Laser scanners with extended working range

US 5,080,456 A
Filed: 02/26/1990
Issued: 01/14/1992
Est. Priority Date: 02/26/1990
Status: Expired due to Term

First Claim

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1. A bar code scanner comprising:

a) a light source for directing a collimated beam of light in a path toward a symbol to be scanned, and a moving optical element in said path to cause the beam of light to move along a scan line;

b) optical means in said path for creating a spot of light defined by said beam having a size related to the size of features of said symbol to be scanned, said beam of light exhibiting said spot size over a substantial distance along an axis of said beam, the optical means including a slit in said path perpendicular to the axis of said beam;

c) and a light detector positioned to receive light reflected from said symbol.

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Abstract

A bar code scanner is disclosed employing a laser source and scan mirror for generating a light beam for scanning a bar code symbol or the like. The working range for distance between the scanner and the symbol is extended by placing an optical element in the path between the laser source and the scan mirror. This optical element may be a figure of rotation such as an axicon. A slit may be positioned downstream of the axicon to block the characteristic concentric rings produced in the beam in areas perpendicular to the scan line.

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26 Claims

1. A bar code scanner comprising:
- a) a light source for directing a collimated beam of light in a path toward a symbol to be scanned, and a moving optical element in said path to cause the beam of light to move along a scan line;
  
  b) optical means in said path for creating a spot of light defined by said beam having a size related to the size of features of said symbol to be scanned, said beam of light exhibiting said spot size over a substantial distance along an axis of said beam, the optical means including a slit in said path perpendicular to the axis of said beam;
  
  c) and a light detector positioned to receive light reflected from said symbol.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. A scanner according to claim 1 wherein said light source is a laser.
  - 3. A scanner according to claim 1 wherein said optical means is a solid optical element in the shape of a figure formed by rotation of a line about an axis, said line being at an angle to said axis.
  - 4. A scanner according to claim 3 wherein said figure is a linear axicon.
  - 5. A scanner according to claim 3 wherein said beam of light is refracted by said optical means.
  - 6. A scanner according to claim 3 wherein said beam of light is deflected by said optical means.
  - 7. A scanner according to claim 3 wherein a central opaque portion is provided at the center of the figure.
  - 8. A scanner according to claim 1 wherein said optical means is in the shape of a figure defined by rotation of a 4/3 power curve about an axis.
  - 9. A scanner according to claim 1 wherein said slit extends parallel to a direction of scan of said beam.
  - 10. A scanner according to claim 1 wherein said symbol is a bar code symbol having bars and spaces extending perpendicular to said scan line, and the size of said light spot as it traverses said scan line on said symbol is not substantially greater than a minimum width of said bars and spaces.
  - 11. A scanner according to claim 1 wherein said optical means is in the shape of a figure defined by rotation of a logarithmic curve about an axis.

12. A method for scanning a symbol, comprising the steps of:
- a) generating a collimated light beam and directing said light beam toward a symbol to be read;
  
  b) moving said light beam by a moving optical element to generate a scan line across said symbol to be read;
  
  c) modifying said light beam in the path toward said symbol to create a spot of light of a size correlated generally with the size of features of said symbol, said spot maintaining a substantially constant size for varying distances to said symbol, over a substantial range of said distances on an optical axis, the step of modifying including passing the light beam through a slit in said path perpendicular to said optical axis.
- View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
- - 13. A method according to claim 12 wherein said light beam is a laser light beam.
  - 14. A method according to claim 12 wherein said light beam is scanned across said symbol.
  - 15. A method according to claim 12 wherein said step of modifying includes directing said light beam through a solid optical element in the shape of a figure formed by rotation of a line about an axis, said line being at an angle to said axis.
  - 16. A method according to claim 15 wherein said figure is a linear axicon.
  - 17. A method according to claim 12 wherein said step of modifying includes deflecting said light beam by a solid optical element in the shape of a figure formed by rotation of a line about an axis, said line being at an angle to said axis.
  - 18. A method according to claim 12 wherein said step of modifying includes directing said light beam through a solid optical element in the shape of a figure defined by rotation of a 4/3-power curve about an axis.
  - 19. A method according to claim 12 wherein said symbol has features extending perpendicular to said scan line, and said step of modifying includes passing said light beam through a slit extending perpendicular to said features of said symbol.
  - 20. A method according to claim 12 wherein said step of modifying includes directing said light beam through a solid optical element in the shape of a FIGURE defined by rotation of a logarithmic curve about an axis.

