WO2003043928A1 - Hoistway access detection system - Google Patents

Hoistway access detection system Download PDF

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Publication number
WO2003043928A1
WO2003043928A1 PCT/US2002/030721 US0230721W WO03043928A1 WO 2003043928 A1 WO2003043928 A1 WO 2003043928A1 US 0230721 W US0230721 W US 0230721W WO 03043928 A1 WO03043928 A1 WO 03043928A1
Authority
WO
WIPO (PCT)
Prior art keywords
door
car
open
hoistway
landing
Prior art date
Application number
PCT/US2002/030721
Other languages
French (fr)
Inventor
Helio Tinone
Frank W. Adams
Original Assignee
Otis Elevator Company
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Otis Elevator Company filed Critical Otis Elevator Company
Priority to KR1020047006662A priority Critical patent/KR100899935B1/en
Priority to EP02773611A priority patent/EP1444161B1/en
Priority to JP2003545575A priority patent/JP4177258B2/en
Publication of WO2003043928A1 publication Critical patent/WO2003043928A1/en

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B13/00Doors, gates, or other apparatus controlling access to, or exit from, cages or lift well landings
    • B66B13/22Operation of door or gate contacts

Definitions

  • This invention relates to a method and apparatus for improving elevator safety and more particularly for detecting intrusion into an elevator hoistway.
  • Objects of the invention include an improved method and apparatus for detecting the presence of an unauthorized person in the hoistway.
  • a first safety chain is formed from the door sensors from the landings of the even numbered floors.
  • a second safety chain is formed from the door sensors from the odd numbered floors and
  • a third safety chain is formed from the door sensor from the pit door, which provides access to the pit at the bottom of the hoistway. In some elevator installations the bottom landing door also provides access to the pit.
  • the first, second, and third safety chains are monitored by software or logic located in the elevator controller. Depending on the status of the elevator car and safety chains the controller will allow the car to operate normally or stop the car and direct it to a nearest floor. The car will remain there until the controller receives a reset signal. [009] If no landing doors are open then there can be no entry to the hoistway. Therefore the controller will continue to monitor the status of three safety chains and allow normal operation.
  • the controller will determine if the car is moving in normal operation and a landing door is open. If both conditions are satisfied, the controller will stop the car. The logic will then proceed to determine if either the pit door or another landing door above the car top is open. If either condition is satisfied the car will stop and after the door is closed, proceed to a landing, at low speed, and stop to allow passengers to exit. The car will remain there until a reset signal is received and the open pit and/or landing doors are closed. The car will then resume normal operation. [011] In a second scenario with the car stopped at a landing and the corresponding landing door open, the car will remain stopped upon detection of either an open pit door or an open door above the car. The elevator will be allowed to return to normal operation upon detection of a reset signal.
  • FIG. 1 is a schematic of the subject invention according to a preferred embodiment.
  • Fig. 2 is high level flow diagram of the monitoring logic for the subject invention.
  • a hoistway detection system 10 includes a pit landing door 12 and a series of landing doors 14 associated with each landing of the hoistway 16.
  • door sensor 20 Associated with the pit door 12 is door sensor 20, to determine whether the door is open of closed.
  • Door sensors 18 monitor whether each associated landing door 14 is open or closed.
  • Each sensor 18 and 20 is wired in series in one of three safety chains 28, 30, and 32.
  • the first safety chain 28 includes the sensors 18 for the even numbered floors i.e. Pit+2 and Pit+4.
  • the second safety chain 30 includes the sensors 18 for the odd numbered floors i.e. Pit+1 - Pit+5 and the third safety chain 32 includes the pit door sensor 20.
  • the most likely reason for two landing doors 14 to be open is to gain access to the top of the car 24, or pit 17 located at the bottom of the hoistway 16.
