This invention relates to assisting vision impaired persons, by identifying with distinctive sounds which elevator is to serve one or more contiguous floors, which may also assist persons that are color blind in locating elevators identified with colors and/or symbols.
A wide variety of techniques for interfacing passengers with suitable elevators are known in the art. One class of devices call an elevator to a floor to pick up a passenger. This class of devices may be as simple as the well-known up/down call buttons. More recent call destination systems might display a large number of floor buttons or might consist of ten key destination floor call devices. Still other devices include card readers as well as hand-held call devices and smart badges which operate in a wireless fashion, such as using electromagnetic radiation (RF, IR), to indicate the desire to be picked up on a certain floor, the desired destination floor, and possibly the security access for the destination floor.
To inform passengers which elevators will serve them, the technique might be as simple as up/down directional lanterns which light as an elevator approaches a floor, or which light immediately (or fairly soon) after a call is placed. For remote call devices and certain of the destination call devices, an indication may appear on the device itself, such indication typically comprising a letter indicative of the elevator which will respond to that call.
During morning rush hour, up peak elevator traffic may be handled without any call devices in the simplest of techniques, passengers simply walking in and observing on a panel above the elevator the floor numbers of the group of floors being served by any particular elevator which is, or is about to be, standing at the landing. An example of such a system is disclosed in U.S. Pat. No. 4,804,069, entitled “Contiguous Floor Channeling Elevator Dispatching”. The problem with these devices is that they can only be observed within a relatively small area in the immediate vicinity of each elevator, so passengers must hunt for the elevator assigned to a group of floors that includes the destination floor of the passenger. This tends to cause milling around and confusion, which is counterproductive to a smooth upflow of passengers.
A preferred manner of handling morning rush hour, up peak elevator traffic is sometimes referred to as “channeling”, as is disclosed in the aforementioned U.S. Pat. No. 4,804,069 and in U.S. Pat. No. 4,846,311, entitled “Optimized ‘Up-Peak’ Elevator Channeling System with Predicted Traffic Volume Equalized Sector Assignments”. Therein, during the morning rush, floors are assigned to various groupings called “sectors”. In the latter case, the assignment of floors to sectors is altered as the predicted volume of traffic to particular floors changes, in small time intervals (every few minutes), so that a floor may be served with the floors above it on one trip and be served with the floors below it on the next trip. Furthermore, although a given sector, for instance the highest sector in the building, may be relatively stable so that the person on the highest floor can depend upon it being the highest sector, nonetheless that sector may be assigned to a different elevator each time the trip is made. Assigning sectors to different elevators is one of the ways that traffic flow is increased. This of course makes it more difficult for passengers to determine which elevator to take.
In systems having destination call panels, it has been known to provide, typically by means of a letter, the indication of the elevator, which is to serve a group of floors including the floor of the destination, which has just been entered on the call device. However, the use of the destination call device itself slows down the flow of rush hour traffic, and the letters do not themselves provide the best correlation, particularly in view of the fact that the building tenants must remember the letter from some place in a corridor well in advance of the elevator lobby, and typically being a different letter every day.
In PCT publication WO 01/79101, a sector including a passenger's destination floor is identified with a color, and the elevator serving that floor at that time is identified with the same color, in a manner, which is readily observed from any entrance to or any position within a corresponding elevator lobby.
Although color assignment to sectors is a very effective way to serve up-peak traffic during morning rush hour for persons who are able to see colors, it is of no use to persons who are significantly vision-impaired. Use of symbols (such as alphabetic letters) will accommodate persons who have sight but are color blind; however, symbols will not accommodate those who are essentially un-sighted.
Objects of the invention include: improvements in serving visually impaired persons during rush hour, up peak elevator traffic; non-visual correlation between desired destination floor and elevator serving that floor; an easily rememberable correlation between destination floor and elevator serving such floor; and smooth passenger service for visually impaired persons in an elevator system employing variable assignments of elevators to sectors.
According to the present invention, a station in a lobby hallway has buttons which are pressed to identify a destination floor or a range of floors including a destination floor; as soon as the elevator that will answer the call has been determined, the station issues a unique sound, such as a tone or series of tones, the sound corresponding to each elevator being readily distinguishable from the sound corresponding to any other elevator. Once a sound is emitted at the hall station, the sound is also emitted at the elevator, which is serving the request indicated by the button until the elevator leaves the landing.
In one embodiment of the invention, the sectors (groups of floors) that are served during up peak are fixed, and therefore only the range of floors served in each corresponding sector need appear in Braille on the respective buttons. In other embodiments, an N-key service request panel can be marked in Braille for each floor of the building, the sector in which the floor is currently assigned being identified by a unique sound when a floor button is pressed.
In either embodiment, the visually handicapped passenger will locate either the group of floors containing the floor of desired destination, or the destination floor itself, by touching buttons identified with Braille, to determine a car, which will carry the passenger to his/her desired destination.
An optional feature of the invention is to color sector buttons to match the fixed sector assignments of floors in the building so that sighted persons may if they wish press the sector button to hear the sound leading them to the correct elevator.
In any of the above embodiments, each sound may be permanently assigned to a respective car, or each sound may be permanently assigned to a respective sector.
