Radiant energy – Photocells; circuits and apparatus – Photocell controlled circuit
Reexamination Certificate
2000-04-19
2002-12-24
Kim, Robert H. (Department: 2882)
Radiant energy
Photocells; circuits and apparatus
Photocell controlled circuit
C250S559400, C250S559290
Reexamination Certificate
active
06498333
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to utilizing a beam of light to detect the presence of objects, and more particularly to optical sensing equipment which employ a plurality of photodetectors to receive the light which has been reflected by an object to be detected.
In manufacturing operations, it is desirable to detect the presence of an object moving down a conveyor. This enables material handling equipment to direct the object safely between conveyor sections or to a work station. It also is desirable to detect when objects become jammed along the conveyor.
An optical detector system often is used for these purposes. One type of detection apparatus, referred to as a retro-reflective system places an emitter-detector assembly on one side of the conveyor and a reflector on the opposite side. A beam of light is sent from the emitter across the conveyor to the reflector and then returns back across the conveyor to the detector. An object, moving along the conveyor, interrupts the beam of light, thereby providing an indication of the presence of the object. Retro-reflective systems have the disadvantage of requiring installation of a reflector on the opposite of the conveyor. Installation of the reflector in many situations is difficult or interferes with other operations being performed along the conveyor. Therefore, it is desirable to utilize an object detector apparatus that does not require devices on both side of the conveyor.
In response, sensing systems have been developed which detect the reflection of the light beam from objects moving along the conveyor. However, such systems must address several potential problems. First, the reflectivity of the objects vary greatly from very specular in nature to ones that are very diffuse. In addition, black objects naturally absorb more light than white objects. The circuitry that processes the signal from the light detector can be designed with a relatively high sensitivity to detect low reflectivity objects. However, that high sensitivity often results in the signal processing circuitry being saturated in response to light from highly reflective objects.
In addition, high sensitivity sensing circuits can falsely respond to highly reflective objects on the opposite side of the conveyor. For example, a shiny metal object being transported on a cart next to the conveyor system can reflect enough light back to the photodetectors to be erroneously interpreted as an object moving down the conveyor. Therefore, it is desirable to have a detector system that has a relatively high sensitivity and a sharp cutoff at a distance equal to the far side of the conveyor.
FIG. 1
depicts a prior detection system of this type. In this system, an emitter
10
transmits a beam of light across the conveyor. One ray
12
of that light beam is illustrated passing through an output lens
14
. An object
16
reflects the ray
12
through another lens
18
onto a detector assembly
20
. The detector assembly
20
has an near detector
22
that receives light from objects which are relatively close to the detector assembly and has a far detector
24
that receives light from objects which farther away from the detector assembly. Note that the objects usually move in a direction that is orthogonal to the plane of the drawing. The farther an object is from the emitter
10
the smaller the angle of the reflected ray
12
. For example, the reflected beam from object
16
strikes the near detector
22
, whereas the reflected ray from a more distant object
26
, beyond a given cutoff distance
28
from the emitter, strikes the far detector
24
and not the near detector
22
.
It should be understood that the emitter
10
produces a beam of radiation comprising numerous rays. Thus, when the entire beam is reflected from an object, some of the rays may strike the near detector
22
and other reflected rays may strike the far detector
24
. If the object is within the cutoff distance
28
from the emitter, a greater amount of reflected light will strike the near detector
22
than the far detector
24
. Conversely, when the object is beyond the cutoff distance
28
, a greater amount of light is reflected onto the far detector
24
than onto the near detector
22
. The output signal produced by a detector corresponds to the amount of light which impinges that detector. Thus, by comparing the two detector signals, the object detection apparatus is able to distinguish an object moving along the conveyor from objects beyond the conveyor.
This dual detector system does well when a diffuse object fully blocks the beam of light from the emitter. However, when an out of range object blocks only a portion of the emitted beam or is specular, light from that out of range object can be falsely interpreted as being from an object on the conveyor because the near detector
22
may receive more light than the far detector
24
.
SUMMARY OF THE INVENTION
An object detection system according to the present invention has an automatic sensitivity control mechanism that adjusts the photodetector signal processing to account for objects of vastly different reflectivities.
This object detection system has an emitter which produces a light beam that will be reflected by objects to be detected. The emitter is connected to an output terminal of and control circuit which produces an electric current that varies in magnitude in response to a first control signal.
A photodetector receives light that has been reflected by an object and produces a signal indicating the amount of light which strikes the photodetector. A variable attenuator is connected to the photodetector to attenuate the signal by an amount that varies in response to a second control signal.
The amounts of emitter current and attenuation are determined by a controller. The controller receives the signal produced by the photodetector and compares that signal to one or more threshold levels to determine amounts of emitter current and attenuation. The first and second control signals are generated by the controller in response to that determination.
REFERENCES:
patent: 5068540 (1991-11-01), Tsuji
patent: 6380532 (2002-04-01), Christensen
Opcon Application Note for Non-Contact Sensors, Feb. 1990.
Banner Specification sheet for QMT 42 Series Fixed Field Sensor (No date).
Eaton Installation Instructions for 6200 and 6210 Retroreflectors (No date).
Eaton Corporation
Haas George E.
Kim Robert H.
Quarles & Brady LLP
Thomas Courtney
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