading or refeeding of the paper between the driving and pressing rollers, and without requiring the paper roll itself to be driven for dispensing the paper sheet material. 
         [0076]      FIG. 20  illustrates an exploded view of the individual components of the drive mechanism  240 , including the dual pressing rollers  234 , driving roller  232 , and the drive belt arrangements  240 A/ 240 B, on opposite sides thereof for driving the pressing rollers in a cooperative movement/rate with the driving of the driving roller so as to provide a resilient, controlled, positive engagement of the paper sheet material.  FIGS. 21A-21B  illustrate the motor and drive belt arrangement  240 A on the drive side of the dispenser.  FIG. 21A  shows a general example configuration of the transmission/gear box  250  and motor  248 .  FIG. 21B  shows the interior of gear box  250 . As indicated in  FIG. 21B , the drive mechanism can include a plurality of intermeshing gears  254 , including a motor drive gear  254 A connected to and driven by the motor  248 , transmission gears  254 B, belt drive gear  254 C, and a driving roller hub gear  254 D through which an end  255  ( FIG. 20 ) of the driving roll  232  is received. As the motor is actuated, it drives the gears of the gear box  250 , which in turn transmit this driving force to the belt drive gear  254 C and driving roller hub gear  254 D for operation of the pressing rollers (via the drive belt) and the driving roller. 
         [0077]    In operation of the dispenser, the motor drives its drive gear  254 A ( FIG. 21B ) in response to a signal, such as from the user pressing a button or switch  256  ( FIGS. 16A-17A ) or from a sensor  257  detecting a user. The rotation of the motor drive gear generates a driving force that is transmitted via the gear arrangement to the belt drive gear  254 C, to which a belt drive hub  242  is mounted, and to the hub gear  254 D, mounted to the driving roller to drive rotation of the driving roller  232 . On the opposite side of the dispenser, the rotation of the drive roller causes rotation of a corresponding belt drive hub  242 . Rotation of the belt drive hubs  242  in turn drives the pressing rollers by the drive belt extended about the grooves at the ends thereof. As a result, the driving and pressing rollers are cooperatively actuated and driven for a predetermined time, number of cycles or revolutions of the rollers, or otherwise as needed to feed a desired amount of the paper sheet material therebetween. 
         [0078]    In the electronic dispenser, a sensor may be provided to detect an object placed in a detection zone external to the dispenser. This sensor may be a passive sensor that detects changes in ambient conditions, such as ambient light, capacitance changes caused by an object in a detection zone, and so forth. In an alternate embodiment, the sensor may be an active device and include an active transmitter and associated receiver, such as one or more infrared (IR) transmitters and an IR receiver. The transmitter can transmit an active signal in a transmission cone corresponding to the detection zone, and the receiver detects a threshold amount of the active signal reflected from an object placed into the detection zone. Control circuitry within the housing is configured with the sensor for initiating a dispense cycle upon a valid detection signal from the receiver. 
         [0079]    The dispenser control circuitry controls activation of the dispensing mechanism upon valid detection of a user&#39;s hand for dispensing a measured length of the sheet material. Sensors and associated circuitry may be provided for this purpose. Various types of sensors are well known to those skilled in the art, including IR, radio frequency (RF), capacitive sensors, etc. Any one or a combination of such sensing systems can be used. 
         [0080]    The disclosed embodiments provide a mechanism for automatically controlling the dispensing of paper products, for example, rolls of paper sheet materials such as paper towels or tissue paper, which further may be formed with perforations or tear lines so as to define sheets of a desired size. However, although the embodiments disclosed herein can be used in a system for dispensing paper towels and toilet tissue in facilities such as residential bathrooms and public restrooms, the concepts are applicable to other types of automatic paper dispensing and metering applications. The embodiments disclosed herein are particularly suited for use in buildings such as hotels and hospitals having a private bathroom in each room and distributed over multiple floors in which an electronic dispensing network detects and reports empty dispensers, paper levels, paper jams, power levels, losses, and vandalism. Real time monitoring of each dispenser in the system allows total control of an entire facility&#39;s bathroom/restroom paper requirements. 
         [0081]    In a network environment, each dispenser control can have a data communications network interface. The network allows the dispenser status to be monitored on a continuous basis from any number of remote terminals, including handheld computing devices. This ability to monitor the usage and status of each paper dispenser yields greater user satisfaction. The custodial staff can maintain the dispenser in proper service condition with minimal down time by having instant notification of paper outages or malfunctions. Although clearly beneficial in a hotel or restaurant environment, a large home having multiple bathrooms could also benefit from a local area network to monitor paper usage and dispenser status. 
