JP2013220900A - Elevator control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an elevator control system which can perform operation restriction on which a use state of an elevator and a request at a customer side are reflected and which has no possibility of increasing cost, when reducing a power consumption amount of the elevator.SOLUTION: A monitor center 6 can provide data of a rate of utilization of each floor of an elevator to a customer side through a non-stop floor selecting means 81, and when the customer side selects a non-stop floor to reduce a number of times of starting the elevator, a command according to the selection result is transmitted from the monitor center 6 to an elevator control device 1. Further, the monitor center 6 extracts a service floor which has a relatively low rate of utilization of the elevator as a non-stop floor, and increases or decreases a number of non-stop floors according to a degree of reduction in a power consumption amount, thereby creating a plurality of selection model patterns, so that these selection model patterns can be provided to the customer side through the non-stop floor selecting means 81.

Description

  The present invention relates to an elevator control system suitable for restricting operation for reducing power consumption of an elevator.

  As a prior art of this type of elevator control system, as shown in Patent Document 1, an electric energy calculation unit that calculates electric energy used in an elevator control device based on a current value measured by a current measurement unit. And a configuration is proposed in which either the rated speed or the acceleration / deceleration of the car can be changed when a preset amount of power is exceeded. That is, in this prior art, the electric power consumption of an elevator can be reduced by restricting the operation of changing the rated speed or acceleration / deceleration of the car. Moreover, in this prior art, the frequency | count of a driving | operation per month can be restrict | limited according to the electric energy set beforehand.

JP 2007-55700 A

  However, in the above-described prior art, a current measuring device must be added to the elevator control device in order to calculate the amount of electric power used by the elevator, and complicated calculation and control such as calculation of the power factor in the inverter elevator are also required. For this reason, there is a problem that it cannot be applied to existing elevators at low cost. In addition, as described above, if it is attempted to reduce the power consumption of the elevator by limiting the number of operations per month, it will inconvenience the increase in waiting time for all the users of the elevator. There was also a problem that customer dissatisfaction was likely to increase.

  The present invention has been made in view of the actual situation of such a conventional technique, and the purpose thereof is to reduce the power consumption of the elevator, and it is possible to perform an operation restriction reflecting the use situation of the elevator and the customer's request, An object of the present invention is to provide an elevator control system that is free from high costs.

  In order to achieve the above object, in the elevator control system of the present invention, the elevator control device that controls the operation of the elevator measures the usage rate of each floor by calculating the number of times the elevator is activated on each service floor and calculating the usage rate of each floor. And the service floor separation part that sets a part of the service floor as a non-stop floor (service separation floor) based on the customer's request, and the destination in the car corresponding to the non-stop floor set by this service floor separation section And a registration button control unit that disables the floor registration button and the hall call registration button, and a monitoring center that transmits and receives signals to and from the elevator control device via a communication line is transmitted from the elevator control device. Non-stop floor selection that stores the calculation result of the usage rate of each floor and allows the customer to communicate with the monitoring center in the information terminal A non-stop selected by the customer when the power consumption of the elevator is reduced and the calculation result of each floor utilization rate can be transmitted from the monitoring center to the non-stop floor selection means The floor selection result is transmitted from the non-stop floor selection means to the monitoring center.

  Thus, if the data on the usage rate of each floor of the elevator can be provided to the customer side, when the customer side selects a non-stop floor to reduce the number of elevator starts, the selection based on the usage status of the elevator can be performed. It will be. In addition, since the selection result of the non-stop floor selected by the customer side is transmitted to the monitoring center, the monitoring center instructs the elevator control device to operate according to the selection result, and the usage status of the elevator and the customer side It is possible to implement operational restrictions that reflect requests. In addition, when applying this control system to an existing elevator, it is not necessary to add special instruments, and it is not necessary to add a complicated calculation process or a complicated control program.

  In such an elevator control system, the monitoring center extracts a service floor having a relatively low elevator utilization rate as a non-stop floor, and then increases or decreases the number of non-stop floors according to the degree of reduction in power consumption. By creating a plurality of selection model patterns and providing these selection model patterns to the customer side via the non-stop floor selection means, the customer side can refer to the selection model pattern and This is preferable because the selection operation can be easily and accurately performed. However, since the customer may request that the non-stop floor be selected based on a different standard from the usage rate of each floor, it is preferable that the non-stop floor can be selected even in a pattern different from the selected model pattern.

