Elevator – industrial lift truck – or stationary lift for vehicle – With barrier for regulating access to load support – Includes motor or motor driven linkage for shifting barrier
Reexamination Certificate
2002-03-12
2003-04-15
Salata, Jonathan (Department: 2837)
Elevator, industrial lift truck, or stationary lift for vehicle
With barrier for regulating access to load support
Includes motor or motor driven linkage for shifting barrier
C049S026000
Reexamination Certificate
active
06547042
ABSTRACT:
TECHNICAL FIELD
This invention relates to gap scanning. In particular it is concerned with the scanning of a gap (typically one of variable size) where the occurrence of an intrusion can represent an event which requires a modification of an operation involving the gap.
BACKGROUND ART
An example of a gap scanning requirement arises in connection with a sliding door of an elevator. For safe operation as the door closes the gap being closed by the door is scanned to detect whether something is intruding into the gap. In the event scanning reveals the existence of an intrusion into the gap then operation of the door modified to ensure that the intruding object is not trapped by the closing of the gap. Typically the scanning can be carried out by way of an array of emitters on one side of the gap where each emitter in turn periodically sends out an electromagnetic beam (such as an infra red beam) and a complementary array of receivers on the other side of the gap detect the arrival of the emitted beams. The arrays can be mounted either a fixed distance apart (‘a fixed gap’) to look across a gap progressively closed by a door or doors. Alternatively one or other of the arrays can be mounted on the leading edge of a door so that arrays are effectively located at or near the lateral boundaries of the gap (a ‘variable gap’) as it opens or closes.
Another example of gap scanning arises in relation to the safe operation of a machine tool such as a sheet metal press having a working area which is protected by one or more machine guards. Access to the working area by displacement of one or more guards serves to leave a gap. This may be necessary for a number of reasons typically to enable material to be fed to or removed from the working area or for cleaning of or adjustments to be made. For as long as the gap is being scanned and an intrusion in the gap is detected such as the arm of an operator then operation of the tool is inhibited until the intrusion is removed.
In what follows particular reference is made to use of the invention in relation to an elevator. However the invention is not limited to such an application.
In EP 0 699 619 (Memco Limited) there is described a lift installation in which a multi-beam curtain (primary beam) extends across a lift car door opening/Auxiliary transmitters direct secondary beams towards a detection zone in front of the landing doors. The multibeam curtain is intercepted by a passenger entering the lift to prevent premature door closure. However, premature closure is also prevented when a passenger stands in front of the landing doors thereby causing some of the secondary beam to be reflected onto auxiliary receivers. This is said to provide a low cost solution to the problem of non-detection of an obstruction in the closing path of the landing doors, but not intercepting the primary beam system, and also provides an increase in the passenger convenience of the lift, as the doors are held open for a passenger approaching the lift, but not yet interrupting the primary beams.
In EP 0 709 336 (Otis Elevator Company) there is described an apparatus for detecting weak beams in a beam detecting system including a plurality of emitters for radiating beams of energy, a plurality of detectors for providing detector signals in response to the beams of energy radiated by said plurality of emitters and means for detecting if the beams radiated by said plurality of emitters are weak. If weak beam is detected the beam is determined inoperative by the obstruction detection system and is not considered in subsequent obstruction detection.
DISCLOSURE OF INVENTION
According to a first aspect of the present invention A method of gap scanning wherein a first working member (such as a door) in conjunction with a second working member (such as another door, a door frame or a fixed surface) serves to define or include the gap to be scanned; the method including the steps of: locating on one side of the gap an array of emitters of electromagnetic radiation; locating on the other side of the gap to the one side an array of receivers of the electromagnetic radiation; each emitter in the array thereof being adapted to provide for the emission of a beam of radiation along an axis of transmission from the emitter across the gap to one or more of the receivers in the array thereof; each receiver in the array thereof being adapted to detect a beam of radiation from one or more of emitters in the array thereof along an axis of reception to the receiver across the gap from the emitters; providing an output channel for each receiver in the array thereof by means of which in the event the receiver detects a beam of radiation as aforesaid the receiver emits an output signal; characterised by the steps of:
1 linking a group of at least two receivers (
10
) by way of the their output channels by means of a common line (X
1
-X
8
) to a switch (M
1
-M
3
) such that on the switch receiving an output signal along the common line (X
1
-X
8
) from the group it is unable on the basis of that output signal alone to discriminate as to which of the receiver or receivers in the group generated or contributed to the output signal;
2 causing the switch on receiving an output signal as aforesaid to transmit to a processor a second signal;
3 enabling the processor to identify the member or members of the group causing the generation of the second signal by virtue of the time of arrival of the second signal relative to some time datum and/or to the location of the group relative to some geometric datum; and
4 comparing the second signal or a function thereof with a predetermined value in order to establish whether the second signal represents:
a first state of the gap such as could arise from an obstruction resulting in radiation emitted from one or more emitter being prevented by the obstruction from falling on one or more members of the group; or
a second state such as could arise from an anomalous condition, and in the event the second signal represents the first state then initiating a control change to occur to cause, in the case of a variable size gap, a change in the spatial relationship between the first and the second working members from that existing prior to the comparing step (such as by causing the gap to stop changing or to cause it to increase) or, in the case of a fixed size gap, modifying some pre-existing control condition dependent on whether or not the first state exists.
According to a first preferred version of the first aspect of the present invention the array of receivers comprises N receivers and these are separated into A groups of receivers where A<N and A common lines are provided to link the groups to the switch.
According to a second preferred version of the first aspect of the present invention or of the first preferred version thereof the gap is of fixed size.
According to a third preferred version of the first aspect of the present invention or of the first preferred version thereof the first and second working members are movable relative to one another so that the gap is variable in size between a maximum size, when the first and second members are in an open position, and a minimum size when the first and second working members are in a closed position. Typically at least one array is located at or near and for movement with, a leading edge of the first or the second working member.
According to a fourth preferred version of the first aspect of the present invention or any preceding preferred version thereof the axis of transmission and the axis of reception are off-set from one another so that, at least with the gap at or near its maximum value no given axis of transmission is coaxial with a given axis of reception.
According to a fifth preferred version of the first aspect of the present invention or any preceding preferred version thereof at least the majority of axis of transmission are parallel to the majority of the axis of reception.
According to a second aspect of the present invention there is provided apparatus for scanning a gap defined between first
Airdri Limited
Davis & Bujold P.L.L.C.
Salata Jonathan
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