         [0082]    Each dispenser with its associated network interface and application program forms one device within a bi-directional local communications network. Connection to this network can be via one or more media types; e.g., wire, radio frequency (RF) or infrared (IR). The dispenser status and monitored values are converted to digital form and the data is transmitted via the network. Additionally, configuration parameters for the operation of the dispenser can be received via the network. A collection of dispensers communicates over this network to a master network device (e.g.,  136  in  FIG. 22 ) that acts as the server for the local network. The master device interprets the data and manipulates it for rebroadcast to a separate and independent building automation network. The master device thus acts as a gateway between the local dispenser network and any other network protocol. The master device can also broadcast to a handheld computing device using the same or different network media type. 
         [0083]      FIG. 22  systematically illustrates one embodiment of a layout of the electronic dispenser network  100  for automatic monitoring and dispensing in an exemplary network embodiment. This layout exemplifies a simple installation scenario, although other, more complex arrangements and combinations are possible and within the scope of the invention. The electronic dispenser network  100  is a collection and combination of the electronic dispensers  130 - 135 , master network device  136 , and handheld device  137 . This collection of electronic dispensers  130 - 135  and master network device  136  forms a local dispenser network  139  and can be confined to a specific floor or other area requiring the dispensing system. With the selection of the appropriate communications medium, rooms on other floors of the building can be included in separate local networks. Multiple local electronic dispenser networks  100  can be coupled to a building communications network  138  through the master network devices  136 . 
         [0084]    The network communications medium (i.e., the data signal path) between the master network device  136  and the dispensers  130 - 135  can be wire, radio frequency (RF) or infrared (IR). The network medium is selected to yield the highest network performance given the architectural construction and limitations of the space. The communications protocol used with the local dispenser networks can be a proprietary method or one of many recognized standard protocols. 
         [0085]    A personal digital assistant (PDA)  137  or similar device with a supported transceiver can be used to retrieve data from any floor, area, and room having a master network device  136 . The handheld device  137 , such as a PDA, is brought within transmission distance of the master network device  136 . Bi-directional communications is possible to download current dispenser status and upload dispenser operational parameters. 
         [0086]    The electronic dispensing network system  100  includes a master network device  136  that can be attached to a ceiling plane or in close proximity to the group of dispensers  130 - 135 . It is situated to yield the best signal strength when using RF or IR transceivers. The master network device  36  provides the common data collection point (the server) for the dispenser units  130 - 135  located in each local network area  139 .  FIG. 23  illustrates, in block diagram form, the components of the master network device  136 . One section of the master network device  136  is the network server  155  for the local electronic dispenser network. This processor is responsible for requesting and receiving dispenser status and parameter data sent via the local network  139 . The transmitted data is interpreted and presented to a second processor  154  which forms a gateway connection to the building communications network  138 . The primary purpose of the gateway is to convert one communications protocol to another. With this method of interfacing different networks, the electronic dispenser network can be adapted to support existing and future standard networks commonly used in building communications networks. 
         [0087]    Another feature of the master network device  136  is a separate transceiver  157  to support use of a handheld computing device  137 . This device can be a PDA, portable computer, or other display/keypad terminal. The communication medium between the master device network  136  and the handheld device  137  can be of a non-contact nature; such as RF or IR, or can be by a wired method, such as an Ethernet network interface or RS-232 connection. The medium and protocol can be different from that of the electronic dispenser network  100  and building communications network allowing greater flexibility in selecting a handheld device  137  to meet specific end-user needs. 
         [0088]    The electronic control system (controller) illustrated in  FIG. 24  is responsible for controlling, monitoring, and reporting the operation of the dispensers  130 - 135 . A microprocessor  146  executes an application specific program. The processor has interface circuitry  145  to adapt the signals of the dispenser sensors and actuators, converting these control signals to the proper voltage levels. The sensors  140 ,  141 ,  142  represent a collection of input devices in a building network environment used to detect a user request for paper, measure the length of paper fed, sense the position or misfeed of the paper, enter a setting for the dispenser network address, and detect unauthorized opening or tampering of the enclosure. The actuators represent a collection of output devices to operate the feed roller motor  144 , and output textual status messages to an LCD display  143 . The transceiver circuit  147  provides the interface between the local network medium (wire, RF, or IR) and the voltage levels of the microprocessor  146 . A power supply  148  is used to convert either main current and/or battery power to the appropriate levels for the electronic circuitry. 
