The present invention generally relates to box finishing machines for printing, slotting and creasing corrugated boards to be formed into boxes. More specifically the present invention relates to a box finishing machine that is improved with apparatus which cleans dirt, debris, and other particles and substances from the corrugated boards as they are transported to the printing station. Also included is a novel method of cleaning corrugated boards while being processed in a box finishing machine.
A primary object of the present invention is to provide a box finishing machine that includes a novel apparatus for cleaning dust, debris and other particles and substances from the boards as they are transported through the machine. Included herein is such apparatus that may be incorporated in new or retrofitted in old or existing machines without any substantial rearrangement of the basic parts of the machine such as the printing and die cutter apparatus.
A further object of the present invention is to provide a novel method and an improved system for cleaning dust, debris and other substances from corrugated boards during their processing in a box finishing machine. Included herein is such a system which utilizes a vacuum for holding the boards flat during cleaning and for drawing the substances removed from the boards to a collection chamber for easy disposal.
A still further object of the present invention is to provide a novel and improved cleaning method and system for cleaning flat objects such as corrugated boards and which utilizes a novel brush assembly for wiping the objects without damaging or marring the surface of the objects.
Another object of the present invention is to provide a novel and improved rotatable cleaning brush assembly which is lighter and operates with less vibration than conventional brush assemblies. Included herein is such a cleaning brush assembly whose brushes may be easily replaced or repositioned when worn to increase the life of the brush assembly. Also included herein is a brush assembly having a novel and improved construction.
In its preferred form, the present invention includes cleaning apparatus at a station located prior to the printing station in a corrugated box finishing machine for removing particles from the corrugated boards on their way to the printing station. The apparatus includes a vacuum chamber underlying the path of conveyance of the boards for holding the boards flat for conveyance by transfer rolls. The vacuum chamber also receives the particles after they are removed from the boards by a rotating brush and directs the particles to a collection chamber. The particles have an electrostatic charge which adheres the particles to the boards. To neutralize the charge and facilitate removal of the particles by the rotating brush, a static bar is mounted in a holder, preferably an enclosure, located in the vacuum chamber in proximity to the boards. The enclosure isolates the static bar from board jams while also preventing its emitted ions from being drawn or misdirected by the vacuum away from the surface of the corrugated boards. The enclosure has an open end situated adjacent the boards through which the ions pass to reach the boards. The surfaces around the open end are inclined to direct dust and other particles from collecting on the static bar. The latter is oriented to minimize contact with the dust and particles removed from the boards.
The cleaning brush has a novel construction including a plurality of cylindrical sections mounted along an elongated tubular shaft, made of a carbon fiber composite material. The brush bristles are made of anti-static nylon material held by a core wound about and bonded to an aluminum tube. Journals for rotating the shaft are bonded in the opposite ends of the shaft. Mounted on and fixed to the opposite ends of the journals are retaining collars which hold the brush sections in position on the brush shaft. The brush sections can be replaced or repositioned by removing the retaining collars on the ends of the shaft.
Other objects and advantages of the present invention will become apparent from the following detailed description taken in conjunction with the attached drawings in which:
Referring now to
A more detailed description of a preferred feeder 10 can be found in U.S. Pat. No. 5,184,811 issued Feb. 9, 1993 assigned to the assignee of the present application. The disclosure of this U.S. Pat. No. 5,184,811 is hereby incorporated into the present application by reference as part hereof. It will be understood however that other feeders may be used in carrying out the present invention.
A more detailed description of the printing station 16 which includes a print cylinder 20, printing dies 19 mounted on the surface of the print cylinder, an impression cylinder 22 and rotating vacuum transfer rolls 24 may be found in U.S. Pat. No. 6,179,763 issued Jan. 30, 2001 which is assigned to the assignee of the present invention and is also hereby incorporated by reference into the subject application as part hereof. A vacuum produced in overhead chamber 26 holds the boards against rotating transfer rolls 24 which move the boards along the path towards the die cutter station. It will be understood that any other suitable printing station may be employed without departing from the present invention.
Although the rotary die cutter which is downstream of the printing station 16 is not shown, a more detailed description of it can be found in U.S. Pat. No. 6,609,997 issued Aug. 26, 2003 and assigned to the assignee of the subject patent application and hereby incorporated into the subject patent application as part hereof. Here again it will be apparent that any other suitable rotary die cutter may be employed without departing from the present invention.
Returning now to the cleaning station 14, apparatus is provided there to remove dust, debris, pieces of paperboard, and other particles and substances from the boards 12 before they are conveyed to the printing and die cutter stations. Such extraneous matter can adversely produce irregularities in the printed image on the boards by accumulating on the dies of the printing station. The cleaning apparatus of the present invention includes a rotating cleaning brush 30 mounted for rotation in a vacuum chamber 32 formed by side walls 34 and bottom wall 35 below the path of travel in the specific embodiment shown. As shown in
In the specific embodiment shown, a rotating cleaning brush 30 is located between two transport rolls 36 to engage the underside of the boards and remove dust, debris, pieces of paperboard and other particles and substances from the boards as they pass over the brush 30. Any suitable drive system (not shown) may be used to rotate the brush 30, and it may be connected to the drive of the feeder 10. As will be described below, brush 30 has a novel construction which is lighter and stiffer than conventional brushes and therefore reduces vibration which not only allows the brush speed to be increased, it also allows the brush to lightly wipe the boards clean without damaging, marring or marking the surface of the boards.
