CN111847148B - Elevator destination floor allocation system - Google Patents

Abstract

The invention discloses an elevator destination floor distribution system, comprising: a receiving unit for receiving information of a landing destination; the identification unit is used for identifying and outputting the passenger flow mode of the elevator; the signal conversion unit is used for converting the information of the elevator taking destination layer and outputting the information of the elevator taking travel direction; a storage unit for storing a first allocation algorithm based on the landing destination information and a second allocation algorithm based on the landing travel direction information; the judging unit is used for judging whether the current execution algorithm of the elevator needs to be switched or not; the switching unit is used for switching the current execution algorithm when the judgment result is that the current execution algorithm needs to be switched; and an allocation unit for allocating the elevator by using the switched execution algorithm to respond to the elevator taking request of the elevator user. The invention can select a proper allocation algorithm in time according to the change of the passenger flow mode, and fully exerts the respective advantages of destination floor allocation and allocation based on the uplink and downlink directions to allocate the elevator, thereby realizing the maximum improvement of the elevator operation efficiency.

Description

Elevator destination floor allocation system

Technical Field

The present invention relates to an elevator allocation system, and more particularly to a destination floor allocation system capable of adjusting an elevator allocation method according to a passenger flow pattern of an elevator.

Background

Typically, landing call registration and assignment has several ways. First, in the conventional method of calling by using up buttons/down buttons, the group control system based on the conventional method cannot acquire the destination floor and the number of people of the elevator users in advance, and the group control system generally allocates one elevator to all elevator users in the same direction. In the second mode, a destination floor control method in which a call is made using a destination floor registration device and/or a passenger mobile terminal installed in a hall is adopted, and a group control system based on this method can acquire the destination floor and the number of elevator users in advance (assuming that each elevator user registers its own destination floor or inputs the number of elevator users to take the elevator), and generally notifies the elevator users of an assigned elevator to be responsive to the elevator taking request immediately after the elevator users have been called. The third mode is a hybrid mode of the first and second modes, in which a destination floor registration device is installed in a crowded floor such as a main hall, a restaurant, and a conference room, and conventional up buttons and down buttons are installed in other floors.

In some buildings, the service levels of the elevators in the same group are not completely identical for some special reasons, e.g. where some elevators cannot go to the basement or the top floor. In order to deal with the above problem, the first method needs to add additional call buttons, and similarly, the third method needs to add additional call buttons to floors using the conventional up button/down button. The second mode can acquire the serviceable floors of the elevators and the destination floors of elevator users in advance, so that the second mode can allocate proper elevators and effectively solve the problem. In addition, since the second method knows the destination floors of the elevator users in advance, in the case of a busy distributed passenger flow (the passenger flow is distributed from a certain floor to each floor), for example, in the process of returning to work at a working peak or a lunch peak, the same elevator can be allocated to the elevator users going to the same destination floor, so that the number of times of stopping the elevator is reduced, the operation efficiency is greatly improved, and a better allocation effect can be obtained compared with the first method.

In consideration of multiple factors such as convenience in use and uniformity of appearance, the second mode is more and more approved by customers. However, in the case of a convergent traffic (a traffic is converged from each floor to a certain floor), such as a lunch peak off duty dining process or off duty peak, the distribution method of the second method does not significantly improve the operation efficiency. Because the elevator users go to the same destination floor (such as a restaurant and a lobby) and the elevator users on the same departure floor can not register respectively, the group control system can not know the number of the elevator users, and when the elevator car is full, the elevator users on the lower floor allocated to the elevator can not be served, chain reaction is formed, and the elevator users are not full. In order to assign an optimal elevator car according to a change in the passenger flow, it is sometimes necessary to change an already assigned elevator, and in this group control system, since the object to be notified is not known, it is not possible to notify the change.

The invention patent application No. 201310687412.2 proposes a hall destination floor registration device which performs destination floor registration by a mobile terminal such as a smartphone, so that it is possible to specify a passenger, and since a structure capable of specifying a passenger is adopted, it is possible to change an already assigned elevator car, and to notify the mobile terminal of the passenger of the change in the assigned car, thereby improving the convenience of the passenger and the overall operation efficiency of the elevator. However, this method cannot solve the problem of performing destination floor registration by a destination floor registration device installed in a hall.

