Abstract:
A moistening apparatus for moistening an area containing glue on an envelope flap by continuously supplying water to the glue area. The apparatus comprises a frame member; a support member for moving one envelope at a time with the envelope flap in a partially opened position toward the moistening apparatus; a brush member supported lengthwise within the frame member; and a water supply member in contiguous contact with the brush member and adapted to continuously moisten the entire length of the brush with water.

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS  
       [0001]    This application claims priority of the following U.S. provisional patent applications: serial No. 60/270,796 filed on Feb. 23, 2001, serial No. 60/277,806 filed on Mar. 22, 2001, serial No. 60/227,841 filed on Mar. 22, 2001, serial No. 60/227,873 filed on Mar. 22, 2001, serial No. 60/227,931 filed on Mar. 22, 2001, serial No. 60/227,946 filed on Mar. 22, 2001 and serial No. 60/338,892 filed Nov. 5, 2001. 
     
    
     
       BACKGROUND OF THE INVENTION  
         [0002]    1. Field of the Invention  
           [0003]    This invention relates to an apparatus for moistening a glue containing area, and more particularly to a moistening apparatus for moistening the glue containing area of an envelope flap where there is continuously supplied sufficient water to a brush member which in turn, moistens the entire glue portion of an envelope flap.  
           [0004]    2. Description of Prior Developments  
           [0005]    Mailing machines generally employ an apparatus for moistening and sealing the glue portion of a flap of an envelope prior to the envelope being weighted and metered by a postage meter. There are numerous devices and methods by which an envelope flap can be moistened. For example, there is the simple and probably least expensive type mechanism which employs an envelope flap moistener including a wet brush that is brought into contact with the glue area of the flap of an envelope or a pad formed of a wet wicking material that is brought into contact with the glue. There are also various non-contact envelope flap moisteners that employ a jet or a nozzle which spray a moistening fluid such as water upon the glue area of an envelope flap. These devices tend to be expensive, and generally rather complex in a structural sense.  
           [0006]    One very simple prior art type moistening apparatus for moistening the glue containing area of an envelope flap comprises simply a brush that absorbs water from a felt pad that is in turn partially immersed in a tray of water. This type of prior art structure for a moistener is illustrated in FIG. 1. The water is taken up by capillary action on the brush at that point in time during the process when there is no envelope flap being moistened. When the envelope flap  10  is positioned between the pad  11  and brush  12  to be moistened, only the water on the brush could be used to moisten the envelope flap, and the brush does not have it&#39;s water replenished until the flap is removed. See the moistener assembly illustrated in FIG. 2. It was discovered that in these kind of prior art moistening devices, there was not always enough moisture on the brush  12  to satisfactorily moisten the entire length of, for example, an envelope flap  10 . This was particularly the situation with longer envelopes with long envelope flaps. Thus, the envelope flap would tend to be adequately moistened at the beginning portions thereof, but would become drier and drier as the envelope flap continued to move against the brush. Therefore, many portions of the envelope would not be properly sealed.  
           [0007]    It is therefore a primary object of the present invention to provide a relatively inexpensive, efficient and non- complicated (i.e. simple structure) for a moistener for moistening and sealing the flap of an envelope along its entire length of glue.  
         SUMMARY OF THE INVENTION  
         [0008]    In accordance with the features of the present invention as described herein there is provided an improved moistening apparatus for moistening the glue area of an envelope flap which avoids the above described disadvantages of known moistener apparatus. The present invention provides for the water to be able to be pumped up into a water reservoir that is positioned over a brush member so there is continuously provided to the brush, sufficient water to keep the brush moist at all times (i.e. an endless flow of water). The water is fed to the brush in a controlled fashion and any excess water drops by gravity into a waste water catch tray that is positioned below the moistener assembly and which provides pumping means to allow the water in the catch tray to be recirculated back to the water reservoir for again feeding the water to the brush. This structure for an improved envelope moistener assembly enables the full length of the envelope flap to be evenly moistened even in the situation where there are long envelope flaps and high envelope speed moistening requirements. After the moistening procedure has been completed by a moistening apparatus in accordance with the features of the present invention, the envelope flap is pressed against the envelope to seal the envelope. Upper and lower belt members subsequently transport the sealed envelope away from the moistener assembly.  
           [0009]    A moistening apparatus for moistening the area containing glue on an envelope flap in accordance with the features of the present invention comprises a frame member; support member for moving one envelope at a time with the envelope flap in a partially opened position toward the moistening apparatus; a brush member supported lengthwise within the frame member and a water supply member in contiguous contact with the brush member and adapted to continuously moisten the entire length of the brush with water.  
           [0010]    An additional embodiment of a moistening apparatus according to the features of the present invention for moistening an area containing glue on an envelope flap by continuously supplying water to the glue area comprises: a frame member; a support member for moving one envelope at a time with the envelope flap in a partially opened position toward the moistening apparatus; a brush member supported lengthwise within the frame member adapted to position elongated portions of the brush to moisten the glue; a water supply member in contiguous contact with the brush member and adapted to continuously moisten the entire length of the brush with water; and a pumping device to pump water from a reservoir tank to the water supply member.  
           [0011]    Further in accordance with the embodiments of the present invention there is defined a mailing machine comprising a plurality of processing stations including a processing station for transporting an envelope and a processing station for sealing the envelope, the mailing machine including a moistening apparatus for moistening the area containing glue on an envelope flap in the processing station prior to sealing the envelope, the moistening apparatus comprising a frame member; support member for moving one envelope at a time with the envelope flap in a partially opened position toward the moistening apparatus; a brush member supported lengthwise within the frame member; a water supply member in contiguous contact with the brush member and adapted to continuously moisten the entire length of the brush with water; the mailing machine including an envelope flap support element positioned under the brush member and adapted to force the glue area of the envelope flap against the moist brush member as the envelope moves through the moistening apparatus thereby supplying moisture to the entire length of the glue area on the envelope flap. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0012]    The foregoing aspects and other features of the present invention are explained in the following description, taken in connection with the accompanying drawings, wherein:  
         [0013]    [0013]FIG. 1 is a schematic front plan view of a prior art brush type moistening apparatus;  
         [0014]    [0014]FIG. 2 is a schematic front plan view of the prior art brush type moistening apparatus as illustrated in FIG. 1 specifically showing the envelope flap in place in the moistener apparatus;  
         [0015]    [0015]FIG. 3 is a schematic front plan view of a brush type moistening apparatus in accordance with the features of the present invention;  
         [0016]    [0016]FIG. 4 is a schematic top view of the various components that circulate water in accordance with the features of the present invention;  
         [0017]    [0017]FIG. 5 illustrates the water flow pattern in a moistening device according to the features of the present invention; and  
         [0018]    [0018]FIG. 6 is a perspective view of a moistening device according to the features of the present invention within a modular feeding unit of a mailing machine system. 
     
