Printing system having optical supervision apparatus of a substrate running web, particulary a paper web

US 5,395,027 A
Filed: 09/03/1992
Issued: 03/07/1995
Est. Priority Date: 09/14/1991
Status: Expired due to Fees

First Claim

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1. In combination with a printing machine system (18, 21, 22, 19, 20), having a damaged web damage control unit (10),apparatus (2, 23) for optical supervision of the web (1) running through the printing machine system, and for generating a defect signal upon sensing a deviation of the web from a normal condition,said apparatus comprisingan elongated light source (12) positioned transversely to the longitudinal extent of the web (1) at one side thereof, and being wider than the width of the web to be supervised;

an optical scanner (3) including a plurality of fiber optic light guides (4) positioned at the other side of the web,whereby the web will pass between said light source and said scanner,said plurality of light guides being located in a line across the web and positioned to receive light from the elongated light source to form a linear line scanner (5), said linear line scanner being wider than the width of the web to be supervised;

a charge coupled device (CCD) sensor chip (7) having individual pixels directly coupled to the light guides (4) and receiving optical signals directly from said light guides, said charge coupled device sensor chip (7) transducing said optical signals into electrical signals from each of the light guides;

a light guide bundling element (6) for bundling the light guides (4) together to have a linear extent substantially smaller than the width of the web, and unambiguously associating each of the light guides (4) and hence the light from any one of the light guides with a specific pixel of the charge coupled device sensor chip (7),wherein at least one light guide is positioned on both sides of the web to be supervised beyond the width of the web, and said elongated light source (12) extends to a region beyond the sides of the web to illuminate, under normal conditions at all times, the light guides located beyond the sides of the web to be supervised;

a signal evaluation and control unit (9) coupled to the charge coupled device sensor chip (7) and providing defect signals if the signals from the charge coupled device sensor chip (7) deviate from a standard signal representative of normal condition; and

coupling means (15) connecting said signal evaluation and control unit (9) to said damage control unit (10).

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Abstract

To provide a compact monitoring unit for substrate webs passing through a printing machine, typically paper webs, and thereby provide rapid response of damage control units, such as paper capturing rollers, small tears, fissures or holes in the substrate webs are sensed by locating an elongated light source (12) below the web, the light source extending beyond the lateral sides of the web to be supervised; an optical scanner (2) formed of a plurality of light guides (4) within a plastic block (5a) provides signals representative of light shining through damaged areas, and on the side of the web. The light guides then are bundled or compressed in a bundling or compression element (6), and the outputs thereof are applied to a charge coupled device sensor chip (7), directly, without intervention of optical systems, the charge coupled device being in turn connected to an evaluation and control unit which can provide "damaged web" signals to the damage control unit itself through a suitable output coupling.

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20 Claims

1. In combination with a printing machine system (18, 21, 22, 19, 20), having a damaged web damage control unit (10),apparatus (2, 23) for optical supervision of the web (1) running through the printing machine system, and for generating a defect signal upon sensing a deviation of the web from a normal condition,said apparatus comprisingan elongated light source (12) positioned transversely to the longitudinal extent of the web (1) at one side thereof, and being wider than the width of the web to be supervised;
- an optical scanner (3) including a plurality of fiber optic light guides (4) positioned at the other side of the web,whereby the web will pass between said light source and said scanner,said plurality of light guides being located in a line across the web and positioned to receive light from the elongated light source to form a linear line scanner (5), said linear line scanner being wider than the width of the web to be supervised;
  
  a charge coupled device (CCD) sensor chip (7) having individual pixels directly coupled to the light guides (4) and receiving optical signals directly from said light guides, said charge coupled device sensor chip (7) transducing said optical signals into electrical signals from each of the light guides;
  
  a light guide bundling element (6) for bundling the light guides (4) together to have a linear extent substantially smaller than the width of the web, and unambiguously associating each of the light guides (4) and hence the light from any one of the light guides with a specific pixel of the charge coupled device sensor chip (7),wherein at least one light guide is positioned on both sides of the web to be supervised beyond the width of the web, and said elongated light source (12) extends to a region beyond the sides of the web to illuminate, under normal conditions at all times, the light guides located beyond the sides of the web to be supervised;
  