  • the pit 17 is illustrated as having its own door 12 for access. However the pit area simply refers to the bottom of the hoistway and may be accessible by ladder from the lowest landing, or simply through the lowest landing. Therefore if the elevator 24 is stopped at an even number floor a person trying to gain access to the top of the car 24 would open the door one floor above, which is an odd numbered floor. By wiring the even and odd numbered floors in two separate chains the logic 100 can detect someone trying to gain unauthorized access to the top of the car 24. Unauthorized access to the pit 17 can be detected in much the same manner. By having a separate safety chain 32 for the pit unauthorized entry can be determined by detecting an open landing door 14 and the pit door 12 being open at the same time.
  • the controller 22 monitors each safety chain 28, 30, and 32 performing the logic functions as shown in Fig. 2.
  • the monitoring subroutine 100 begins at step 102 with the controller monitoring the signals from the landing 18 and pit sensors 20 via the first 28, second 30, and third 32 safety chains and movement of the elevator car 24 within the hoistway 16.
  • step 104 the logic determines whether any of the landing doors 14 or pit door 12 are open. If any door 14 or 12 is open either the first 28, second 30 or third 32 safety chain will be broken. If no door is open then no one can enter the hoistway and the logic returns to step 102. If either the first 28, second 30 or third 32 safety chain is broken, indicating a landing door 14 or pit door 12 is open, the logic proceeds to step 106. For this example it is assumed that the door Pit+2 is open which results in a break in the first safety chain 28.
  • the logic determines whether the elevator 24 is moving. If the car 24 is moving then someone may gain unauthorized access to the hoistway 16. Therefore the logic moves to step 108 where the elevator car 24 is stopped from further movement.
  • step 110 determines if the pit door 12 is open, which would result in a break in the third safety chain 32. If the pit door 12 is open then the logic proceeds to step 112 and the controller 22 directs car 24 to an alternate landing, at low speed, to allow passengers exit the elevator 24. The car 24 remains at this landing until a reset signal 34 is received by the controller 22 from an external switch 26. [019] If the pit door 12 is not open then the logic proceeds to step 114 to determine if the other safety chain (in this example the second safety chain 30) is open. If the second safety chain 30 is broken then the logic proceeds to step 112 and the elevator car 24 is directed to an alternate landing, at low speed, to allow passengers to exit the elevator car 24. If neither the second 30 nor third 32 safety chains are broken the car 24 remains stopped and the logic returns to step 102 to repeat the process. Once the door is closed the elevator returns to normal operation.
  • the other safety chain in this example the second safety chain 30
  • step 104 determines, at step 104, whether a landing door 14 is open and then proceeds to step 106 to determine if the elevator car 24 is stopped at a landing 14. If these two conditions are satisfied the logic proceeds to step 110 to determine if the third safety chain 32 is open. If the third safety chain 32 is open, indicating the pit door 12 is open, then the logic proceeds to step 112. The elevator will remain in this stopped position until the controller 22 receives a reset signal 34 by way of an external switch 26.
  • the reset signal 34 could originate from a switch on the controller, a pit switch or other appropriate signal.
  • step 114 the logic proceeds to step 114 to detect whether a door above the car is open. Assuming the car is stopped at an odd numbered floor the logic would determine if the first safety chain 28 is broken. This would indicate, for the present example, that one of the even numbered floors is open. If a door 14 of an even numbered floor is open, the logic would then proceed to step 112. The car 24 would remain at this landing until an external reset signal 34 is received. If neither the pit door 12, associated with the third safety chain 32, or a landing door 14 associated with the first safety chain 28, is open then the logic returns to step 102 and the process is repeated.

Landscapes

  • Elevator Door Apparatuses (AREA)
  • Maintenance And Inspection Apparatuses For Elevators (AREA)
  • Elevator Control (AREA)

Abstract

An improved hoistway access detection system including three safety chains, one for monitoring door position on the even numbered floors, one for monitoring door position on the odd numbered floors, and one for monitoring the position of the pit door, wherein an elevator car is slowly moved to the alternate floor upon detection and subsequent closure of an open pit door and any landing door.

