Photoelectric light curtain using retroreflector
First Claim
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1. A relatively low-cost photoelectric machine access safety device comprising:
- (a) an integral rectangular support structure having separable sides with each of three sides having an inside surface enclosing a guarded area through which an associated machine is accessed;
(b) retrodirective reflective means mounted in a continuous path on each of the three inside surfaces and facing the guarded area;
(c) integral photoelectric light transmission and receiving means mounted on the inside surface of the fourth side for generating a control signal when transmitted light is not received;
(d) rotatable mirror means positioned adjacent the mid-point on the inside surface of the fourth side and adapted to reflect a light beam transmitted by said photoelectric means directly to said retrodirective reflective means at a varying incidence angle and back along the same light path directly to said photoelectric means;
(e) rotating means mounted on the fourth side for rotating said rotatable mirror so that the reflected light beam scans all of the guarded area whereby any body within the guarded area will interrupt the scanning light beam causing said photoelectric means to generate a control signal;
(f) control means mounted on said support structure coupled to said photoelectric means and responsive to a control signal for stopping the associated machine accessed through the guard area; and
(g) U-shaped retrodirective reflective means mounted between said rotatable mirror means and the fourth side for reflecting the light beam, when said rotatable mirror means is scanning the fourth side, for preventing false operation of said control means.
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Abstract
A low-cost photoelectric machine access safety device is technically disclosed in the specification and drawings comprising an integral support structure supporting a retrodirective reflective (RDR) material facing an enclosed area which is to be guarded. A rotatable mirror causes a light beam from a reflex photohead to scan the guarded area. The RDR material reflects the light beam back along the transmitted path at varying angles of incidence. A photocell in the reflex photohead is activated to operate a control circuit to keep a control relay energized. Upon any interruption of the scanning light beam the relay is deenergized causing the accessed machine to stop. False operation preventing means prevents false operation when the light beam is scanning the portion of the support structure on which the rotatable mirror and associated apparatus is mounted. Fail-safe circuitry is also disclosed.
29 Citations
8 Claims
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1. A relatively low-cost photoelectric machine access safety device comprising:
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(a) an integral rectangular support structure having separable sides with each of three sides having an inside surface enclosing a guarded area through which an associated machine is accessed; (b) retrodirective reflective means mounted in a continuous path on each of the three inside surfaces and facing the guarded area; (c) integral photoelectric light transmission and receiving means mounted on the inside surface of the fourth side for generating a control signal when transmitted light is not received; (d) rotatable mirror means positioned adjacent the mid-point on the inside surface of the fourth side and adapted to reflect a light beam transmitted by said photoelectric means directly to said retrodirective reflective means at a varying incidence angle and back along the same light path directly to said photoelectric means; (e) rotating means mounted on the fourth side for rotating said rotatable mirror so that the reflected light beam scans all of the guarded area whereby any body within the guarded area will interrupt the scanning light beam causing said photoelectric means to generate a control signal; (f) control means mounted on said support structure coupled to said photoelectric means and responsive to a control signal for stopping the associated machine accessed through the guard area; and (g) U-shaped retrodirective reflective means mounted between said rotatable mirror means and the fourth side for reflecting the light beam, when said rotatable mirror means is scanning the fourth side, for preventing false operation of said control means. - View Dependent Claims (8)
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2. A relatively low-cost photoelectric machine access safety device comprising:
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(a) an integral rectangular support structure with each of three sides having an inside surface enclosing a guarded area through which an associated machine is accessed; (b) retrodirective reflective means mounted in a substantially continuous path on each of the three inside surfaces and facing the guarded area; (c) integral photoelectric light transmission and receiving means mounted on the inside surface of the fourth side for generating a control signal when transmitted light is not received; (d) movable reflector means positioned adjacent the fourth side and adapted to reflect a light beam transmitted by said photoelectric means directly to said retrodirective reflective means at a varying incidence angle and back along the same path directly to said photoelectric means; (e) moving means mounted on the fourth side for moving said movable reflector means so that the reflected light beam scans all of the guarded area whereby any body within the guarded area will interrupt the scanning light beam causing said photoelectric means to generate a control signal; and (f) control means mounted on said support structure and coupled to said photoelectric means and responsive to a control signal for stopping the associated machine accessed through the guard area. - View Dependent Claims (4, 5, 6)
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3. A relatively low-cost photoelectric machine access safety device comprising:
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(a) an integral support structure having an inside surface enclosing a guarded area through which an associated machine is accessed; (b) continuous retrodirective reflective means mounted in a path on the inside surface and facing the guarded area; (c) photoelectric light transmission and receiving means mounted on said support structure for generating a control signal when transmitted light is not received; (d) movable reflector means positioned adjacent said support structure and adapted to reflect a light beam transmitted by said photoelectric means directly to said retrodirective reflective means along an incidence angle and back along the same light path directly to said photoelectric means; (e) moving means mounted on said support structure for moving said movable reflector means so that the reflected light beam scans all of the guarded area whereby any body within the guarded area will interrupt the scanning light beam causing said photoelectric means to generate a control signal; and (f) control means coupled to said photoelectric means and responsive to a control signal for stopping the associated machine accessed through any part of the guard area. - View Dependent Claims (7)
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Specification
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Current AssigneeTheodore Lasar
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Original AssigneeTheodore Lasar
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InventorsLasar, Theodore
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Primary Examiner(s)Nelms, David C.
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Application NumberUS06/005,721Time in Patent Office693 DaysField of Search250/221, 250/222, 250/223, 250/234, 250/235, 250/236, 340/555, 340/556, 340/557US Class Current250/221CPC Class CodesF16P 3/144 using light gridsG01V 8/18 using mechanical scanning s...
