Particle remover apparatus and methods

Abstract

Methods and apparatus for removing particles from vials includes the use of a one sided pressure sensitive filament tape to remove external particles from vials. A roll of tape is juxtaposed relative to a line of vials moving along the production line. As each vial moves within the space between the tape the outside of the vial contacts the tape causing the particles to be removed and imbedded in the adhesive on the tape. A feed roll and a rewind roll provides for the tape to unwind while in contact with the outside of the vials and in conjunction with the movement of the vials along the production line. By causing the feed roll and the rewind roll to advance unused tape while in contact with the outside surface of the vials, the vials are caused to rotate at least 360 degrees while advancing down the line.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates in general to the field of particle removing from an outside surface and in particular to the field of methods and apparatus for removing particles from the outside surface of glass vials.

2. Description of the Prior Art

In the pharmaceutical field it usually not necessary to sterilize the outside of containers within which drugs are stored or contained. The inside of the containers or vials is another matter. In general, the inside surfaces of many drug containing glass vials must be free of contamination so as not to adversely affect the drug there within. New technology has become available to ascertain the lack of contamination within the glass vials; however, an inherent problem in the modern day method of filling of glass vials has prevented the application of the new technology.

The new technology involves automatic inspection of glass vials before the drug is inserted in the vial and after the vials have been filled with the drug. The obvious intent being the speeding up of the vial filling process by automatically inspecting each vile simultaneously with the filling process and thereby improve quality control.

As noted above, one function of the automatic inspection of the vials before being filled with a drug is to ascertain that the insides of the vials are not contaminated with particles. The automatic inspection process attempts to carry out this aspect of the inspection process by sighting through the glass from which the vials are made. The sighting inside the glass vials is accomplished with high-resolution cameras that sight through the sidewalls of said glass vials and can detect particulate contamination inside of the glass vials. Unfortunately because of particulate contamination on the outside of the vials, many vials are rejected in that the camera technology involved cannot distinguish between the presence of inside or outside particles. The result being that the automatic inspection rejects many of the vials even though the insides may be free of particulate matter. This can further result in shutting down the inspection process. For the automatic inspection technology to be effective all particles be removed from the outside of the vials notwithstanding that outside or external contamination is otherwise generally acceptable.

In the prior art, various attempts have been made to remove the external particles. Brushing the outside surface has been tried as has air blasting. While these techniques work to some degree, they are ineffective because the particles travel in all directions and simply lodge onto other vials. Vacuuming of the particles has also been attempted, but this method has been shown not to be reliable and or sufficiently effective.

The present invention substantially eliminates the above described problem by providing simple and completely effective methods and apparatus for removing particulate matter from the outside of glass vials such that the inspection and filling of the vials can thereafter be accomplished.

SUMMARY OF THE INVENTION

The above-stated objects as well as other objects which, although not specifically stated, but are intended to be included within the scope the present invention, are accomplished by the present invention and will become apparent from the hereinafter set forth Detailed Description of the Invention, the Drawings, and the Claims.

The present invention comprises the use of a one sided pressure sensitive filament tape to remove external particles from vials. A roll of tape is juxtaposed relative to a line of vials moving along the production line. As each vial moves within the space between the tape the outside of the vial contacts the tape causing the particles to be removed and imbedded in the adhesive on the tape. A feed roll and a rewind roll provides for the tape to unwind while in contact with the outside of the vials and in conjunction with the movement of the vials along the production line.

By causing the feed roll and the rewind roll to advance unused tape while in contact with the outside surface of the vials, the vials are caused to rotate at least 360 degrees while advancing down the line. In this manner, all particles are removed from the entire outside surface of each vial and then the high resolution camera or cameras can view the inside of the vials which are now free of any outside contamination.

In accordance with the above, there has been summarized the more important features of the present invention in order that the detailed description of the invention as it appears in the below detailed description of the same, may be better understood.

BRIEF DESCRIPTION OF THE DRAWINGS

Various other objects, advantages, and features of the invention will become apparent to those skilled in the art from the following discussion taken in conjunction with the following drawings, in which:

FIG. 1 is an isometric view of one embodiment of the present invention;

FIG. 2 is a top plan view of the embodiment of FIG. 1; and

FIG. 3 is a bottom isometric view of the embodiment of FIG. 1.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which may be embodied in various forms. Therefore, specific structural and functioning details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention in virtually any appropriately detailed structure. Additionally, the verbiage used herein is intended to better enable a person to understand the invention and therefore, such verbiage is not to be interpreted as limiting the invention.

Reference is now made to FIG. 1 and FIG. 2 of the drawings wherein the overall configuration of the invention is shown isometrically and in a top plan view, respectively. A suitable stand 11 can be used to mount the operative components of the particle removing apparatus 10. Alternatively, the components 10 can be mounted within the assembly line (not shown) prior to the appropriate inspection point. The stand alone configuration of FIG. 1 has the advantage of not requiring extensive changes to an already existing production and inspection line.