A new mode of operation is introduced in application No. 201480078106.1, in which call information is displayed on a common information panel, landing calls are assigned shortly before the assigned elevator arrives at the landing from which the landing call has been issued, and the assignment results are displayed on the common information panel, with delayed assignment of destination floor calls for heavier traffic situations. The disadvantage of this approach is that an additional common information panel needs to be added and the passengers need to constantly look at this common information panel to know the allocated elevator.

Disclosure of Invention

The invention aims to provide an elevator destination floor distribution system, which can solve the problems that the distribution result cannot be reasonably changed and the change result cannot be timely and conveniently notified when convergent passenger flow occurs in the conventional destination floor distribution system adopting a destination floor control mode.

In order to solve the above problems, the present invention provides an elevator destination floor allocation system including:

a receiving unit for receiving the landing destination floor information from the destination floor registration device;

the elevator passenger flow mode identification unit is used for identifying and outputting a passenger flow mode of an elevator, wherein the passenger flow mode comprises a distributed passenger flow mode, a convergent passenger flow mode and a common passenger flow mode which does not belong to the convergent passenger flow mode and the distributed passenger flow mode;

the signal conversion unit is used for converting the elevator taking destination layer information received by the receiving unit and outputting elevator taking travel direction information;

a storage unit, configured to store an execution algorithm, where the execution algorithm includes a first allocation algorithm based on the elevator-taking destination floor information and a second allocation algorithm based on the elevator-taking travel direction information;

the judging unit is used for judging whether the current execution algorithm of the elevator needs to be switched or not;

the switching unit is used for switching the current execution algorithm when the judgment result of the judging unit is that the current execution algorithm needs to be switched;

and an allocation unit for allocating the elevator by using the switched execution algorithm to respond to the elevator taking request of the elevator user.

Further, the identification unit analyzes the current and/or historical operating data of the elevator and identifies the elevator according to the analysis result.

Further, the operation data includes at least one of weighing data of the elevator, elevator taking request registration data from a landing or a passenger mobile terminal, destination floor registration data in the car, video recognition result data in the landing or the car, elevator door data, and detection data of an elevator user entering or exiting the car.

Further, the identification unit analyzes the operation data by at least one of statistical analysis, machine learning, data mining, and predictive analysis.

Further, the signal conversion unit determines the elevator taking travel direction information according to the floor where the elevator taking target floor information is registered and the target floor.

Further, the judgment unit judges that the currently executed algorithm of the elevator needs to be switched when any one of the following conditions is satisfied:

the method comprises the following steps that 1, a changed passenger flow mode is a distributed passenger flow mode, a current execution algorithm is a second distribution algorithm, a judging unit judges that the current execution algorithm of the elevator needs to be switched, and a switching unit switches the current execution algorithm from the second distribution algorithm to the first distribution algorithm;

and 2, the changed passenger flow mode is a convergent passenger flow mode, the current execution algorithm is a first distribution algorithm, the judging unit judges that the current execution algorithm of the elevator needs to be switched, and the switching unit switches the current execution algorithm from the first distribution algorithm to a second distribution algorithm.

Further, the signal switching unit switches the floor information of the elevator taking destination received by the receiving unit only when the judging unit judges that the currently executed algorithm of the elevator needs to be switched from the first allocation algorithm to the second allocation algorithm or the currently executed algorithm is the second allocation algorithm.

Further, when the condition 2 is satisfied and the elevator user enters the car, a destination floor registration interface provided by a destination floor registration device in the car only displays the destination floor in the elevator taking destination floor information received by the receiving unit.

Further, when the condition 2 is satisfied, the step of switching the currently executed algorithm by the switching unit is as follows:

step A1, judging whether there is still unresponsive elevator taking request, if yes, entering step A2, otherwise entering step A3;

step A2, generating and outputting notification information, wherein the notification information comprises a prompt for an elevator user to judge the taking and going direction of the elevator user by himself and select to take the elevator according to the taking and going direction;

step A3, selecting the second distribution algorithm as a new execution algorithm;

and step A4, ending.