  In the elevator control system, the non-stop floor selection means can transmit a non-stop floor setting signal and a non-stop floor setting release signal to the monitoring center, and the monitoring based on the non-stop floor setting signal. In response to a command from the center, the elevator control device starts processing for setting a part of the service floor as a non-stop floor, and the elevator control device according to a command from the monitoring center based on the non-stop floor setting release signal However, it is preferable that the process for canceling the setting of the non-stop floor is started because the non-stop floor setting, setting cancellation, resetting, etc. reflecting the request of the customer can be performed quickly.

  In the elevator control system of the present invention, since the data on the usage rate of each floor of the elevator can be provided to the customer side, when the customer side selects a non-stop floor for reducing the number of elevator starts, the selection based on the usage status of the elevator is performed. Yes. Moreover, since the selection result of the non-stop floor selected on the customer side is transmitted to the monitoring center, the monitoring center can instruct the elevator control device to perform the operation restriction according to the selection result. Therefore, according to this control system, it is possible to perform an operation restriction reflecting the use status of the elevator and the customer's request, and the customer's dissatisfaction associated with the reduction in the power consumption of the elevator can be greatly reduced. In addition, when applying this control system to an existing elevator, there is no need to add special instruments, and it is not necessary to add a complicated calculation process or a complicated control program, which is advantageous in terms of cost.

It is a block diagram which shows the structure of the elevator control system which concerns on the example of embodiment of this invention. It is explanatory drawing which shows the example of a screen display at the time of selecting a non-stop floor using the non-stop floor selection means in FIG. It is explanatory drawing which shows the hall call registration button etc. with which the hall call registration apparatus in FIG. 1 is equipped. It is a flowchart which shows the process sequence in this elevator control system.

  Embodiments of the present invention will be described below with reference to the drawings. As shown in FIG. 1, in the elevator control system according to the embodiment of the present invention, the elevator control device 1 that controls the operation of the elevator measures the number of times the elevator is activated at each service floor and calculates the usage rate of each floor. Each floor usage rate calculation unit 11, a service floor separation unit 12 that sets a part of the service floor as a non-stop floor (service separation floor) based on a customer's request, and a non-stop floor set by the service floor separation unit 12 And a registration button control unit 13 for invalidating the car destination floor registration button 22 and the hall call registration button 32 (see FIG. 3).

  In the car 2 that moves up and down in a hoistway (not shown) by the operation control of the elevator control device 1, an in-car display 21 that displays elevator position information and the destination floor registration button 22 in the car are arranged. Has been. As shown in FIG. 3, the hall call registration device 3 on each floor is provided with a hall indicator 31 and the hall call registration button 32.

  The elevator control device 1 is monitored remotely by a remote monitoring device 4. The remote monitoring device 4 collects elevator operation information and can command the elevator control device 1 to change the setting of elevator operation conditions. Further, elevator operation information data collected by the remote monitoring device 4 is automatically transmitted to the monitoring center 6 via the public line (communication line) 5, and commands for the elevator control device 1 are also sent from the monitoring center 6 via the public line 5. It is transmitted to the remote monitoring device 4. That is, signals are transmitted and received between the elevator control device 1 and the monitoring center 6 via the remote monitoring device 4 and the public line 5.

  In the elevator control system according to the present embodiment, the calculation result of each floor usage rate performed by each floor usage rate calculation unit 11 of the elevator control device 1 is stored in each floor usage rate accumulation unit 61 in the monitoring center 6. is there. The monitoring center 6 can communicate with an information terminal 8 on the customer side via the Internet network 7, and non-stop floor selection means 81 is provided in the information terminal 8. Each floor usage rate accumulating unit 61 in the monitoring center 6 can transmit the calculation result of each floor usage rate to the non-stop floor selection means 81, and when the customer reduces the power consumption of the elevator, the calculation result The non-stop floor can be selected with reference to. Further, the selection result of the non-stop floor selected by the customer is transmitted from the non-stop floor selection means 81 to the monitoring center 6, and the monitoring center 6 sends an instruction according to the selection result via the remote monitoring device 4 to the elevator control device. 1 is transmitted.

