Method and apparatus for particulate matter detection

US 4,804,273 A
Filed: 02/29/1988
Issued: 02/14/1989
Est. Priority Date: 06/09/1987
Status: Expired due to Fees

First Claim

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1. An apparatus for detecting particulate matter suspended in a liquid, which liquid is contained in a flask, comprising:

a unit for rotation of the flask about an axis of rotation, comprising cooperating chuck and mandrel members for grasping the flask and a motor mechanically connected to the mandrel member for providing and stopping rotation of the flask about said axis, said mandrel having a plurality of holes therethrough;

a laser beam source;

a fiber optic bundle positioned to transmit laser light from the source to the holes in the mandrel, such that a plurality of columns of laser light are transmitted through the flask and generally parallel to said axis;

a photomultiplier positioned with respect to the flask for detection of laser light diffused generally radially away from said axis by particulate matter passing through the columns of laser light and for generating an electrical signal reflective of the light detected; and

indication means, connected to receive the electrical signal from the photomultiplier, for indicating when particulate matter has been detected.

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Abstract

A method and apparatus is disclosed for detecting the presence of particulate matter in liquids intended for pharmaceutical use, for example liquid contained in vials, flasks or ampoules. The method involves mechanically imparting to the vial or flask a rotary motion and then suddenly stopping it. Any particles contained in the liquid will continue to move, and will be illuminated by a number of parallel light beams of laser light, which are caused to pass through the liquid. Laser light diffused by particles in the liquid is converted into an electrical signal by a photomultiplier. The signal from the photomultiplier is amplified, filtered, and compared with a reference signal. The apparatus has a number of mandrel/chuck units which each impart a rotary motion to one container. At a second location, the light from a He-Ne laser is conveyed through optical fibers in the form of several parallel beams through each container, illuminated from below through a plurality of holes in the bottom of the mandrel. The laser light diffused by the particles is detected by a photomultiplier, whose signal is processed by an electronic circuit to indicate those vials containing particulate matter.

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15 Claims

1. An apparatus for detecting particulate matter suspended in a liquid, which liquid is contained in a flask, comprising:
- a unit for rotation of the flask about an axis of rotation, comprising cooperating chuck and mandrel members for grasping the flask and a motor mechanically connected to the mandrel member for providing and stopping rotation of the flask about said axis, said mandrel having a plurality of holes therethrough;
  
  a laser beam source;
  
  a fiber optic bundle positioned to transmit laser light from the source to the holes in the mandrel, such that a plurality of columns of laser light are transmitted through the flask and generally parallel to said axis;
  
  a photomultiplier positioned with respect to the flask for detection of laser light diffused generally radially away from said axis by particulate matter passing through the columns of laser light and for generating an electrical signal reflective of the light detected; and
  
  indication means, connected to receive the electrical signal from the photomultiplier, for indicating when particulate matter has been detected.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The apparatus of claim 1, wherein the laser comprises He-Ne type laser.
  - 3. Apparatus as in claim 1, wherein the unit for rotation of the flask comprises two opposed parallel plates comprising a lower plate having a number of mandrels for supporting flasks and the upper plate having corresponding locking chucks.
  - 4. Apparatus as in claim 3, wherein the lower mandrel is concave, with a support on its upper surface for the flask, and which has a number of holes passing therethrough, said holes serving to transmit the laser light through the liquid as a number of small parallel beams of laser light.
  - 5. Apparatus as in claim 4, wherein the mandrel is brought into contact with a motor-driven belt, said belt producing rotation of the mandrel, flask and chuck.
  - 6. Apparatus as in claim 5, wherein the plates supporting the mandrels and chucks rotate in step, so as first to bring the mandrels in contact with the actuating belt and then to bring the vials to a detection station where a number of mandrels are illuminated simultaneously from below by a beam of laser light, there being present at said detection station several photomultipliers each associated with a single flask for detecting the light diffused by the particles suspended in the liquid and in motion.
  - 7. Apparatus as in claim 6, further comprising following said detection station, an assembly for removing the examined flasks, said assembly providing two exit routes, one for flasks considered acceptable and a second for flasks to be discarded, the two routes being chosen on the basis of the signal that has been processed and compared.
  - 8. Apparatus as in claim 3, wherein the chuck member is mounted with bearings on the upper plate and is capable of axial movement along its axis of rotation, said movement being controlled by a cam follower connected to the chuck, and an adjustable spring pressing the cam follower against a cam which allows the chuck to move axially against the upper part of the flask so as to immobilize it between the chuck and the mandrel.

9. A method for detecting contaminant particles in vials of liquid intended particularly for pharmaceutical use, comprising the steps of:
- imparting a rotary motion to the vial about an axis of rotation and stopping the motion abruptly after a predetermined time;
  
  illuminating the vial by means of a plurality of light beams generally parallel to said axis and produced by a laser, whereby the laser light is diffused by particulate matter suspended in the liquid;
  
  detecting the light diffused generally radially away from said axis by means of a photomultiplier, which produces an electrical signal of reflective light received;
  
  filtering the signal from the photomultiplier to obtain that portion of the signal which is reflective of laser light diffused by particulate matter and comparing it with a reference signal; and
  
  identifying those vials whose photomultiplier signal indicates an unacceptable amount of particulate matter.
- View Dependent Claims (10, 11, 12, 13, 14, 15)
- - 10. The method of claim 9, further comprising the step of initially rotating the vials to provide for washing of the internal surfaces which are not normally wetted by the liquid, thus also suspending in the liquid those particles which might be adhering to the sides, prior to rotating the vials in Step A.
  - 11. The method of claim 9, wherein the inspection does not begin until the meniscus of the liquid generated by the rotation has completely settled.
  - 12. The method of claim 9, wherein the vial is illuminated by a number of parallel beams of laser light transmitted to the bottom of the vial through optical fibers.
  - 13. The method of claim 9, wherein the diffused light signal from the photomultiplier is separated into a continuous component and an alternating component.
  - 14. The method of claim 13, wherein the continuous component is reduced to its square root value which value is used as the noise cutoff threshold for isolating that portion of the component which is reflective of laser light diffused by particulate matter.
  - 15. The method of claim 14, further comprising the step of integrating over time the isolated portion of the alternating component and comparing the integration with a reference signal, which signal is predetermined depending on the products being examined and constituting the limit of acceptability and choice between good containers and those to be discarded.

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Current Assignee
Giuseppe Tondello, Maurizio Vincenzi
Original Assignee
Giuseppe Tondello, Maurizio Vincenzi
Inventors
Tondello, Giuseppe, Vincenzi, Maurizio
Primary Examiner(s)
Rosenberger, Richard A.

Application Number

US07/162,180
Time in Patent Office

351 Days
Field of Search

356/427, 356/336, 356/337, 356/338, 356/339, 250/574
US Class Current

356/427
CPC Class Codes

G01N 2033/0081   containers; packages; bottles

G01N 21/9027   in containers after filling

G01N 33/0081   Containers; Packages; Bottles

Method and apparatus for particulate matter detection

First Claim

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Abstract

29 Citations

15 Claims

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Method and apparatus for particulate matter detection

First Claim

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Abstract

29 Citations

15 Claims

Specification

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Solutions

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