Further, when the condition 2 is satisfied, the step of switching the currently executed algorithm by the switching unit is as follows:

step A1, judging whether there is still unresponsive elevator taking request, if yes, entering step A2, otherwise entering step A4;

step A2, reserving the allocation result of the elevator taking request which is not responded;

step A3, generating and outputting notification information, wherein the notification information comprises a prompt for an elevator user of a subsequent newly-added elevator taking request to judge the elevator taking direction of the elevator user by himself or herself and select to take the elevator according to the elevator taking direction;

step A4, selecting a second allocation algorithm as a new execution algorithm for the subsequent newly increased elevator taking request;

and step A5, ending.

Further, when the condition 2 is satisfied, the step of switching the currently executed algorithm by the switching unit is as follows:

step S1, selecting one elevator from all elevators as a transition elevator;

step S2, allocating the newly-increased elevator taking request to other elevators except the transition elevator;

step S3, judging whether the transition elevator still has an unfinished elevator taking request, if yes, returning to step S2, otherwise, entering step S4;

step S4, taking the transition elevator as the executing elevator of the second allocation algorithm;

step S5, informing the subsequent elevator users that the elevator allocation mode is converted into the information based on the passenger traveling direction;

step S6, allocating the newly added elevator taking request to the elevator executing the second allocation algorithm;

step S7, judging whether an elevator with the current execution algorithm as the first allocation algorithm still exists, if so, selecting one elevator from the remaining elevators with the current execution algorithm as the first allocation algorithm as a transition elevator and entering step S8, otherwise, entering step S10;

step S8, judging whether the transition elevator still has an unfinished elevator taking request, if yes, entering step S9, otherwise entering step S4;

step S9, assigning the newly increased elevator taking request to the elevator to be executed by the second assignment algorithm, and returning to step S8;

step S10 ends.

Further, when the condition 1 is satisfied, the switching unit retains the allocation result obtained based on the second allocation algorithm for the boarding request before the switching of the currently executed algorithm; and for the subsequent newly-added elevator taking request, the switching unit adopts a first allocation algorithm to allocate, and informs the elevator user of the allocation result after the elevator user finishes registration.

Compared with the prior art, the invention has the following beneficial effects:

firstly, the elevator destination floor allocation system of the invention identifies and analyzes the passenger flow of each landing of the elevator, and can select a proper elevator allocation algorithm in time according to the change of the passenger flow mode, so that the execution algorithm based on the elevator taking destination floor is switched to the execution algorithm based on the uplink and downlink directions in time under the condition that obvious convergent passenger flow occurs, thus the elevator can be allocated by fully playing the advantages of the destination floor allocation and the advantages of the allocation based on the uplink and downlink directions, and the maximum improvement of the elevator operation efficiency can be realized;

secondly, the elevator destination floor allocation system of the present invention is applied to a destination floor registration device installed in a landing and a personal mobile terminal of a passenger, and can notify an elevator user of a change in an elevator allocation manner in a timely and convenient manner, thereby ensuring an elevator riding experience of the elevator user.

Drawings

Fig. 1 is a block diagram of a first embodiment of an elevator destination floor allocation system according to the present invention;

fig. 2 is a flow chart of a switching unit of a second embodiment of the elevator destination floor allocation system of the present invention;

fig. 3 is a flow chart of a switching unit of a third embodiment of the elevator destination floor allocation system of the present invention;

fig. 4 is a flowchart of a switching unit of the fourth embodiment of the elevator destination floor allocation system of the present invention.

Detailed Description

Other advantages and effects of the present invention will become readily apparent to those skilled in the art from the following detailed description, wherein it is shown in the accompanying drawings, wherein the specific embodiments are by way of illustration. In the following description, specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced or applied in different embodiments, and the details may be based on different viewpoints and applications, and may be widely spread and replaced by those skilled in the art without departing from the spirit of the present invention.

Example one

The destination floor allocation system of the elevator of the embodiment, as shown in fig. 1, includes:

a receiving unit for receiving the landing destination floor information from the destination floor registration device;

the elevator passenger flow mode identification unit is used for identifying and outputting a passenger flow mode of an elevator, wherein the passenger flow mode comprises a distributed passenger flow mode, a convergent passenger flow mode and a common passenger flow mode which does not belong to the convergent passenger flow mode and the distributed passenger flow mode;

the signal conversion unit is used for converting the elevator taking destination layer information received by the receiving unit and outputting elevator taking travel direction information;

a storage unit, configured to store an execution algorithm, where the execution algorithm includes a first allocation algorithm based on the elevator-taking destination floor information and a second allocation algorithm based on the elevator-taking travel direction information;

the judging unit is used for judging whether the current execution algorithm of the elevator needs to be switched or not;

the switching unit is used for switching the current execution algorithm when the judgment result of the judging unit is that the current execution algorithm needs to be switched;

and the allocation unit allocates the elevator by using the switched execution algorithm to respond to the elevator taking request of the elevator user.