  As shown in FIG. 2, the calculation result of each floor usage rate transmitted from the monitoring center 6 to the non-stop floor selection means 81 is displayed on the display unit 82 of the information terminal 8. The display unit 82 also displays on the screen a selection model pattern created by the monitoring center 6 based on the calculation result of each floor usage rate and the degree of reduction in power consumption. That is, the monitoring center 6 extracts a service floor having a relatively low elevator usage rate as a non-stop floor, and then stops the non-stop depending on whether the power consumption reduction degree is large, medium, or small. A plurality of selection model patterns can be created by increasing or decreasing the number of floors, and these selection model patterns are transmitted from the monitoring center 6 to the non-stop floor selection means 81 and can be provided to the customer side. . However, these selection model patterns are provided as judgment materials when selecting the non-stop floor on the customer side, and the customer side may arbitrarily select the non-stop floor on a basis different from the usage rate of each floor. Is possible.

  The non-stop floor selection means 81 can transmit a non-stop floor setting signal Sig1 and a non-stop floor setting release signal Sig2 to the monitoring center 6. When the monitoring center 6 receives the non-stop floor setting signal Sig1, a service disconnection command based on the signal Sig1 is transmitted from the monitoring center 6 to the elevator control device 1 via the remote monitoring device 4, whereby the elevator control device 1 performs service. The process for setting a part of the floor as a non-stop floor is started. When the monitoring center 6 receives the non-stop floor setting cancellation signal Sig2, a service disconnection cancellation command based on the cancellation signal Sig2 is transmitted from the monitoring center 6 to the elevator control device 1 via the remote monitoring device 4, thereby the elevator. The control device 1 starts processing for canceling the setting of the non-stop floor.

  Next, a processing procedure in the elevator control system according to the present embodiment will be described with reference to the flowchart of FIG.

  First, in step S1, each floor usage rate calculation unit 11 of the elevator control device 1 calculates the elevator usage rate (each floor usage rate) for each floor by measuring the number of times the elevator is activated on each service floor. Then, in the next step S <b> 2, each floor usage rate for one month is calculated, and the calculation result is transmitted to the monitoring center 6 through the remote monitoring device 4 and the public line 5. In the monitoring center 6, the received data (calculation result of each floor usage rate) is stored in each floor usage rate storage unit 61.

  In the next step S3, it is determined whether or not the monitoring center 6 has received the non-stop floor setting signal Sig1 from the non-stop floor selection means 81. If the determination result is “Yes”, that is, the elevator control from the monitoring center 6 is performed. If the service disconnection command is transmitted to the device 1, the process proceeds to step S4. In this step S4, based on the information on which of “Pattern 1” and “Pattern 2” shown in the upper part of FIG. 2 is selected, the customer side refers to the usage rate of each floor and sets the non-stop floor (service separation floor). It is determined whether it has been selected.

  When the determination result of step S4 is “Yes”, that is, when the customer side selects “pattern 1”, the process proceeds to step S5. In this step S5, the monitoring center 6 transmits to the non-stop floor selection means 81 the calculation result of each floor usage rate and the selection model pattern created by extracting the non-stop floor based on the calculation result. At that time, when the power consumption reduction degree is “small”, the monitoring center 6 creates a selection model pattern in which the total usage rate of the non-stop floor is 10 to 20%, and the reduction degree is “ In the case of “medium”, a selection model pattern (see FIG. 2) is created so that the total usage rate of the non-stop floor is 20 to 30%. When the reduction degree is “large”, use of the non-stop floor is used. A selection model pattern is created so that the total of the rates is 30 to 40%. In addition, based on the calculation result of each floor usage rate stored in each floor usage rate storage unit 61, in principle, non-stop floors are extracted in order of increasing elevator usage rate. However, considering convenience and unfairness, The floor extracted at the time of operation restriction is excluded so as not to become a non-stop floor again. On the customer side, after selecting the calculation result of each floor usage rate and the selected model pattern provided from the monitoring center 6 and displayed on the display unit 82, the customer selects the model according to the selected model pattern recommended by the monitoring center 6. The selection result of the non-stop floor or the non-stop floor selected by changing a part thereof is transmitted to the monitoring center 6 via the non-stop floor selection means 81. The monitoring center 6 confirms with the customer whether or not the process of separating the non-stop floor selected in this way from the service floor can be executed, and in the next step S7, the non-stop floor selected by the customer is determined as the service floor. Decide to disconnect from.

