JP5829185B2 - elevator - Google Patents

Description

  The present invention relates to an elevator equipped with an ion generator.

  Elevators that are equipped with ion generators in elevator cars and perform sterilization and deodorization in the cars are increasing. And as background art which controls such an ion generator, there is JP, 2005-89171, A (patent documents 1). In this publication, in an elevator provided with a ventilation device for ventilating an elevator car, the elevator car is provided with an ion generator, and the ventilation device and the ion generator are interlocked. As for the driving method, it is provided with a plurality of driving modes, the presence or absence of passengers in the car is determined by the passenger detection device, and if there are passengers, an appropriate driving mode is selected according to the temperature detected by the temperature detecting device in the car, It is described that when there is no passenger, the operation mode is appropriately switched every elapse of a predetermined time or the operation mode is switched by the ion concentration in the car detected by the car ion detector.

  Japanese Patent Application Laid-Open No. 2003-321175 (Patent Document 2) discloses a control means for controlling the operation of an elevator as well as a negative ion generation means installed with negative ion generation means for releasing negative ions in an elevator car. And the control means includes in-cage negative ion generation time control means for operating negative ion release at a predetermined time. For example, the in-cage negative ion generation time control means has negative ion generation based on the car call. The control means is registered in the call registration means, the call registration means for registering the car call and the hall call, and the control means is registered in the call registration means. All service completion judging means for judging that the service of the car to all the floors is completed. , The predetermined time, the or terminated by all services completion determination is described as.

JP 2005-89171 A JP 2003-321175 A

  By the way, in recent years, air purifiers equipped with ion generators have been developed, and elevators that carry such air purifiers in cars and perform sterilization and deodorization in the cars are increasing. And it is calculated | required to aim at reduction of the power consumption in such an elevator, and prolonging a performance life. However, the device described in Patent Document 1 described above has a structure that focuses on the interlock control method of the ventilation device and the ion generator, and that the ion generator is always operated. Moreover, the thing of the patent document 2 mentioned above was the thing which performs ON / OFF control of an ion generator fundamentally based on the presence or absence of a passenger. Therefore, there is room for improvement in terms of reducing power consumption and extending the performance life of the air cleaner equipped with the ion generator.

  In addition, the ions generated by the ion generator are colorless and odorless, and it is difficult for the customers in the car to perceive them, and there is a problem in terms of appealing to the customers.

  Furthermore, during maintenance, it is difficult to easily determine the secular change of the ion generator, and it is difficult to appropriately determine the time for replacing the device.

  The present invention has been made from the state of the prior art described above, and its purpose is to reduce the power consumption and extend the performance life while generating the ions required according to the operating conditions. It is to provide an elevator that can.

To achieve the above object, the present invention is mounted on the car, the air purifier provided with the ion generating device, in an elevator provided with a control device for controlling the operation of the air purifier and an elevator, said control The device determines in this order whether it is in automatic operation mode, construction period, or maintenance operation, and is in the automatic operation mode, and when it is not in the construction period or maintenance operation, the preset operation for the air cleaner is performed. In the preset operation control, a plurality of operation / stop patterns including an operation period and a stop period provided after the operation period can be set during the operation of the air cleaner. selects a predetermined said UpDown pattern based on the determined is the threshold, if the non-automatic operation mode, when in the construction period, the forced driving a said maintenance operation If the setting is not, the pauses of the air purifier, wherein when the maintenance was operated forced operation setting is is characterized in that the force driving the air purifier.

In the present invention configured as described above, in an elevator provided with an air cleaner equipped with an ion generator and a control device for controlling the operation of the air cleaner and the elevator, in an automatic operation mode, during construction, It is determined in this order whether the maintenance operation is in progress, and is in the automatic operation mode, and when the operation period is not under construction or maintenance operation, the operation control preset for the air purifier is executed. In the operation of the air cleaner, it is possible to set a plurality of operation / stop patterns including an operation period and a stop period provided after the operation period, and the predetermined operation / stop pattern is set based on a predetermined threshold. If the automatic operation mode is not selected, the construction operation period, the maintenance operation and the forced operation is not set, the air Suspended the purification apparatus, wherein if the maintenance was operated forced operation setting is made, since the force driving the air cleaner, disinfectant in the car Ya by the air purifier provided with the ion generating device In an elevator that performs deodorization, it is possible to reduce the power consumption and extend the performance life while generating ions required according to the operating conditions.