Although the N-key embodiment of the invention works for off peak as well as up peak, the visually handicapped will normally use the conventional up/down hall call buttons to request service, and locate the responding car by the sound of the gong.
In another embodiment of the invention, a single button may be used for the visually handicapped. Upon pressing the button, a list of floors within sectors is announced. When the destination floor is announced, pressing of the button by the passenger will cause that sector to be identified, producing a unique sound, which sound is repeated at the elevator assigned to that sector.
Other objects, features and advantages of the present invention will become more apparent in the light of the following detailed description of exemplary embodiments thereof, as illustrated in the accompanying drawing.
In
Tones will emanate from the speakers only when service has been requested from a visually handicapped person. The indicator 35 may be yellow, but it is not currently lit and is displaying no color since it is not assigned to any sector of floors for its next trip, at the particular moment; or elevator 29 may be assigned to interfloor traffic, which is common in systems employing channeling; there would also be no tone emanating from the annunciator 35a.
In a hallway leading to the elevator lobby, there is disposed a floor indicator panel 39 for the sighted, and a station 39a for the visually handicapped. All of the floors served by the group at the elevator lobby are indicated on the panel 39, either simply by floor number, or perhaps by floor number and principal tenants. The important thing is, however, that groups of floors being served by an elevator are identified with the same color displayed by the elevator indicators 32-35 and the same tone from the speakers 32a-35a corresponding to the respective elevator currently assigned to serve the related group of floors. Conventional hall call buttons 40 are used during off peak.
In one embodiment, each floor is permanently assigned to a sector and each sector has a color and a tone permanently assigned to it. In such case, sighted building tenants need not look at the floor identifier panel during morning up peak; tenants need only look to see which elevator (if any) is displaying their regular, every-day color. However, sounds may be less easily remembered, so the visually handicapped may press the desired sector button each day.
In the case of dynamic channeling, the channeling dispatcher continuously makes new floor groupings to form sectors of contiguous floors; some floors may be assigned to a new sector, and their colors in the panel 39 and their tone will therefore change. The color of a floor in the panel 39 and the tone in the speakers 32a-35a will not change from the time the elevator car is assigned until the assigned car has left on a trip. Then any floor in the sector being served may be transferred to a contiguous sector and the color of that floor on the panel 39 and the speaker sound will change to the color and sound of the new sector, when it is assigned to a car. The coloration of floors in the panel 39, and the corresponding letters (A/blue; B/red, C/green; D/yellow) as well as the speaker sounds will therefor reflect the sector assignment of each floor, as the assignments of some floors are moved into other sectors, as the rush hour progresses.
In
In
Referring to
An illustration of the functions which might be performed with the embodiment of
Then a test 66 determines if the car assigned to sector S has been dispatched or not; if not, the routine will wait for a small period of time as established by a delay 67, such as ten seconds or such other time as is determined to be appropriate, and step 64 will again sound the tone indicative of sector S at the car assigned to sector S. This continues until the car assigned to sector S is dispatched, at which time an affirmative result of test 66 causes the routine to revert to the test 57 to await another button interrupt.
Optionally, in a parallel processing computer, there may be several routines such as
Another embodiment of the invention, illustrated in
When the passenger hears the desired range of floors, the passenger will again press the button 70 causing the test 82 to be affirmative reaching a test 83 to determine if a car has been assigned to the sector related to the floor range announced just before the passenger pressed the button 70 again. If not, the routine will cycle on a negative result of test 83.
When a car has been assigned, an affirmative result of test 83 reaches a step 85 to sound the tone relating to sector S at the station (speaker 54,
A test 89 determines if the car assigned to sector S is dispatched yet or not. If not, the routine will wait for a delay 90 and then the step 87 will again cause the tone for sector S to be sounded at the car assigned to sector S. Once the car has been dispatched, an affirmative result of test 89 causes the routine to revert to the step 73 to await an additional button interrupt.
If the passenger has not pressed a button selecting a sector by the time that the timer times out, an affirmative result of test 79 will reach a test 94 to see if all of the sectors have been announced. If not, a step 96 increments S and another sector is announced. When all sectors have been announced, an affirmative result of test 94 reverts the routine to test 73, to await another button interrupt. Alternatively, an affirmative result of test 94 may lead to step 75 to announce all of the sectors again.
During off-peak, “S” may represent individual floors, step 76 may announce all individual floors and test 83 may respond to an elevator being assigned to the floor selected by the button interrupt at test 82.
Optionally, in a parallel processing computer, there may be several routines such as
A third embodiment of the invention, illustrated in
Then a test 100 determines if a car has been assigned to the sector of the desired floor, or not. When it has, a step 101 causes the tone of the car assigned to sector S to be sounded at the station, through the speaker 54. After a short delay at step 102, a step 104 will cause the tone of the car assigned to sector S to be sounded at the car assigned to sector S, through one of the speakers 32a-35a in
A test 105 determines if the car assigned to sector S has been dispatched or not. As long as it has not, after a delay 106, the sounding of tone S at the car assigned to S will be repeated at step 104. When the car assigned to sector S has been dispatched, an affirmative result of test 105 causes the routine to revert to the test 96 to await another button interrupt.
At times other than rush hour up peak, step 98 in
In the foregoing embodiments shown in
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US04/15788 | 5/19/2004 | WO | 8/8/2006 |