The identification unit analyzes the current operation data and/or historical operation data of the elevator and identifies according to the analysis result. Specifically, the operation data is analyzed by at least one of statistical analysis, machine learning, data mining and predictive analysis.

The operation data includes at least one of weighing data of the elevator, elevator taking request registration data from a landing or passenger mobile terminal, destination layer registration data in the car, video identification result data in the landing or the car, elevator door data (e.g. elevator door driving control data (such as reverse door opening, door opening duration), door system detection data (such as light curtain, safety touch panel detection result data, door opening and closing in-place signal) … …), and detection data of the elevator user entering and exiting the car.

And the signal conversion unit determines the direction information of the elevator taking trip according to the floor where the information of the elevator taking destination floor is registered and the destination floor. And the signal switching unit is used for switching the floor information of the elevator taking destination received by the receiving unit only when the judging unit judges that the currently executed algorithm of the elevator needs to be switched from the first allocation algorithm to the second allocation algorithm or the currently executed algorithm is the second allocation algorithm.

The judgment unit judges that the current execution algorithm of the elevator needs to be switched when any one of the following conditions is satisfied:

the method comprises the following steps that 1, the changed passenger flow mode is a distributed passenger flow mode, the current execution algorithm is a second distribution algorithm, the judging unit judges that the current execution algorithm of the elevator needs to be switched, and the switching unit switches the current execution algorithm from the second distribution algorithm (based on elevator taking travel direction information) to the first distribution algorithm (based on elevator taking destination floor information);

and 2, the changed passenger flow mode is a convergent passenger flow mode, the current execution algorithm is a first distribution algorithm, the judging unit judges that the current execution algorithm of the elevator needs to be switched, and the switching unit switches the current execution algorithm from the first distribution algorithm (based on elevator taking destination floor information) to a second distribution algorithm (based on elevator taking travel direction information).

Further, when the condition 2 is satisfied and the elevator user enters the car, a destination floor registration interface provided by a destination floor registration device in the car only displays the destination floor in the elevator taking destination floor information received by the receiving unit.

In this embodiment, the elevator destination floor allocation system identifies and analyzes the passenger flow of each landing of the elevator, and timely selects a proper elevator allocation algorithm according to the change of the passenger flow mode, and switches the execution algorithm based on the elevator destination floor to the execution algorithm based on the uplink and downlink direction in time when obvious convergent passenger flow occurs, and switches the execution algorithm to the elevator destination floor when dispersive passenger flow occurs, so that the elevator can be allocated by the destination floor allocation system based on the respective advantages of the destination floor and the distribution based on the uplink and downlink direction, and the elevator operation efficiency can be improved to the maximum extent. Meanwhile, the system is suitable for a destination floor registration device arranged at a landing and a personal mobile terminal of a passenger, can timely and conveniently inform an elevator user of the change of an elevator allocation mode, and has stronger operability.

Example two

On the basis of the first embodiment, the present embodiment further describes a specific handover procedure of the handover unit.

When the condition 2 is satisfied, the step of switching the currently executed algorithm by the switching unit is as shown in fig. 2, and specifically as follows:

step A1, judging whether there is still unresponsive elevator taking request, if yes, entering step A2, otherwise entering step A3;

step A2, generating and outputting notification information, wherein the notification information comprises a prompt for an elevator user to judge the taking and going direction of the elevator user by himself and select to take the elevator according to the taking and going direction;

step A3, selecting the second distribution algorithm as a new execution algorithm;

and step A4, ending.

EXAMPLE III

On the basis of the first embodiment, the present embodiment further describes a specific handover procedure of the handover unit.