Description

HOISTWAY ACCESS DETECTION SYSTEM
TECHNICAL FIELD
[001] This invention relates to a method and apparatus for improving elevator safety and more particularly for detecting intrusion into an elevator hoistway.
BACKGROUND ART
[002] Persons that enter a hoistway, such as mechanics, maintenance personnel, and unauthorized persons may be injured by sudden unexpected movement of the elevator car. The condition of hoistway doors and elevator doors are constantly monitored to ensure that authorized personnel follow safety procedures when entering the hoistway and that no car movement is allowed upon entry of unauthorized personnel.
[003] It is known in the prior art to monitor the switches on each landing door and the car door to determine if the doors are closed. The door switches from each door are normally wired in series to form a safety chain. High speed movement of the car is prevented whenever one of the doors is open. The car is allowed to resume normal operation when the doors are closed and the safety chain is made.
[004] However, there exists a problem in the prior art in that if the elevator door and the corresponding landing door are open to allow passengers to enter or exit the car the safety chain is broken. A second open landing door cannot be detected. Therefore someone could enter the pit area at the bottom of the hoistway or step onto the top of the car from a landing above while the car is stopped for normal operation. Once all the doors are closed the elevator will resume normal operation which could result in injury to person above the car or in the pit.
[005] Therefore there exists a need for an improved method and apparatus for detecting the presence of an unauthorized person entering the hoistway.
DISCLOSURE OF INVENTION
[006] Objects of the invention include an improved method and apparatus for detecting the presence of an unauthorized person in the hoistway. [007] According to the present invention, a first safety chain is formed from the door sensors from the landings of the even numbered floors. A second safety chain is formed from the door sensors from the odd numbered floors and a third safety chain is formed from the door sensor from the pit door, which provides access to the pit at the bottom of the hoistway. In some elevator installations the bottom landing door also provides access to the pit.
[008] The first, second, and third safety chains are monitored by software or logic located in the elevator controller. Depending on the status of the elevator car and safety chains the controller will allow the car to operate normally or stop the car and direct it to a nearest floor. The car will remain there until the controller receives a reset signal. [009] If no landing doors are open then there can be no entry to the hoistway. Therefore the controller will continue to monitor the status of three safety chains and allow normal operation.
[010] In a first scenario, the controller will determine if the car is moving in normal operation and a landing door is open. If both conditions are satisfied, the controller will stop the car. The logic will then proceed to determine if either the pit door or another landing door above the car top is open. If either condition is satisfied the car will stop and after the door is closed, proceed to a landing, at low speed, and stop to allow passengers to exit. The car will remain there until a reset signal is received and the open pit and/or landing doors are closed. The car will then resume normal operation. [011] In a second scenario with the car stopped at a landing and the corresponding landing door open, the car will remain stopped upon detection of either an open pit door or an open door above the car. The elevator will be allowed to return to normal operation upon detection of a reset signal.
BRIEF DESCRIPTION OF THE DRAWINGS
[012] Fig. 1 is a schematic of the subject invention according to a preferred embodiment.
[013] Fig. 2 is high level flow diagram of the monitoring logic for the subject invention. BEST MODE FOR CARRYING OUT THE INVENTION
[014] According to the present invention, a hoistway detection system 10 includes a pit landing door 12 and a series of landing doors 14 associated with each landing of the hoistway 16. Associated with the pit door 12 is door sensor 20, to determine whether the door is open of closed. Door sensors 18 monitor whether each associated landing door 14 is open or closed. Each sensor 18 and 20 is wired in series in one of three safety chains 28, 30, and 32. The first safety chain 28 includes the sensors 18 for the even numbered floors i.e. Pit+2 and Pit+4. The second safety chain 30 includes the sensors 18 for the odd numbered floors i.e. Pit+1 - Pit+5 and the third safety chain 32 includes the pit door sensor 20.