  On the other hand, if the determination result in step S4 is “No”, that is, if the customer selects “pattern 2”, the process proceeds to step S6. In this step S 6, the selection result of the non-stop floor that is independently selected by the customer on the basis of a different standard from each floor utilization rate is transmitted to the monitoring center 6 via the non-stop floor selection means 81. The monitoring center 6 confirms with the customer whether or not the process of separating the non-stop floor selected in this way from the service floor can be executed, and in the next step S7, the non-stop floor selected by the customer is determined as the service floor. Decide to disconnect from.

  When the process proceeds from step S5 or step S6 to step S7, in the next step S8, the monitoring center 6 issues a non-stop floor setting command for instructing to disconnect the non-stop floor selected by the customer from the service floor. Is transmitted to the elevator control device 1 via When the elevator control device 1 receives this non-stop floor setting command, first, the service floor disconnecting unit 12 performs setting for disconnecting the designated non-stop floor from the service floor in step S9. Next, the registration button control unit 13 performs setting to invalidate the button on the designated floor corresponding to the non-stop floor set by the service floor separation unit 12 among the car destination floor registration buttons 22 (step S10). The non-stop floor is displayed on the inner display 21 (step S11). Further, the registration button control unit 13 performs setting to invalidate the hall call registration button 32 on the designated floor corresponding to the non-stop floor set by the service floor separation unit 12 (step S12), and the hall display on the designated floor The non-stop floor is displayed on the container 31 (step S13).

  In the next step S14, it is determined whether or not a non-stop floor setting release signal Sig2 is transmitted from the non-stop floor selection means 81 on the customer side to the monitoring center 6. If the determination result of step S14 is “No”, that is, if the monitoring center 6 has not received the non-stop floor setting release signal Sig2, a part of the service floor is designated as the non-stop floor and the designated floor The above setting in which the registration buttons 22 and 32 corresponding to are invalidated is continued. However, if the determination result in step S14 is “Yes”, the process proceeds to step S15 to start processing for canceling the above setting.

  That is, when the monitoring center 6 receives the non-stop floor setting release signal Sig2 from the non-stop floor selection means 81, the monitoring center 6 transmits a service disconnection release command based on the release signal Sig2 to the elevator control device 1 via the remote monitoring device 4. . When the elevator control device 1 receives this service disconnection release command, first, in step S15, the service floor disconnecting unit 12 performs setting for returning the designated floor set as the non-stop floor to the service floor. Next, the registration button control unit 13 performs a setting for returning the in-car destination floor registration button 22 that has been invalidated (step S <b> 16), and also displays the non-stop floor displayed on the in-car display 21. The guidance is turned off (step S17). Further, the registration button control unit 13 performs setting for returning the invalidated hall call registration button 32 (step S18) and erases the display guidance of the non-stop floor displayed on the hall display 31. (Step S19). Therefore, when it is no longer necessary to reduce the power consumption of the elevator, the customer side transmits the non-stop floor setting release signal Sig2 to the monitoring center 6 via the non-stop floor selection means 81, so that the non-stop floor is set. All designated floors that have been set can be returned to the service floor.

  As described above, in the elevator control system according to the present embodiment, since the data on the usage rate of each floor of the elevator can be provided to the customer side, when the customer side selects a non-stop floor for reducing the number of elevator activations, You can make selections based on elevator usage. Moreover, since the selection result of the non-stop floor selected on the customer side is transmitted to the monitoring center 6, the monitoring center 6 can instruct the elevator control device 1 to restrict the operation according to the selection result. Thereby, since the operation restriction reflecting the use situation of the elevator and the customer's request can be performed, the customer's dissatisfaction associated with the reduction of the power consumption of the elevator can be greatly reduced. In addition, when applying this control system to an existing elevator, there is no need to add special instruments, and it is not necessary to add a complicated calculation process or a complicated control program, which is advantageous in terms of cost.