When the condition 2 is satisfied, the step of switching the currently executed algorithm by the switching unit is as shown in fig. 3, and specifically as follows:

step A1, judging whether there is still unresponsive elevator taking request, if yes, entering step A2, otherwise entering step A4;

step A2, reserving the allocation result of the elevator taking request which is not responded;

step A3, generating and outputting notification information, wherein the notification information comprises a prompt for an elevator user of a subsequent newly-added elevator taking request to judge the elevator taking direction of the elevator user by himself or herself and select to take the elevator according to the elevator taking direction;

step A4, selecting a second allocation algorithm as a new execution algorithm for the subsequent newly increased elevator taking request;

and step A5, ending.

Example four

On the basis of the first embodiment, the present embodiment further describes a specific handover procedure of the handover unit.

When the condition 2 is satisfied, the step of switching the currently executed algorithm by the switching unit is as shown in fig. 4, and specifically as follows:

step S1, selecting one elevator from all elevators as a transition elevator;

step S2, allocating the newly-increased elevator taking request to other elevators except the transition elevator;

step S3, judging whether the transition elevator still has an unfinished elevator taking request, if yes, returning to step S2, otherwise, entering step S4;

step S4, taking the transition elevator as the executing elevator of the second allocation algorithm;

step S5, informing the subsequent elevator users that the elevator allocation mode is converted into the information based on the passenger traveling direction;

step S6, allocating the newly added elevator taking request to the elevator executing the second allocation algorithm;

step S7, judging whether an elevator with the current execution algorithm as the first allocation algorithm still exists, if so, selecting one elevator from the remaining elevators with the current execution algorithm as the first allocation algorithm as a transition elevator and entering step S8, otherwise, entering step S10;

step S8, judging whether the transition elevator still has an unfinished elevator taking request, if yes, entering step S9, otherwise entering step S4;

step S9, assigning the newly increased elevator taking request to the elevator to be executed by the second assignment algorithm, and returning to step S8;

step S10 ends.

EXAMPLE five

On the basis of the first embodiment, the present embodiment further describes a specific handover procedure of the handover unit.

Specifically, when the condition 1 is satisfied, the switching unit retains the assignment result obtained based on the second assignment algorithm for the boarding request before the switching of the currently executed algorithm, and for the subsequent newly-added boarding request, the switching unit performs the assignment using the first assignment algorithm and notifies the elevator user of the assignment result after the registration of the elevator user is completed.

The present invention has been described in detail with reference to the specific embodiments, which are merely preferred embodiments of the present invention, and the present invention is not limited to the above embodiments. Equivalent alterations and modifications made by those skilled in the art without departing from the principle of the invention should be considered to be within the technical scope of the invention.

Claims (12)

1. An elevator destination floor allocation system, comprising:

a receiving unit for receiving the landing destination floor information from the destination floor registration device;

the elevator passenger flow mode identification unit is used for identifying and outputting a passenger flow mode of an elevator, wherein the passenger flow mode comprises a distributed passenger flow mode, a convergent passenger flow mode and a common passenger flow mode which does not belong to the convergent passenger flow mode and the distributed passenger flow mode;

the signal conversion unit is used for converting the information of the elevator taking destination layer received by the receiving unit and outputting information of the elevator taking and going directions;

a storage unit, configured to store an execution algorithm, where the execution algorithm includes a first allocation algorithm based on the elevator-taking destination floor information and a second allocation algorithm based on the elevator-taking travel direction information;

the judging unit is used for judging whether the current execution algorithm of the elevator needs to be switched or not;

the switching unit is used for switching the current execution algorithm when the judgment result of the judging unit is that the current execution algorithm needs to be switched;

and an allocation unit for allocating the elevator by using the switched execution algorithm to respond to the elevator taking request of the elevator user.

2. The elevator destination floor allocation system according to claim 1, characterized in that the identification unit analyzes the current and/or historical operating data of the elevator and identifies it on the basis of the analysis result.

3. The elevator destination floor allocation system according to claim 2, wherein the operation data includes at least one of weighing data of an elevator, elevator boarding request registration data from a landing or a passenger mobile terminal, destination floor registration data in a car, video recognition result data in a landing or a car, elevator door data, and detection data of an elevator user getting in and out of a car.

4. The elevator destination allocation system of claim 2, wherein the identification unit analyzes the operational data using at least one of statistical analysis, machine learning, data mining, predictive analysis.