  According to the present invention, in an elevator that performs sterilization and deodorization in a car by an air cleaner equipped with an ion generator, power consumption is reduced while generating ions necessary according to the operating conditions. In addition, it is possible to realize an elevator with an extended performance life and thereby reduced running costs.

1 is an overall schematic diagram showing an embodiment of an elevator according to the present invention. It is a block diagram which shows the control apparatus and other apparatus in a present Example. It is explanatory drawing which shows the example of a display of the indicator in a present Example. It is explanatory drawing which shows the other example of a display of the display in a present Example. It is a flowchart which shows the process sequence of the control part in a present Example. It is a flowchart which shows the control procedure of the air cleaner in a present Example. It is a flowchart which shows the control procedure of the air cleaner containing the threshold value determination in a present Example.

  Hereinafter, an embodiment of an elevator according to the present invention will be described with reference to the drawings.

  As shown in FIG. 1, the elevator according to the present embodiment is provided in the hall, including a car 1 that moves up and down in the hoistway, a control device 2 that performs overall control of the elevator including the raising and lowering control of the car 1, and calls the hall. A hall call button 3 to be registered, an in-car operation panel 6 disposed in the car 1 and equipped with a display 4 and a destination floor button 5, and an air cleaner 7 mounted on the car 1 and equipped with an ion generator. A fan 8 mounted on the car 1, maintenance switches 9a, 9b, 9c operated by maintenance personnel during maintenance inspection, external input devices 10a, 10b, 10c capable of inputting information from the outside, The car 1 and a signal line 11 for communicating signals from the hall are configured.

  As shown in FIGS. 1 and 2, the control device 2 includes a control unit 2a. The control unit 2a includes a use frequency determination unit 2a1 that counts the number of registered hall calls and car calls. , An operation control unit 2a2 that controls the air cleaner 7, the display 4, and the like, and a data storage unit 2a3 that stores data input from the external input devices 10a to 10c.

  As shown in FIG. 3, the display 4 displays the operating state of the air purifier 7 when the air purifier 7 having the ion generator is in operation. In this embodiment, as will be described later, since the air purifier 7 has a “strong” operation mode, a “weak” operation mode, and an “equal” operation mode, these operation modes are notified. In the drawing, the display in the “strong” operation mode is shown. In addition, as shown in FIG. 4, the display 4 displays, for example, the number of operations and the operation time of the air cleaner 7 during maintenance inspection. The maintenance staff displays these pieces of information on the display unit 4 at the time of maintenance inspection, and grasps a guideline for the next replacement time. Note that the indicator 4 may be installed in a place where the user in the car 1 sees, for example, by displaying it in a frame at the top of the car entrance, and there is no need to limit the installation location. Further, although the operation mode is displayed in FIG. 3, the operation of the air cleaner 7 may be expressed by a difference in color, a change in shading, or the like. Further, the number of operations of the air purifier 7 per day may be displayed to notify the passenger. Furthermore, it is possible to prevent forgetting repair by displaying the failure information directly on the display 4 during maintenance. In addition, here, the display 4 installed in the car 1 is used to notify the user and display for maintenance, but the maintenance display is separately provided for the general user. It may be installed in a place that is not connected.

  The blower fan 8 operates during car operation, and in a state where a car door (not shown) is closed, air in the car 1 is convected to promote ion diffusion of the air cleaner 7. Further, a plate body capable of changing the air direction is attached to the blower fan 8 so that when the car door is closed, the air flows in the direction of ions circulating in the car 1, while when the car door is open, the car 1 is inside. Ions are efficiently circulated in the car 1 by controlling the air direction according to the open / closed state of the car door so that the air direction is suppressed to prevent the outflow of ions from the car. In addition, although the ventilation fan 8 shown in FIG. 1 is installed in the ceiling of the back side of the cage | basket | car 5, ie, the other side of a cage door, the ventilation fan 8 is provided in the vicinity of a cage door, and curtain-like air is sent out, You may use it for the purpose of suppressing ion outflow from the inside of the car 1 when the car door is open.