To facilitate removal of the particles from the boards by the brush 30, which particles are often electro-statically charged and adhere to the boards, a static bar 50 is mounted along the path of board-travel to direct ions to the underside of the boards to neutralize the charge on the particles on the boards. Any suitable static bar may be used such as the R50 Blue Bar made by Simco Industrial Static Control. However provision is made for minimizing, if not avoiding contact of the ion-emitting surface 52 of the static bar 50 with the dust, debris and other extraneous matter in the area. To this end, in the preferred embodiment, the static bar 50 is mounted in a holder 54 located in the vacuum chamber 32 with the static bar surface 52 adjacent to the path of travel so as to direct ions to the underside of the boards 12 to neutralize the particles to be removed therefrom. In the preferred embodiment the holder is an enclosure made from any suitable nonconductive material, and the static bar 50 is located in a recess in the vertical wall of the holder so that the ion-emitting surface 52 extends at an angle to the horizontal path of travel. Moreover the surfaces 56 of the holder at the top opening of the holder are inclined downwardly to direct falling dust, debris and other particles away from the ion-emitting surface 52 of the static bar. In this way the ion-emitting surface 52 is kept free of extraneous foreign matter which would otherwise require periodic stoppage of production in order to clean the matter from the static bar. In the preferred embodiment shown the foreign matter collected in the enclosure 54 is removed from an opening in its bottom which is normally closed by a closure 58. The latter is activated to open and closed position by any suitable actuator shown at 59 having a rod 60 pivotally connected to the closure 58. Since in the preferred embodiment, the static bar 50 is located in the vacuum chamber 32, the enclosure 54 also serves to isolate the bar 50 from the vacuum in the chamber 32 which could otherwise cause the ions to be misdirected away from the undersurface of the boards 12. The positioning of the static bar also serves to isolate it from any machine or board jams that may occur during production.
The rotating brush 30 has anti-static nylon bristles periodically cleaned by a plurality of suitable beater blades 70 which are actuated by any suitable motor shown at 72. Actuators 59 and 72 may be energized automatically at predetermined intervals through a programmable controller or any other suitable control 74 (
To summarize operation of the cleaning apparatus, when the boards 12 pass over the enclosure 54 the static bar 50 will send ions to the board to neutralize the charges of any extraneous particles or matter on the surfaces of the boards. Any such matter falling into the enclosure 54 will be largely diverted from the surface 52 of the static bar 50 and drop to the bottom of the enclosure. The boards will be transported by rolls 36 to and over the rotating brush 30 which will wipe the particles from the boards with ease since the particles will have been neutralized by the static bar 50 and no longer cling to the boards through electrostatic forces. The particles removed from the boards will be drawn away by vacuum to the collector 84. When the boards 12 reach the printing station 16, the lower surfaces will have been cleaned of extraneous matter to enable the desired images to be printed in precise and complete fashion on the surfaces. The printing dies will no longer accumulate the extraneous matter which otherwise would impair the printing by the dies and require stoppage of production in order to clean the dies.
Another feature of the present invention resides in the interpositioning of the cleaning station 14 between the feed rolls 13 and the print and impression cylinders 20 and 22 which allows the boards 12 to be freely fed to the latter after they have left the nip of feed rolls 13. This avoids the adverse affects which can result at times from feeding the boards to the print and impression cylinders 20, 22 directly from the feed rolls 13 during which the boards are initially held at their opposite ends in the nips of the print and impression cylinders as well as the feed rolls. At times this can cause the boards to lose their register with the print and impression cylinders which in turn can impair the printing on the boards and other operations downstream of the print station.
In accordance with another invention feature, the cleaning brush 30 is made with a novel and improved construction including an elongated shaft 40 made from a carbon fiber and resin composite material, for example that made in industry under the trade designation, heavy duty 33 modulus NIM-COR. In one preferred embodiment the shaft 40 weighs approximately thirty-five (35) pounds and is approximately one hundred and three and one half (103 1/2) inches and has a diameter of approximately three and one half (3½) inches. The shaft 40 is rotatable by any suitable drive means up to a maximum speed of 683 rpm. and to that end steel journals 41 are bonded to the shaft 40 in the opposite ends thereof as shown in
Brush 30 includes a plurality of tubular bristle sections 42 mounted on and along shaft 40 in abutting relationships as best shown in
After the brush sections 42 are assembled on the shaft 40 with the use of the pins 47 as described above, they are held in position by a pair of retaining members shown as collars 61 and 62 fixed on the end journals as shown in
As best shown in
Although specific preferred embodiments of the present inventions have been shown and described above, it will be appreciated that variations of the inventions will become apparent to those skilled in the art but without departing from the scope of the inventions which is defined in the appended claims.
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4454621 | Testone | Jun 1984 | A |
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4715078 | Howard et al. | Dec 1987 | A |
4951366 | Geller | Aug 1990 | A |
5008968 | Preston | Apr 1991 | A |
5117968 | Rivera | Jun 1992 | A |
5197938 | Chmielewski | Mar 1993 | A |
5770313 | Furumoto et al. | Jun 1998 | A |
5980646 | DeRosa | Nov 1999 | A |
6736168 | Amano et al. | May 2004 | B1 |
Number | Date | Country | |
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20060122047 A1 | Jun 2006 | US |