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS  
       [0019]    As illustrated in FIG. 3, there is shown the basic elements which comprise the moistening apparatus in accordance with the features of the present invention. There is specifically shown an envelope  20  with its flap  21  in an open position exposing the surface  22  of the envelope flap  21  having glue. While in an open position, as shown, the envelope  20  is fed into the moistening apparatus  15  which includes a water supply member  23  in the form of an elongated water reservoir  23  having a plurality of openings or nozzles (not shown) which allow water when fed into the reservoir under pressure to be distributed to a brush member  24  that is supported lengthwise in the moistening apparatus  15 . Brush member  24  is supported within moistening apparatus  15  in such a way so as to position the individual brush bristles  24 A which make up the brush member  24  to lie in a plane that is substantially parallel to the path of movement of envelope  20 . This will permit the elongated surface of the individual brush bristle elements  24 A via capillary action to continuously deposit water on the glue surface  22  of flap  21 . In accordance with the features of the present invention the brush member could be formed of any material typically used for forming brush bristles or the brush could be made from, for example, felt or a sponge material. Any material could be used to form brush bristles so long as the material would permit water to transfer to the brush by capillary action and then to be transferred to the glue area of the envelope  20  by capillary action. The water is fed continuously throughout the various water flow paths of the moistener in accordance with the features of the present invention by a water pump  25  which keeps the water continuously circulating in the moistener. A support member  26  keeps the glue surface  22  of envelope flap  21  in constant moving contact with the bristles  24 A of brush member  24  so as to continuously apply water to the glue surface by capillary action. The water flow that brings water to the brush comes up from the bottom portion of the moistening apparatus and then travels up toward brush member  24  and then is pushed over the top of the brush to apply water to the brush bristles  24 A.  
         [0020]    The moistener includes a waste water catch tray  27  which catches water that falls by gravity from the top portion of moistener  15 . This waste water is preferably pumped by pump  25  through a filter (not shown)such as a nylon mesh filter back to the water supply in reservoir number  23 .  
         [0021]    Furthermore, in accordance with the features of the invention, a lever or controller can be activated so that an envelope flap moving within the system would not be exposed to the moistener. This would be done when envelopes were not intended to be moistened and sealed in the mailing machine. When this happens the envelope(s) and flap(s) in question would both pass through the system on the top portion of the moistening apparatus and therefore not be subject to be moistened.  
         [0022]    In accordance with the features of the present invention there is a primary goal of the present invention to have a plurality of capillary canals to continuously supply a moistening device with the quantity of water that is needed to moisten envelopes. The size of the canals is determined by what is referred to as the Bond number. When the Bond number is under 1, it basically means that the capillary effect is preponderant compared to the gravitational forces and eventual external pressure. With external pressure, the Bond number is below 1 when the size of the canal is under 3 mm.  
         [0023]    In real terms, the external pressure is not zero and is equal to the pressure at the water input of the moistening device. In accordance with the features of the present invention this pressure is adjusted in order to control the water flow through the moistening head. This can be done by both a reduction of the section of the input water tube and adjustment of the voltage on the water pump motor. In any event, sufficient pressure is used with the water supply to be able to continuously supply water to the brush elements.  
         [0024]    Material requirements for a moistening head in accordance with the present invention include: (i) good capillary effect; (ii) a surface that must be resistant to wear; (iii) to be able to deliver, by means of both capillary and external water pressure, a continuous water flow through this material with a diffusion speed of V diff=3.4 mm/sec (Diffusion speed needed for a 50 um water film under the head at the standard speed of the machine); (iv) dimensions of the moistening head: 10 mm×100 mm×2 mm; (v) a diffusion speed that can be adjusted by the variation of external water pressure; and (vi) good elasticity in order that the contact surface would be able to follow small geometrical variations in the moistening surface.  
         [0025]    As illustrated in FIG. 4, water in the moistening apparatus of the present invention is continuously fed to the glue area of an envelope flap by starting from a reservoir tank  30  which holds a supply of water. The water is fed from reservoir tank  30  due to the pressure supplied by pump  31  through water tube  34  to the bottom portion of the moistening apparatus at location  33 . Return tube  32  provides the means by which unused water is returned back to reservoir tank  30 .  
         [0026]    In operation, water is taken from the reservoir tank  30  and brought over to the moistener by the smaller pipe  34  underneath the large pipe  32 . The water is pumped to the brush member in the moistener by pump  31 . The water is pushed up to the moistener from below. Excess water is then collected off the moisture and brought into a back flow connection and passed back to the reservoir tank  30  through the top pipe  32 .  
         [0027]    An example of the features of the type of water pump that can be used with the moistener as described herein are features as would be determined for applying a 50 mm water film on the glued part of the envelopes.  
                                             Typical Water Pump                                    Minimum volume flow:   0.15 1/min           Maximal volume flow:    0.3 1/min           Working pressure:   0.05 bars (39 mm Hg)           Maximal pressure:    0.1 bar (77 mm Hg)           Self prime lift (dry):   300 mm           Power supply:   6 to 12 V DC           Maximal volume:   69 cm 3             ID of the tube:   2 mm           Conditions:   4° C. to 45° C./5 to 95% rel.               humidity           Life time:   approx. 200 hours (per 2               million envelopes)                      
 