  When the number of people using the elevator is small, the number of molecules that cause bacteria and odors to be brought into the car 1 by passengers is small, so that the operation time of the air cleaner 7 can be shortened. On the other hand, when there are many people who use the elevator, since the number of bacteria or odor-causing molecules brought into the car 1 by passengers increases, more ions are supplied into the car 1 by the air cleaner 7. There is a need to. Therefore, the present invention controls the operation time of the air cleaner 7 according to the frequency of use of the elevator, and is provided after the operation period during the operation of the air cleaner 7 having the ion generator. It is possible to set a plurality of operation / stop patterns consisting of stop periods to be selected, and to select a predetermined operation / stop pattern based on a predetermined threshold in the variable operation time mode. Specifically, the use frequency determination unit 2a1 counts the number of registrations of hall calls and car calls. For example, if more than 15 registrations are registered per two hours, the “strong” operation mode, that is, the operation period of 20 minutes If it has been registered less than 15 per 2 hours, it will operate in the “weak” mode of operation, i.e. 10 minutes of operation and 20 minutes of rest. The air cleaner 7 can be set to an operation time variable mode and an operation time non-variable mode.

  Here, the operation | movement procedure of the elevator of a present Example is demonstrated based on FIGS.

  As shown in FIG. 5, the entire process of the control unit 2a is started at step E10 by turning on or restarting the power supply, and at step E20, the initial process is executed as the initial process of the control unit 2a. The Next, in step E30, the operation control input process is performed. Here, signals necessary for elevator operation control, such as car position, are input and output. As shown in steps E40 and E50, the car call and the landing call are input / output. In step E60, the operation mode of the elevator is selected. In step E70, the operation of the air cleaner 7 is controlled. In step E80, the elevator activation process is executed and the elevator operates. As described above, steps E30 to E80 are repeatedly executed at predetermined time intervals until the power is turned off or a program abnormality occurs.

  In the operation control of the air cleaner 7 in step E70 of FIG. 5, first, as shown in FIG. 6, the operation mode of the elevator is determined as step E70a. This operation mode is selected by the operation mode selection in step E60 of FIG. Here, if it is the control operation mode, the process proceeds to Step E70g, and if it is not the control operation mode, the process proceeds to Step E70b. In step E70b, it is determined whether or not it is during construction. This is determined by the data under construction in the data storage unit 2a3 shown in FIG. If under-construction data is input, the process proceeds to step E70g. Here, it is judged whether or not there is data during construction because it is not necessary to operate the air cleaner 7 during the construction period, and the air cleaner 7 removes dust when the elevator is used during the construction period. This is to prevent inhalation.

  If no construction data has been input, the process proceeds to step E70c, where it is determined whether the operation is a maintenance operation. That is, if any one of the maintenance switches 9a to 9c is turned on, the process proceeds to step E70e. If all the maintenance switches 9a to 9c are not turned on, the process proceeds to step E70d. In step E70d, further operation control of the air cleaner 7 is performed based on the flowchart of FIG.

  In step E70e, it is determined whether or not forced operation data is input to the data storage unit 2a3. If it is input, the process proceeds to step E70f. If not, the process proceeds to step E70g. The forced operation data referred to here is for forcibly operating the air cleaner 7 and for determining whether or not the air cleaner 7 is normal by maintenance personnel. In step E70f, the air cleaner 7 is forcibly operated. For example, the air cleaner 7 is intermittently operated with an operation period of 10 seconds and a rest period of 5 seconds, and the maintenance staff determines whether or not the air cleaner 7 is normal. Thereafter, when the maintenance switches 9a to 9c are released or the forced operation data is cleared, the operation of the air cleaner 7 is stopped.

  As shown in FIG. 7, in the operation control of the air cleaner 7 in step E70d in FIG. 6, it is determined in step E70d1 whether the operation time variable mode is set. This mode switching is selected by operating the external input devices 10a to 10c in FIG. If it is determined that the operation time variable mode is set, the process proceeds to step E70d2, and if not, the process proceeds to step E70d7.

  In step E70d2, the usage frequency determination unit 2a1 counts the number of registrations of hall calls and car calls. If 15 or more are registered per 2 hours, the process proceeds to step E70d3. If 15 or less, the process proceeds to step E70d5. move on. In step E70d3, the “strong” operation mode is selected, and as shown in step E70d4, the air cleaner 7 is operated in an operation / stop pattern of an operation period of 20 minutes and a rest period of 10 minutes. At this time, the control unit 2a outputs a display signal to the indicator 4 installed in the car 1, and the indicator 4 is operated in the “strong” operation mode as shown in FIG. It is notified that ions according to the elevator usage status are being released.