         [0089]      FIG. 25  illustrates another alternative embodiment of an electronic sheet material dispenser  300 , shown here as mounted or disposed on a pedestal  310  in a stand-alone type arrangement. As shown in  FIG. 25 , pedestal  310  includes a base  312  connected to the electronic residential dispenser  300  by way of leg  314 . Leg  314  is connected at  316  to the electronic residential dispenser  300 . The pedestal  310  shown in  FIG. 25  is provided for exemplary purposes only, and should not be limiting in any manner. Accordingly, the base  312 , leg  314 , and attachment  316  can be modified in any manner that would provide support for the electronic residential dispenser  300  to secure the dispenser  300  in an elevated position away from base  312 . 
         [0090]      FIGS. 26A and 26B  illustrate an isometric view of the electronic residential dispenser  300  of the embodiment shown in  FIG. 25  with the clear cover closed and with the clear cover opened. Also,  FIGS. 26C and 26D  illustrate isometric views of the electronic residential dispenser  300  with the clear cover closed and the clear cover opened and the alternative embodiment of  FIG. 25 . The clear cover opens up in  FIGS. 26C and 26D , while the clear cover hinges down in the embodiment shown in  FIGS. 26A and 26B . When opened as shown in  FIGS. 26B and 26D , a roll of paper  316  is shown mounted on paper holder arms  318 . Also shown in  FIGS. 26A-26D  are manual button  315  and low power light  317 . The manual button  315  allows a user to direct the electronic residential dispenser  300  to dispense additional sheets off the roll  318 , generally by sensing motion proximate the manual button  315  or by physical engagement of the button  315 . The low power light  317  allows a user to be apprised of when the batteries  352  need replacing without removing the batteries  352  to check remaining power. 
         [0091]      FIG. 27  illustrates dispenser module  320  and belt drive mechanism  330 . The dispenser module  320  includes a driving roller  332  and dual pressing rollers  334  mounted in a floating arrangement, in pressing engagement with the driving roller at nip or engagement points  331 A/ 331 B along a feed passage  333  for the paper defined therebetween, as indicated in  FIG. 33 , so as to positively engage the paper sheet material therebetween. A motor  348  (shown in  FIG. 31 ) operatively engages driving roller  332  similar to that action as detailed in previous embodiments described above. Belt drive mechanism  330  includes drive belts  340  positioned/extended about the ends  334  of pressing rollers  334  and around the external surface of drive gears  342  adjacent the ends of the driving roller  332  for transmission of the driving force applied to the driving roller to the pressing rollers  334 , similar to the belt drive arrangement  240  ( FIGS. 19-21B ). 
         [0092]      FIGS. 28A-28B  illustrate the electronic residential dispenser module with the paper holder arms removed. As shown in  FIGS. 28A and 28B , a battery compartment  350  is provided to house one or more batteries  352 . The battery compartment  350  can alternatively be covered by a lid. In contrast to other embodiments, the battery compartment of the paper dispenser module  322  shown in this embodiment can be configured to allow the batteries  352  to be arranged in a staggered or nested arrangement to enable easier access to the batteries, as room is provided in the battery department  350  between the batteries  352 , while also potentially enabling a reduction in size of the compartment. 
         [0093]      FIGS. 29A-29B  illustrate the electronic dispenser module  300  with the roll of paper  318  installed ( FIG. 29B ) and with the roll of paper  318  installed ( FIG. 29A ). In contrast to previous embodiments, which included support mechanism (cf.  218  of  FIGS. 16A-16B ), the embodiment of  FIG. 25  includes a bar module  354  upon which the core of the roller paper  318  can be disposed. As shown in  FIG. 29A , roll support bar module  354  is disposable on paper roll support arms  356 . 