  In the present embodiment, the monitoring center 6 extracts service floors having a relatively low elevator usage rate as non-stop floors, and then sets the number of non-stop floors according to the degree of power consumption reduction. A plurality of selection model patterns are created by increasing / decreasing them, and these selection model patterns can be provided to the customer side via the non-stop floor selection means 81. Therefore, referring to the selection model pattern provided by the monitoring center 6, the customer can easily and accurately select the non-stop floor. Further, as described above, it is possible for the customer side to select a non-stop floor on a basis different from the usage rate of each floor.

  In the present embodiment, the non-stop floor selection means 81 on the customer side can transmit the non-stop floor setting signal Sig1 and the non-stop floor setting release signal Sig2 to the monitoring center 6. Then, in response to a service disconnection command from the monitoring center 6 based on the non-stop floor setting signal Sig1, the elevator control device 1 starts processing for setting a part of the service floor as a non-stop floor and cancels the non-stop floor setting. In response to a service disconnection release command from the monitoring center 6 based on the signal Sig2, the elevator control device 1 starts processing for releasing the setting of the non-stop floor. Therefore, the elevator control system according to the present embodiment can quickly set, stop, and reset the non-stop floor reflecting the customer's request.

  In the above embodiment example, the power consumption reduction degree is classified into three types of large, medium, and small. However, the power consumption reduction degree is further classified into finer or coarser, and each reduction degree is classified. The monitoring pattern 6 may create a selection model pattern corresponding to the above. In addition, when a special floor that is not set as a non-stop floor regardless of the elevator usage rate is specified as a precondition by the customer in advance, the monitoring pattern 6 may create a selection model pattern based on the precondition. good.

DESCRIPTION OF SYMBOLS 1 Elevator control device 2 Passenger car 3 Landing call registration device 4 Remote monitoring device 5 Public line (communication line)
6 Monitoring Center 7 Internet Network 8 Information Terminal 11 Each Floor Utilization Rate Calculation Unit 12 Service Floor Detachment Unit 13 Registration Button Control Unit 21 In-Car Display 22 Car In-destination Destination Floor Registration Button 31 Platform Indication Display 32 Platform Call Registration Button 61 Each Floor Usage Rate Accumulation unit 81 Non-stop floor selection means 82 Display unit

Claims (3)

The elevator control device that controls the operation of the elevator measures each floor usage rate by calculating the number of times the elevator is activated on each service floor, and part of the service floor based on the customer's request. A service floor separation unit to be set as a stop floor and a registration button control unit for invalidating the car destination floor registration button and the hall call registration button corresponding to the non-stop floor set by the service floor separation unit are provided. The monitoring center that is transmitting and receiving signals to and from the elevator control device via a communication line stores the calculation result of the usage rate of each floor transmitted from the elevator control device, and the customer side stores the calculation result in the information terminal. It has non-stop floor selection means that can communicate with the monitoring center,
The calculation result of each floor utilization rate can be transmitted from the monitoring center to the non-stop floor selection means, and the non-stop floor selection result selected by the customer when reducing the power consumption of the elevator is An elevator control system characterized by being transmitted from the non-stop floor selection means to the monitoring center.   2. The monitoring center according to claim 1, wherein the monitoring center extracts a service floor having a relatively low elevator usage rate as a non-stop floor, and then increases or decreases the number of non-stop floors according to the degree of reduction in power consumption. The elevator control system is characterized in that a plurality of selected model patterns can be created by providing the selected model patterns to the customer side via the non-stop floor selection means.   The non-stop floor selection means can transmit a non-stop floor setting signal and a non-stop floor setting release signal to the monitoring center according to claim 1 or 2, and based on the non-stop floor setting signal The elevator control device starts processing for setting a part of the service floor as a non-stop floor in response to a command from the monitoring center, and the elevator control according to a command from the monitoring center based on the non-stop floor setting release signal An elevator control system characterized in that the apparatus starts processing for canceling the setting of the non-stop floor.