21. Apparatus for detecting indicia having portions of different light reflectivity such as a bar code symbol comprising:
- (a) a light source operable to emit a substantially monochromatic collimated beam of light having a predetermined diffraction pattern;
  
  (b) optical means disposed in the path of the beam of light for modifying the diffraction pattern of the light beam and creating a beam spot of a predetermined diameter, said diameter being relatively constant over a predetermined distance along an optical axis passing through the center of and normal to said optical means;
  
  (c) means for directing the beam spot to said indicia, said indicia lying in a reference plane which is substantially normal to the optical axis, said means being adapted to scan spatially adjacent portions of said indicia; and
  
  (d) sensor means for detecting at least a portion of light of variable intensity reflected off the indicia, and for generating an electrical signal indicative of the intensity of said detected light.
- View Dependent Claims (22)
- - 22. Apparatus as defined in claim 21, wherein said optical means comprises:
    - (a) an axicon having a predetermined index of refraction and a predetermined cross section angle, being operable to create the beam spot of constant diameter along the predetermined distance along the optical axis by focusing the beam of light along a continuous series of points along the predetermined distance along the optical axis; and
      
      (b) a slit having a predetermined width and being adapted to pass the beam spot created by the axicon and to restrict the passage of light exterior to the beam spot in a direction perpendicular to the slit.

23. Apparatus for reading an optically coded symbol comprising:
- (a) a laser light source operable to emit a beam of collimated coherent light directed in a path toward said symbol;
  
  (b) an axicon in said path adapted to receive the light beam and to generate a diffraction pattern comprising a central beam spot having a predetermined diameter and exterior rings surrounding the beam spot, said beam spot and diffraction pattern being of substantially constant size along a predetermined distance along an optical axis, said optical axis being normal to and passing through the center of said axicon;
  
  (c) a slit of a predetermined width in said path adapted to limit the spatial extent of the diffraction pattern generated by the axicon;
  
  (d) means for directing the beam spot onto and across the symbol to be read; and
  
  (e) sensor means operative for detecting at least a portion of light reflected off the symbol, and for generating an electrical signal indicative of the intensity of the detected light.
- View Dependent Claims (24)
- - 24. Apparatus as defined in claim 23, further comprising means for converting said electrical signal into a digital representation of the data encoded in the symbol.

25. A method for scanning a symbol, comprising the steps of:
- (a) generating a substantially monochromatic beam of collimated light having a predetermined diffraction pattern;
  
  (b) modifying the diffraction pattern of the beam of light to create a beam spot of a substantially constant diameter which extends along a predetermined distance along the path of said beam; and
  
  (c) directing the extended beam spot onto a symbol to be read.
- View Dependent Claims (26)
- - 26. A method as defined in claim 25, wherein said step of modifying the diffraction pattern of the beam of light includes:
    - (a) adapting an axicon to focus the beam of light along a continuous series of points along a predetermined extent of an optical axis; and
      
      (b) adapting a slit to limit the spatial extent of the diffraction pattern generated by the axicon in a direction perpendicular to the symbol to be read.

Specification

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Current Assignee
Symbol Technologies, Inc. (Zebra Technologies Corporation)
Original Assignee
Symbol Technologies, Inc. (Zebra Technologies Corporation)
Inventors
Konforti, Naim, Katz, Joseph, Marom, Emanuel, Spitz, Glenn
Primary Examiner(s)
Ben, Loha

Application Number

US07/486,005
Time in Patent Office

687 Days
Field of Search

350/6.1, 350/6.3, 350/6.9, 350/6.91, 350/6.8, 350/286, 350/437, 350/6.6, 250/236, 235/462, 235/463, 235/470, 235/472, 358/470
US Class Current

359/214.1
CPC Class Codes

G02B 26/10   Scanning systems

G02B 5/001   Axicons, waxicons, reflaxicons

G06K 7/10702   Particularities of propagat...

G06K 7/10792   Special measures in relatio...

Laser scanners with extended working range

First Claim

3 Assignments

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Accused Products

Abstract

Citations

26 Claims

Specification

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Laser scanners with extended working range

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

26 Claims

Specification

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Solutions

Use Cases

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