[015] The most likely reason for two landing doors 14 to be open is to gain access to the top of the car 24, or pit 17 located at the bottom of the hoistway 16. The pit 17 is illustrated as having its own door 12 for access. However the pit area simply refers to the bottom of the hoistway and may be accessible by ladder from the lowest landing, or simply through the lowest landing. Therefore if the elevator 24 is stopped at an even number floor a person trying to gain access to the top of the car 24 would open the door one floor above, which is an odd numbered floor. By wiring the even and odd numbered floors in two separate chains the logic 100 can detect someone trying to gain unauthorized access to the top of the car 24. Unauthorized access to the pit 17 can be detected in much the same manner. By having a separate safety chain 32 for the pit unauthorized entry can be determined by detecting an open landing door 14 and the pit door 12 being open at the same time.
[016] The controller 22 monitors each safety chain 28, 30, and 32 performing the logic functions as shown in Fig. 2. The monitoring subroutine 100 begins at step 102 with the controller monitoring the signals from the landing 18 and pit sensors 20 via the first 28, second 30, and third 32 safety chains and movement of the elevator car 24 within the hoistway 16.
[017] At step 104 the logic determines whether any of the landing doors 14 or pit door 12 are open. If any door 14 or 12 is open either the first 28, second 30 or third 32 safety chain will be broken. If no door is open then no one can enter the hoistway and the logic returns to step 102. If either the first 28, second 30 or third 32 safety chain is broken, indicating a landing door 14 or pit door 12 is open, the logic proceeds to step 106. For this example it is assumed that the door Pit+2 is open which results in a break in the first safety chain 28. At step 106 the logic determines whether the elevator 24 is moving. If the car 24 is moving then someone may gain unauthorized access to the hoistway 16. Therefore the logic moves to step 108 where the elevator car 24 is stopped from further movement.
[018] The logic then proceeds to step 110 to determine if the pit door 12 is open, which would result in a break in the third safety chain 32. If the pit door 12 is open then the logic proceeds to step 112 and the controller 22 directs car 24 to an alternate landing, at low speed, to allow passengers exit the elevator 24. The car 24 remains at this landing until a reset signal 34 is received by the controller 22 from an external switch 26. [019] If the pit door 12 is not open then the logic proceeds to step 114 to determine if the other safety chain (in this example the second safety chain 30) is open. If the second safety chain 30 is broken then the logic proceeds to step 112 and the elevator car 24 is directed to an alternate landing, at low speed, to allow passengers to exit the elevator car 24. If neither the second 30 nor third 32 safety chains are broken the car 24 remains stopped and the logic returns to step 102 to repeat the process. Once the door is closed the elevator returns to normal operation.
[020] In a second scenario where someone may be trying to gain unauthorized access to the top of the elevator car 24 or to the pit 17. The logic first determines, at step 104, whether a landing door 14 is open and then proceeds to step 106 to determine if the elevator car 24 is stopped at a landing 14. If these two conditions are satisfied the logic proceeds to step 110 to determine if the third safety chain 32 is open. If the third safety chain 32 is open, indicating the pit door 12 is open, then the logic proceeds to step 112. The elevator will remain in this stopped position until the controller 22 receives a reset signal 34 by way of an external switch 26. The reset signal 34 could originate from a switch on the controller, a pit switch or other appropriate signal. [021] If the third safety chain 32 is not broken then the logic proceeds to step 114 to detect whether a door above the car is open. Assuming the car is stopped at an odd numbered floor the logic would determine if the first safety chain 28 is broken. This would indicate, for the present example, that one of the even numbered floors is open. If a door 14 of an even numbered floor is open, the logic would then proceed to step 112. The car 24 would remain at this landing until an external reset signal 34 is received. If neither the pit door 12, associated with the third safety chain 32, or a landing door 14 associated with the first safety chain 28, is open then the logic returns to step 102 and the process is repeated.
[022] The foregoing description is exemplary rather than defined by the limitations within. Many modifications and variations of the present invention are possible in light of the above teachings. The preferred embodiments of this invention have been disclosed, however, one of ordinary skill in the art would recognize that certain modifications would come within the scope of this invention. It is, therefore, to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described. For that reason the following claims should be studied to determine the true scope and content of this invention.