  a signal evaluation and control unit (9) coupled to the charge coupled device sensor chip (7) and providing defect signals if the signals from the charge coupled device sensor chip (7) deviate from a standard signal representative of normal condition; and
  
  coupling means (15) connecting said signal evaluation and control unit (9) to said damage control unit (10).
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 2. The combination of claim 1, further comprising a plastic block (5a) into which said light guides (4) are embedded, said plastic block having a surface face directed towards the elongated light source (12), with the web (1) interposed.
  - 3. The combination of claim 2, wherein the spacing of said optical scanner, including the plurality of light guides from said web is so adjusted that an image resolution of between 1 and 5 mm is obtainable.
  - 4. The combination of claim 3, wherein said printing machine system includes a dryer (19) and the scanner is located upstream, with respect to web travel, of the dryer (19).
  - 5. The combination of claim 3, wherein said printing machine system comprises a printing station having printing cylinders (21, 22), andsaid apparatus is located closely adjacent said cylinders.
  - 6. The combination of claim 2, wherein the light guides within said linear line scanner (5) form an array with predetermined spacing (d) from each other of between 1 to 5 mm.
  - 7. The combination of claim 6, further including a reflected light sensor (11) integrated with the optical scanner (3) to sense movement of the web transverse to its longitudinal direction.
  - 8. The combination of claim 2, further including a reflected light sensor (11) integrated with the optical scanner (3) to sense movement of the web transverse to its longitudinal direction.
  - 9. The combination of claim 2, wherein said printing machine system includes a dryer (19) and the scanner is located upstream, with respect to web travel, of the dryer (19).
  - 10. The combination of claim 2, wherein said printing machine system comprises a printing station having printing cylinders (21, 22), andsaid apparatus is located closely adjacent said cylinders.
  - 11. The combination of claim 2, wherein said surface face is polished.
  - 12. The combination of claim 3, further including a reflected light sensor (11) integrated with the optical scanner (3) to sense movement of the web transverse to its longitudinal direction.
  - 13. The combination of claim 1, wherein the spacing of said optical scanner, including the plurality of light guides from said web is so adjusted that an image resolution of between 1 and 5 mm is obtainable.
  - 14. The combination of claim 1, wherein the light guides within said linear line scanner (5) form an array with predetermined spacing (d) from each other of between 1 to 5 mm.
  - 15. The combination of claim 1, wherein said charge coupled device sensor chip (7) comprises a linear charge coupled device element.
  - 16. The combination of claim 1, wherein said charge coupled device sensor chip (7) comprises an area charge coupled device element.
  - 17. The combination of claim 1, further including a reflected light sensor (11) integrated with the optical scanner (3) to sense movement of the web transverse to its longitudinal direction.
  - 18. The combination of claim 1, wherein said web comprises a paper web.
  - 19. The combination of claim 1, wherein said printing machine system includes a dryer (19) and the scanner is located upstream, with respect to web travel, of the dryer (19).
  - 20. The combination of claim 1, wherein said printing machine system comprises a printing station having printing cylinders (21, 22), andsaid apparatus is located closely adjacent said cylinders.

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Current Assignee
Man Roland Druckmaschinen AG (Allianz Se)
Original Assignee
Man Roland Druckmaschinen AG (Allianz Se)
Inventors
Erhardt, Bruno
Primary Examiner(s)
Hail, III, Joseph J.
Assistant Examiner(s)
DARLING, JOHN PATRICK

Application Number

US07/940,030
Time in Patent Office

915 Days
Field of Search

226/43, 226/10, 226/11, 226/45, 226/20, 226/24, 73/159, 250/571, 356/434, 356/435
US Class Current

226/24
CPC Class Codes

B41F 33/18 Web break detection B41F33/...

Printing system having optical supervision apparatus of a substrate running web, particulary a paper web

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

Citations

20 Claims

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Printing system having optical supervision apparatus of a substrate running web, particulary a paper web

First Claim

1 Assignment

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Accused Products

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Abstract

Citations

20 Claims

Specification

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