5. The elevator destination floor allocation system according to claim 1, wherein the signal conversion unit determines the boarding travel direction information from the floor where the boarding destination floor information is registered and the destination floor.

6. The elevator destination floor allocation system according to claim 1, wherein the judgment unit judges that the currently executed algorithm of the elevator needs to be switched when any one of the following conditions is satisfied:

the method comprises the following steps that 1, a changed passenger flow mode is a distributed passenger flow mode, a current execution algorithm is a second distribution algorithm, a judging unit judges that the current execution algorithm of the elevator needs to be switched, and a switching unit switches the current execution algorithm from the second distribution algorithm to the first distribution algorithm;

and 2, the changed passenger flow mode is a convergent passenger flow mode, the current execution algorithm is a first distribution algorithm, the judging unit judges that the current execution algorithm of the elevator needs to be switched, and the switching unit switches the current execution algorithm from the first distribution algorithm to a second distribution algorithm.

7. The elevator destination floor allocation system according to claim 1, wherein the signal conversion unit converts the elevator-taking destination floor information received by the reception unit only when the judgment unit judges that the currently-executed algorithm of the elevator needs to be switched from the first allocation algorithm to the second allocation algorithm or the currently-executed algorithm is the second allocation algorithm.

8. The elevator destination floor allocation system according to claim 6, wherein when the condition 2 is satisfied and an elevator user enters the car, the destination floor registration interface provided by the destination floor registration device in the car displays only the destination floor in the elevator destination floor information received by the receiving unit.

9. The elevator destination floor allocation system according to claim 6, wherein when condition 2 is established, the switching unit switches the currently executed algorithm as follows:

step A1, judging whether there is still unresponsive elevator taking request, if yes, entering step A2, otherwise entering step A3;

step A2, generating and outputting notification information, wherein the notification information comprises a prompt for an elevator user to judge the taking and going direction of the elevator user by himself and select to take the elevator according to the taking and going direction;

step A3, selecting the second distribution algorithm as a new execution algorithm;

and step A4, ending.

10. The elevator destination floor allocation system according to claim 6, wherein when condition 2 is satisfied, the step of switching the currently executed algorithm by the switching unit is as follows:

step A1, judging whether there is still unresponsive elevator taking request, if yes, entering step A2, otherwise entering step A4;

step A2, reserving the allocation result of the elevator taking request which is not responded;

step A3, generating and outputting notification information, wherein the notification information comprises a prompt for an elevator user of a subsequent newly-added elevator taking request to judge the elevator taking direction of the elevator user by himself or herself and select to take the elevator according to the elevator taking direction;

step A4, selecting a second allocation algorithm as a new execution algorithm for the subsequent newly increased elevator taking request;

and step A5, ending.

11. The elevator destination floor allocation system according to claim 6, wherein when condition 2 is satisfied, the step of switching the currently executed algorithm by the switching unit is as follows:

step S1, selecting one elevator from all elevators as a transition elevator;

step S2, allocating the newly-increased elevator taking request to other elevators except the transition elevator;

step S3, judging whether the transition elevator still has an unfinished elevator taking request, if yes, returning to step S2, otherwise, entering step S4;

step S4, taking the transition elevator as the executing elevator of the second allocation algorithm;

step S5, informing the subsequent elevator users that the elevator allocation mode is converted into the information based on the passenger traveling direction;

step S6, allocating the newly added elevator taking request to the elevator executing the second allocation algorithm;

step S7, judging whether an elevator with the current execution algorithm as the first allocation algorithm still exists, if so, selecting one elevator from the remaining elevators with the current execution algorithm as the first allocation algorithm as a transition elevator and entering step S8, otherwise, entering step S10;

step S8, judging whether the transition elevator still has an unfinished elevator taking request, if yes, entering step S9, otherwise entering step S4;

step S9, assigning the newly increased elevator taking request to the elevator to be executed by the second assignment algorithm, and returning to step S8;

step S10 ends.

12. The elevator destination floor allocation system of claim 6 wherein, when condition 1 is true,

for the elevator taking request before the switching of the current execution algorithm, the switching unit reserves the distribution result obtained based on the second distribution algorithm;

and for the subsequent newly-added elevator taking request, the switching unit adopts a first allocation algorithm to allocate, and informs the elevator user of the allocation result after the elevator user finishes registration.

Images