Claims

Claims I claim:
1. A method for detecting intrusion into a hoistway of elevator comprising: determining whether a first landing door is open; determining whether an elevator car is moving; determining whether a second landing door located either above the car or below the car is open; and executing a hoistway detection mode wherein said elevator car is prevented from moving upon a determination that said first landing door is open, said car is moving, and said second landing door is open.
2. The method of claim 1, said hoistway detection mode further comprising: moving said car to a landing to release any passengers in said car prior to ceasing movement.
3. The method of claim 1 further comprising: resuming normal operation upon receipt of a reset command
4. The method of claim 1 further comprising: preventing movement of said car upon a determination that said first landing door is open and said car is moving.
5. A method for detecting intrusion into a pit of a hoistway of elevator comprising: determining whether a landing door is open; determining whether an elevator car is moving; determining whether a pit access door is open; and executing a hoistway detection mode wherein an elevator controller prohibits movement upon a determination that said landing door is open, said car is not moving and said pit access door is open.
6. The method of claim 5, said hoistway detection mode further comprising: moving said car to an alternate landing door to release any passengers in said car.
7. The method of claim 5 further comprising: resuming normal operation upon receipt of a reset command
8. A detection system for a hoistway, the hoistway including multiple landing doors, door sensors at each landing for monitoring the position of the landing doors, a pit located at the bottom of the hoistway having a pit door providing access thereto, the pit door position being monitored by a pit door sensor, the hoistway being adapted for movement of an elevator car therein, the detection system comprising: a first safety chain comprising from a first set of landings the doors sensors electrically connected in series; a second safety chain comprising from a second set of landings the door sensors electrically connected in series; and a controller for monitoring the first and second safety chains and for controlling movement of the elevator car within the hoistway, wherein said controller causes the elevator car to move to a landing and stop upon a determination that the elevator car is not moving, and the first and second safety chains are open.
9. The hoistway detection system of claim 8 wherein said controller causes said elevator car to move at low speed.
10. The hoistway detection system of claim 8 further comprising a third safety chain comprising the pit door sensor wherein the controller causes the elevator car to move to a landing and stop upon a determination that the elevator car is not moving; the first or second safety is open and the third safety chain is open.
PCT/US2002/030721 2001-11-16 2002-09-24 Hoistway access detection system WO2003043928A1 (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
KR1020047006662A KR100899935B1 (en) 2001-11-16 2002-09-24 Hoistway access detection system
EP02773611A EP1444161B1 (en) 2001-11-16 2002-09-24 Hoistway access detection system
JP2003545575A JP4177258B2 (en) 2001-11-16 2002-09-24 Hoistway access detection system

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US09/991,444 US6603398B2 (en) 2001-11-16 2001-11-16 Hoistway access detection system
US09/991,444 2001-11-16

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WO2003043928A1 true WO2003043928A1 (en) 2003-05-30

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US (1) US6603398B2 (en)
EP (1) EP1444161B1 (en)
JP (1) JP4177258B2 (en)
KR (1) KR100899935B1 (en)
CN (1) CN1298608C (en)
WO (1) WO2003043928A1 (en)

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Also Published As

Publication number Publication date
CN1298608C (en) 2007-02-07
EP1444161A1 (en) 2004-08-11
JP2005509581A (en) 2005-04-14
KR100899935B1 (en) 2009-05-28
CN1585723A (en) 2005-02-23
JP4177258B2 (en) 2008-11-05
EP1444161B1 (en) 2006-02-08
US6603398B2 (en) 2003-08-05
KR20040053256A (en) 2004-06-23
US20030094332A1 (en) 2003-05-22

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