In the shown configuration, the vials 12 are fed along tracks 17 and 13 which serve to align a plurality of vials in a relatively straight line. In a simple embodiment, the vials can be hand fed; of course, mechanical conveying means as seen in FIG. 1 can also be used. Each vial is directed to a space or semi circular groove 15 in a rotating disc 16. The manner of directing the vials to the slots within the disc 16 can for example comprise an inclined tray which allows gravity to move the vials toward the disc 16. Rotation of the disc 16 by an appropriate motor 31 causes the vials to be directed to the entrance of a linear space between the surfaces of an outside surface 19 of a plate encircling the indexing disc 16 and the outside surface 18 the latter of which can comprise the means used to position the adhesive tape against and along the elongated flat surface 18. Continued rotation of the disc 16 causes successive vials to enter the lineal space 17 where the particle removing process is accomplished. The particle removing space or track 17 can alternative be formed in part by an elongated bar 19A shown in phantom in FIG. 1 which is secured to the top surface of the stand 11. The elongated surface 18 against which the tape is positioned can also be a solid elongated bar 23 secured to a spring loaded guided movable plate 28. The guided movable plate 28 being capable of being moved within a spring loaded slot 33 to increase or decrease the width of track 17 The height of the track 17 must be sufficient to prevent the vials from tipping over when passing there along.

A pair of rollers 24 and 27 are rotationally secured to the top of stand 11 by rotatable plates 25 and 26. One roller, for example roller 27, can be a driven roller while roller 24 can be somewhat free to rotate. In this manner, roller 27 is a wind up roller and roller 24 is a feed roller. A certain amount of friction or drag can be associated with feed roller 24 such that roller 27 is controlling as explained below. The drag can be applied by a spring washer sandwiched between a pair of friction discs and a tightening knob (not shown) as used in fishing reels. If desired, roller 24 can also be driven in the same direction as roller 27. If the two rollers are driven, their speed must be variable to account for the varying diameter of tape 30. Simple bearings can be mounted to the shafts of the rollers to reduce friction and maintain vertical alignment of the rollers. Roller 24 is positioned in the approximate vicinity of the entrance to track 17. Roller 27 can be positioned in the approximate vicinity of the exit of track 17.

A roll of tape 30 is positioned on roller 27. A free end of the tape 21 is pulled from roller 24, threaded though track 17 and secured to roller 27. The drag associated with roller 24 provides for the length of tape 29 between the rollers and within the track 17 to be held taut and positioned flat against surface 18 of track 17. The movable plate 28 is then adjusted such that an appropriate amount of spring force in conjunction with the adhesive side of tape 30 against the vials 12 is applied to the vials 12 to cause rotation of the vials as they progress along track 17.

As noted above, tape 30 has adhesive on one side thereof which side is positioned to up against the vials within track 17. As each vial is feed into track 17, contact with the adhesive side of tape 30 is obtained. The driven wind up roller 27 causes each successive vial to rotate and be advanced along track 17. The surface 19 must provide sufficient friction so that the vials are prevented from slipping when traveling along track 17. Such friction can be provided by an elastomeric coating on surface 19. Any particulate matter on the outside of the vials is thusly removed and imbedded in the adhesive on the tape 30. Further, because the removed particles are imbedded in the tape, the removed particles are not free to travel and cannot settle on previously decontaminated vials. Upon completion of the particle removal process, the vials exiting from track 17 can be directed to another track 13 formed by appropriate rails in order to maintain their lineal position before advancing to the camera inspection station or to a location in accordance with their processing.

It is preferable that the particle removal operation be carried out in a dust free environment so that no new dust adheres to the outside of the vials before the camera inspection process. After the camera inspection of the vials is accomplished, it is of no matter if the vials again become contaminated on their outside surface.

As the tape 30 is used up, it can be discarded in an appropriate manner and a new roll of tape be placed on roller 27 and the process can continue as previously stated.

FIG. 3 illustrates the use of two electrical motors 31 and 32 to drive the tape rollers 24 and 27 and the rotating wheel 16.

While the invention has been described, disclosed, illustrated and shown in certain terms or certain embodiments or modifications which it has assumed in practice, the scope of the invention is not intended to be nor should it be deemed to be limited thereby and such other modifications or embodiments as may be suggested by the teachings herein are particularly reserved especially as they fall within the breath and scope of the drawings and description provided herein.

Claims

1. A method for removing particulate matter from the outside surface of medicinal vials comprising the steps of: positioning a roll of tape having adhesive on one side thereof on a feed roller,extending a free end of the tape through an entrance to a track and exiting the free end from a remote end of the track,attaching the free end of the tape from the remote end of the track to a wind up roller such that a length of the tape extends from the feed roller to the wind up roller and within the track,tensioning the length of tape between the rollers and up against one side of the track with the adhesive side of the tape facing outward from the one side of the track,directing the vials in a successive order into the track,applying a side force to the vials within the track such that the adhesive side of the tape is firmly positioned against the vials,rotating the wind up roller such that the tape unwinds from the feed roller and the friction between the adhesive and the vials cause the vials to rotate and advance within the track causing the particulate matter to be imbedded within the advancing adhesive.

2. Apparatus for removing particulate matter from the outside surface of medicinal vials comprising a feed roller,a wind up roller,a track for positioning and advancing said vials along the track,a roll of tape having an adhesive on one side thereof,said tape tautly extending from the feed roller to the windup roller and within the track with the adhesive facing outward from one side of the track, andmeans for feeding the vials within the track and up against the adhesive side of the tape while rotating the vials and advancing the vials along the track.