The invention relates to elevator systems. More particularly the invention relates to elevator systems, in which a number of elevators operate in the same hoistway.
In very tall buildings it is not generally possible to profitably construct elevator hoistways that extend from the base floor up to the top floors of the building, the elevators operating in which hoistways would serve all the floors of a building. For this reason the floors of high-rise buildings are conventionally divided into floor zones, which are served with their own local elevators. To arrange the traffic between the zones, some of the floors function as so-called transfer levels (transfer floors), between which shuttle elevators operate taking passengers from the entrance lobby of the building to transfer floors and vice versa. When arriving at a transfer floor according to the route, a passenger takes a local elevator for traveling to the final destination floor. Prior-art solutions, in which local elevators move in their own elevator hoistways, are disadvantageous from the viewpoint of space usage, however, because the number of elevator hoistways needed becomes large. One known method to improve space usage is to dispose a number of elevator cars in the same elevator hoistway. U.S. Pat. No. 5,419,414, among others, discloses an elevator system in which three elevator cars are installed into the same elevator hoistway such that each elevator car is controlled by means of elevator machines disposed in a machine room at the top end of the elevator hoistway. Elevator ropes pass in an overlapping manner from the elevator machines to the elevator cars such that the elevator ropes going to the lowermost elevator car pass two other elevator cars and the elevator ropes going to the middle elevator car pass the topmost car. Corresponding overlapping must be made for the roping of the counterweights of the elevator cars. The cars can drive in the same elevator hoistway in relation to each other according to, among others, the following principles:
U.S. Pat. No. 6,871,727 discloses an elevator system, in which two-car elevators are used as shuttle elevators, which operate between transfer levels. The local elevators operating in different zones are arranged in the same elevator hoistway such that a passenger can transfer from a lower transfer floor of a transfer level to local elevators with which the passenger can get to floors lower than the transfer level, while from an upper transfer floor of a transfer level a passenger can get to local elevators that run to floors higher than the transfer level. By disposing local elevators in the same elevator hoistway, the number of elevator hoistways can be considerably decreased and thus also the space needed for elevator hoistways is also reduced. In the solutions presented, a top clearance is arranged for the local elevators, in which the elevator machine of each local elevator is disposed and that being the case the local elevators cannot serve shared floors such as e.g. the floors of a transfer level. The solution in question easily results in underutilization of the transport capacity of the local elevators and also hampers the transfer of passengers from the shuttle elevators to local elevators serving onward connections. Escalators between the transfer floors are also needed for the transfer levels, taking up extra space and making the overall solution expensive and complex.
The purpose of the present invention is to eliminate or at least to alleviate the aforementioned drawbacks that occur in prior-art solutions. The purpose of the invention is also to achieve one or more of the following objectives:
The elevator system according to the invention is characterized by what is disclosed in the characterization part of claim 1. The method of the invention is characterized by what is disclosed in the characterizing part of claim 10. Some inventive embodiments are also presented in the descriptive section and in the drawings of the present application. The inventive content of the application can also be defined differently than in the claims presented below. The inventive content may also consist of several separate inventions, especially if the invention is considered in the light of expressions or implicit sub-tasks or from the point of view of advantages or categories of advantages achieved. In this case, some of the attributes contained in the claims below may be superfluous from the point of view of separate inventive concepts. The features of the various embodiments can be applied within the framework of the basic inventive concept in conjunction with other embodiments.
The present invention discloses a method for allocating destination calls in an elevator system, which elevator system comprises at least one shuttle elevator, which serves at least one transfer floor of a transfer level, at least two local elevators, the elevator cars of which are arranged to travel in the same elevator hoistway such that they can both serve at least one aforementioned transfer floor. In the method a destination call given by a passenger is received, a plurality of route alternatives according to the destination call is formed from the departure floor to the destination floor, and one or more elevators are allocated to the use of the passenger by selecting the best route alternative on the basis of a given optimization criterion. In the method according to the invention, when allocating a destination call it is taken into account that the elevator cars of the local elevators that travel in the same elevator hoistway cannot simultaneously be at a transfer floor shared by them in cases in which the route alternative comprises a part-trip with a local elevator and a change of elevator at the aforementioned shared transfer floor.
The present invention also discloses an elevator system, which comprises at least one shuttle elevator, which serves at least one transfer floor of a transfer level, at least two local elevators, the elevator cars of which are arranged to travel in the same elevator hoistway such that they can both serve at least one aforementioned transfer floor, at least one destination call appliance, a control system that controls the elevator system, which control system is arranged to receive destination calls given from a destination call appliance, to form a plurality of route alternatives according to the destination call from the departure floor to the destination floor and to allocate one or more elevators for the use of the passenger by selecting the best route alternative on the basis of a given optimization criterion. According to the invention, when allocating a destination call the control system takes into account that the elevator cars of the local elevators that travel in the same elevator hoistway cannot simultaneously be at a transfer floor shared by them in cases in which the route alternative comprises a part-trip with a local elevator and a change of elevator at the aforementioned shared transfer floor.