         [0094]      FIG. 30  illustrates an exploded view of the bar module  354 , which includes a roll support module  360  that includes a main bar or axle  362  supporting the paper roll with a series of core spacers  364 , which can include any number, mounted or formed therealong. Module  360  is attached at each end by an end module  366  or hub assembly. Each end module  366  can include a bar axle  368  adapted to extend into main bar  362  to attach end module  366  to a module  360 . The end module  366  also includes end caps  372  each having an outwardly extending portion  374  having a receiving surface  370  thereabout that is sized to fit within a bar receiving slot  358  in one of the paper roll support arms  356  to enable the module  360  to be mounted to the paper roll support arms  356 . In addition to the bar receiving slots  358 , paper roll support arms  356  each can include a lower surface  357  at the lower end of bar receiving slot which engages the receiving service  370  of main bar module  360  in the embodiment shown in  FIG. 30 . The paper roll support arms  356  also include an arm attachment  359  which can be attached to a rear portion of the electronic dispenser module  300 . In lieu of an arm attachment  359  as shown in  FIG. 30 , attachments other than that shown in  FIG. 30  are within the scope of this invention. 
         [0095]      FIG. 31  illustrates an exploded view of the individual components of the dual pressing rollers  334 , driving roller  332 , and belt drive mechanism  330 .  FIG. 31  also shows motor  348  attached to the belt drive mechanism  330 , with the motor  348  providing power to the driving roller  332 . Belt drive mechanism  330  includes drive belt  340  positioned over grooved surfaces  245  of ends  344  of pressing rollers  334  and over a groove  343  of the external surface of gear  342 . Also shown in  FIG. 31 , is an end cap  346  that secures within a central portion of gear  342 . Gear  347  operates on the opposite side of the rollers, in coordination with gear  342  under control of motor  348 . 
         [0096]    Driving roller  332  and pressing rollers  334  also can be fabricated from wood which provide low static generation. Additionally, manufacturing the rollers from wood also reduces the cost of the rollers significantly from the cost of using ABS plastic or rubber rollers. The driving rollers  332  and dual pressing rollers  334  are machined to provide spacers between each section of the rollers. For example, as shown in  FIG. 31 , the driving roller  332  has been machined into four sections, each section separated from the adjacent section by a spacer (shown as a cut out). Other numbers of sections also can be used. The pressing rollers  334  have also been machined into four sections, each having a length to match that of the corresponding section of the pressing roller  332  that it comes into contact with during operation. 
         [0097]      FIGS. 32A-32B  illustrates the interior and exterior views of the belt drive mechanism  330 . The gears shown within the interior of belt drive mechanism  330  ( FIG. 32B ) further can include any number of operational gears that function to dispense paper under influence of the drive from the motor  348 .  FIG. 32B  further illustrates a transmission assembly  380 , including a series of gears, including a motor drive gear  381  mounted to a drive shaft of the motor  348 , idler/transmission gears  382 , a belt drive gear, and a hub gear mounted to one end of the driving roller. The operation of the dispenser with the belt drive mechanism can be in a similar manner as discussed above with respect to  FIGS. 13-24 . 
         [0098]      FIG. 33  illustrates the completed assembly of the driving rollers  332  and dual pressing rollers  334  arranged in physical contact with each other in the present embodiment, as well as illustrating the interaction between gears  347  and  342  under control of motor  348 . As indicated, the dual pressing rolls are positioned to engage the driving roller so as to provide multiple points or areas of engagement (as indicated at  331 A/ 331 B) of the paper therebetween for drawing/feeding the paper along a feed path  333  and to a discharge of the dispenser. This arrangement of the rollers substantially retards or minimizes potential tearing or breakage of the paper, such as along/at perforations formed in the paper, at a point above the driving roller. The belt drive arrangement further provides for a substantially consistent pulling or drawing of the paper along the feed path between the driving and pressing rollers, which additionally can help avoid or reduce potential tearing. Still further, if such tearing does occur along the feed path, the paper generally can continue to be fed by the dispenser without requiring manual reloading or refeeding of the paper between the driving and pressing rollers, and/or requiring driving of the paper roll itself. 
         [0099]    In an exemplary embodiment, all data can be configured using the BACnet communications protocol although this does not limit the invention in any way. Other communications protocols can be used as well and without restricting the invention in any way. 
         [0100]    The corresponding structures, materials, acts, and equivalents of all means plus function elements in any claims below are intended to include any structure, material, or acts for performing the function in combination with other claim elements as specifically claimed. 
         [0101]    Those skilled in the art will appreciate that many modifications to the exemplary embodiments are possible without departing from the scope of the present invention. In addition, it is possible to use some of the features of the embodiments disclosed without the corresponding use of the other features. Accordingly, the foregoing description of the exemplary embodiments is provided for the purpose of illustrating the principles of the invention, and not in limitation thereof, since the scope of the invention is defined solely by the appended claims.