  On the other hand, in step E70d5, the “weak” operation mode is selected, and as shown in step E70d6, the air cleaner 7 is operated in an operation / stop pattern of an operation period of 10 minutes and a rest period of 20 minutes. At this time, the control unit 2a outputs a display signal to the indicator 4 installed in the car 1, and the indicator 4 is operated in the “weak” operation mode, and the ion corresponding to the elevator usage state is displayed. Informs that it has been released.

  If it is determined in step E70d1 that the operation time variable mode is not set, that is, the operation time non-variable mode is selected, the "equal" operation mode is selected as step E70d7, and as shown in step E70d8, the air cleaning is performed. The machine 7 is operated with an operation / stop pattern of an operation period of 10 minutes and a rest period of 10 minutes.

  According to the present embodiment, during operation of the air cleaner 7, a plurality of operation / stop patterns including an operation period and a stop period provided after the operation period can be set, and a predetermined threshold value, that is, control The air purifier equipped with the ion generator is selected by selecting a predetermined operation / stop pattern based on a threshold value determined based on the number of call registrations within a predetermined time registered in the use frequency determination unit 2a1 provided in the apparatus 2. In the elevator that performs sterilization and deodorization in the car 1 by the machine 7, while reducing the power consumption and prolonging the performance life while generating the ions required according to the operating conditions, An elevator with reduced running cost can be realized.

  Further, the display device 4 is provided in the car 1, and when the air cleaner 7 is in operation, the operation state of the air cleaner 7 is displayed so that the user can easily recognize the operation state of the air cleaner 7. Can do. Further, the display 4 displays the number of operations and the operation time of the air purifier 7 so that the maintenance staff can easily determine the secular change of the air purifier 7 and the ion generator included in the air purifier. As a result, it is possible to appropriately determine the device replacement time.

  In the embodiment described above, the number of registrations of hall calls and car calls is counted by the usage frequency determination unit 2a1, and if more than 15 are registered per 2 hours, the air cleaner 7 is set to the “strong” operation mode. I.e., 20 minutes operating period, 10 minutes rest period, while if less than 15 registered per 2 hours, run in "weak" mode, ie 10 minutes operating period, 20 minutes rest period However, the present invention is not limited to this. In other words, the threshold, operating time, downtime, and number of operation modes described above have different optimum settings depending on the performance of the air cleaner, the size of the car, the usage situation of the elevator, etc. Is set. In the non-operation time non-variable mode, the “equal” operation mode in which the operation period is 10 minutes and the operation period / stop pattern is 10 minutes is selected, but other settings may be used. Further, the threshold is determined based on the number of registered calls within a certain time registered in the use frequency determining unit 2a1 provided in the control device 2. However, other methods, for example, based on the number of users within a certain time, are used. The threshold value may be determined.

  The present invention is not limited to the above-described embodiments, and includes various modifications. For example, the above-described embodiments have been described in detail for easy understanding of the present invention, and are not necessarily limited to those having all the configurations described. In addition, part of a certain configuration can be replaced with another configuration.

DESCRIPTION OF SYMBOLS 1 Car 2 Control apparatus 2a1 Usage frequency determination part 3 Board call button 4 Display 5 Destination floor button 7 Air cleaner 8 Blower fan 9a-9c Maintenance switch 10a-10c External input device

Claims (4)

In an elevator equipped with an air cleaner equipped with an ion generator and a controller for controlling the operation of the air cleaner and the elevator,
The control device determines whether the automatic operation mode, the construction period, or the maintenance operation is performed in this order, and is set in advance for the air cleaner when the automatic operation mode is set and the maintenance operation is not performed. Operation control
In the preset operation control, it is possible to set a plurality of operation / stop patterns including an operation period and a stop period provided after the operation period when the air cleaner is in operation, and based on a predetermined threshold value. Select a predetermined operation / stop pattern ,
When not in the automatic operation mode, during the construction period, when the maintenance operation is not set for forced operation, the air cleaner is suspended and the maintenance operation is set for forced operation. When the air cleaner is operated, the air cleaner is forcibly operated .   The elevator according to claim 1, wherein the threshold value is determined based on the number of registered calls registered within a predetermined time or the number of users within a predetermined time.   The elevator according to claim 1, wherein the car is provided with an indicator for displaying an operation state of the air cleaner when the air cleaner is in operation. The elevator according to claim 1, further comprising a display for displaying at least one of the number of operations, the operation time, and the assumed life of the air cleaner.

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