In one embodiment of the invention the moment of arrival of the elevator car of a local elevator belonging to the route alternative at the aforementioned shared transfer floor is estimated. The route alternative is removed from the plurality of route alternatives if a second local elevator that travels in the same elevator hoistway will be at the shared transfer floor at the estimated arrival time on the basis of the calls already allocated to the aforementioned second local elevator. Alternatively, an automatic run can be performed to move an elevator car of a local elevator away from a shared transfer floor that belongs to a selected route alternative, if the elevator car in question is empty. An automatic run means in this context that the control system automatically generates a call to some suitable floor, as a consequence of which the elevator car moves away from the shared transfer floor.
In one embodiment of the invention a multicar elevator is used as a shuttle elevator and route alternatives are formed, from which at least one route alternative comprises a part-trip in one elevator car of the shuttle elevator and at least one second route alternative comprises a part-trip in one second elevator car of the shuttle elevator.
In one embodiment of the invention the elevator machine of at last one local elevator is disposed in the elevator hoistway to the side of the path of movement the elevator car of at least one second local elevator, such that the elevator cars can serve at least one shared transfer floor.
In one embodiment of the invention the roping of the elevator car of at least one local elevator is fitted to pass from below the elevator car and the roping of the elevator car of at least one other local elevator is fitted to pass from above the elevator car.
In one embodiment of the invention the suspension ratio of the counterweight of at least one local elevator is greater than the suspension ratio of the elevator car.
In one embodiment of the invention the local elevators are elevators without counterweight.
In one embodiment of the invention one or more local elevators are arranged to operate as a shuttle elevator between transfer levels on the basis of the traffic situation of the elevator system.
With the solution according to the invention numerous advantages are achieved compared to prior-art solutions. With the solution according to the invention, it is possible:
In the following, the invention will be described in detail by the aid of a few examples of its embodiments, wherein:
a and 3b present the suspension above and below the elevator car.
The two-car elevator 11 is a shuttle elevator, which moves in the elevator hoistway 13 by means of an elevator machine 14 serving all the floors of a building. The elevator system is controlled with a control system 19, which receives calls given by passengers on the floors and allocates, according to the call, one or more elevator cars for the use of the passengers. Control system in this context means generally all the interface units and control units needed by the elevator system for controlling the elevators on the basis of the calls given.
The local elevators 12 are arranged in the same elevator hoistway 15 according to
The elevator system according to
In practice the local elevators are in more than one elevator hoistway, in which case also the number of route alternatives is considerably greater than what is presented by way of example above. The large number of route alternatives enables efficient optimization when allocating elevator cars for the use of passengers. Allocation according to the above example can be performed either in one phase, in which case the elevator cars serving both the first part-trip and the second part-trip are decided immediately, or in two phases, in which case the elevator car serving the second part-trip is decided when the elevator car performing the first part-trip has arrived, or is arriving, at the planned transfer floor. The elevator serving the onward route is indicated in this case with signs on the transfer level and/or by sending the relevant information directly to a terminal device in the possession of the passenger. In the allocation it must, of course, be taken into account that the elevator cars moving in the same elevator hoistway cannot be at a shared transfer floor at the same time. In this case the control system can estimate the arrival time of the local elevator belonging to the route alternative and remove the route alternative from the plurality of route alternatives if an elevator car of a second local elevator that travels in the same elevator hoistway will be at the shared transfer floor in question at the estimated arrival time on the basis of the calls already allocated to the second local elevator in question. The control system can also perform an automatic run to move an elevator car of a local elevator away from a transfer floor, if the elevator car in question is empty and prevents the arrival of an elevator car of a local elevator that belongs to the route alternative from arriving at the transfer floor.
The elevator system according to the invention also enables the use of local elevators in the manner of shuttle elevators. The elevator system comprises in this case preferably a number of elevator hoistways, e.g. eight elevator hoistways, in which local elevators move in the same elevator hoistways in the manner of
a and 3b present by way of example the suspension above and below the elevator car. The roping 31 of the elevator car 30 is fitted to pass from the top of the elevator car 30 via the diverting pulleys 32 fixed to the elevator car. Correspondingly, the roping 36 of the elevator car 35 is fitted to pass from below the elevator car 35 via the diverting pulleys 37 fixed to the elevator car. With the roping according to
The invention is not limited solely to the embodiments described above, but instead many variations are possible within the scope of the inventive concept defined by the claims below. Thus, for example, a multicar elevator can comprise three or even more elevator cars instead of two elevator cars. Also there can be a number of shuttle elevators, which operate in the same elevator hoistway and/or in different elevator hoistways, in the elevator system.
Number | Date | Country | Kind |
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20080640 | Nov 2008 | FI | national |
This application is a continuation of PCT/FI2009/000099 filed on Nov. 27, 2009, which is an international application claiming priority from FI 20080640 filed on Nov. 28, 2008, the entire contents of which are hereby incorporated by reference.
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Number | Date | Country | |
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20110209950 A1 | Sep 2011 | US |
Number | Date | Country | |
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Parent | PCT/FI2009/000099 | Nov 2009 | US |
Child | 13067078 | US |