         [0028]    [0028]FIG. 5 illustrates the water flow pattern of a typical moistener apparatus in accordance with the features of the present invention from the water at the input to the water flow at the moistening brush. The capillary canals have a size of about 1 mm.  
         [0029]    The main steps of the process from the entry of the water to the output through the brush as illustrated in FIG. 5 are:  
         [0030]    At (1) in FIG. 5, the water enters the input tube  40 .  
         [0031]    At (2) in FIG. 5, the water arrives in the distribution reservoir  41  and fills it very rapidly.  
         [0032]    At (3) in FIG. 5 the water reaches the level of the capillary canals (nozzles)  42  and begins to flow through them.  
         [0033]    At (4) in FIG. 5, contact occurs between the water and the brush in several spots at the same time.  
         [0034]    At (5) the water, by mean of the capillary forces and reservoir pressure, flows along the brush  43  until it reaches the moistening surface. When the system is turned on for the first time, or after  
         [0035]    a long time of not being used, a short lap of time is necessary (approx. 5 sec) before the water reaches the moistening head. The exact amount of time depends on the water flow of the pump.  
         [0036]    [0036]FIG. 6 basically illustrates how a moistener apparatus  50  is positioned within a mailing machine module including a series of belts that permit envelopes to be fed in the direction of arrow  51 . The brush bristles of the moistener are located downstream on the moistener apparatus.  
         [0037]    While this invention has been described in conjunction with the exemplary embodiments outlined above, it is evident that many alternatives, modifications and variations will be apparent to those of ordinary skill in the art. Accordingly, the exemplary embodiments of the invention, as set forth above, are intended to be illustrative, and not limiting. Various changes may be made without departing from the spirit and scope of the invention.