JP2015020900A - Inspection device and inspection method of elevator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an inspection device and an inspection method of an elevator which reduce an inspection time and execute efficient inspection operation by omitting inspection items which may be omitted as inspection items.SOLUTION: An inspection device of an elevator E for inspecting states of a safety shoe 12, a light emitting device 13, a light receiving device 14, an overloading-time turnover device, a door closing button 18, a door opening button 19, a destination floor button 17 and a hall button (equipment) which are provided in the elevator E includes: use history gaining means for gaining a use history of an elevator user regarding preset equipment; actuation history gaining means for gaining an actuation history of the equipment on the number of times preset during a preset period; and instruction means for performing instructions while omitting inspection items of the equipment from inspection operation items regarding the equipment in which the actuation history exists. Therein, a maintenance inspection operator executes a maintenance inspection operation only about the site maintenance inspection operation items 55 instructed by an instruction means on site.

Description

  The present invention relates to an elevator inspection device and an inspection method, and more particularly to an elevator inspection device and an inspection method that utilize an elevator user's usage history.

  Normally, elevator maintenance and inspections are regularly performed by a professional engineer belonging to an elevator management company or the like. This periodic maintenance inspection is performed based on a predetermined list of inspection work items for each target device. In the inspection work, it is confirmed whether or not the operation of the equipment is normal, and if there is an abnormality, it is repaired by a specialist engineer.

  For example, Japanese Patent Application Laid-Open No. 2008-230780 (Patent Document 1) is known as a technique for performing such inspection work. In this known technique, an inspection data collection unit that collects operation data of each part during normal operation of the elevator as inspection data, and inspection data of inspection items in the inspection cycle are extracted from the inspection data collected by the inspection data collection unit. A designated inspection data extraction unit, and for the inspection items of the collection omission inspection data, the automatic inspection operation is executed at the end of the inspection cycle to obtain inspection data, and the obtained inspection data and previously extracted The inspection data is transmitted to the monitoring center.

JP 2008-230780 A

  However, in the invention described in Patent Document 1, the signal input that each device has operated is taken and used as inspection data. However, depending on the device, only the operation switch is input even though it is not mechanically operated, or the elevator In some cases, it may be erroneously activated due to vibration or noise. In such a case, it is not possible to reliably capture the correct operating state of the proper device.

  In addition, when the automatic inspection operation is executed, a signal is forcibly input by a microcomputer or the like, so that the display status of the device is not known even if it is input. Therefore, even in such a case, it is not possible to reliably grasp the operating status of the device.

  Therefore, in the technique described in Patent Document 1, the accuracy of collected data becomes a problem. In any case, collect all inspection item data regardless of accuracy, and use all of the inspection data to check whether the equipment is operating normally. Will be repaired. For this reason, the inspection work time becomes long, and the efficient inspection work cannot be performed.

  Therefore, the problem to be solved by the present invention is to omit items that can be omitted as inspection items, reduce the inspection time, and enable efficient inspection work.

  In order to solve the above problems, the present invention provides an elevator inspection device for inspecting the state of equipment provided in an elevator, usage history acquisition means for acquiring an elevator user's usage history for a preset device, An operation history acquisition means for acquiring the operation history of the device for a preset number of times in a preset period, and an instruction for instructing the device in which the operation history exists by omitting the inspection item of the device from the inspection work item Means. Note that problems, configurations, and effects other than those described above will be clarified in the following description of embodiments.

  According to the present invention, by omitting items that can be omitted as inspection items, inspection time can be reduced and efficient inspection work can be performed.

It is the schematic which shows the attendant apparatus of the elevator car which concerns on one Embodiment of this invention. It is the schematic which looked at the car door side from the inside of a car. It is a figure which shows the system configuration | structure of the elevator inspection apparatus which concerns on one Embodiment of this invention. It is a flowchart which shows the procedure for confirming whether apparatuses, such as the light-emitting device and light-receiving device installed in the car door, and safety shoes operate | moved normally. It is a flowchart which shows the procedure which confirms whether apparatuses, such as a destination floor button installed in the passenger car, a door close button, and a door open button, operate | moved normally. It is a figure which shows the abbreviation example of the work item in the work item list | wrist of a maintenance inspection work.

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

  FIG. 1 is a schematic diagram showing an elevator car and its associated devices according to the present embodiment. In the figure, a car 1 of the elevator E includes a door rail 2 and a car door 4 on the front side. The car door 4 opens and closes in conjunction with the landing door 3 provided on the landing side. A door hanger 5 is attached to the upper end of the landing door 3, and a hanger roller 6 is connected to the door hanger 5. The hanger roller 6 has a function of rolling the upper surface of the door rail 2 to support the landing door 3 on the upper side and to follow the movement of the car door 4. A threshold 7 is provided below the landing door 3.

  A door motor 8 and a human sensor 10 are provided at an upper portion of the car 1, that is, a so-called car top 1a, and a load detection device 9 is provided under the car. The door motor 8 is a motor that drives the car door 4, and the load detection device 9 is a device that detects a load (load) in the car. The human sensor 10 projects infrared rays from the car 1a toward the landing 11 and senses a person near the landing 11 by the presence or absence of the reflected infrared rays. In the figure, reference numeral 11a indicates an infrared projection range of the human sensor 10 on the landing 11 side.

  A safety shoe 12 that opens the car door 4 when a person or an object comes in contact with the door is provided at the door contact portion at the end of the opening / closing portion of the car door 4. In addition, a plurality of light emitting devices 13 that project light from one side of the car door 4 and light projected from the light emitting device 13 are received at the opening / closing portion end of the car door 4, and whether or not there is a person near the door depending on whether light is received or not The same number of light receiving devices 14 as the light emitting devices 13 are provided. A plurality of lights (multi-beams) 15 from the light emitting device 13 to the light receiving device 14 are projected in a range from the lower part to the upper part of the car 4 as shown in the figure. For this reason, the issuing device 13 and the light receiving device 14 are also referred to as a multi-beam sensor.

  In this embodiment, the light emitting device 13 and the light receiving device 14 are provided between 1.8 m above and below the car door 3 of the elevator E. For example, 40 infrared rays (multi-beam) are emitted between them, and even one infrared ray is emitted. When blocked, the car door 3 is inverted without pressing the safety shoe 12 provided at the tip of the car door 3 with a hand or body.

  Furthermore, a camera 16 is installed in the car 4, in the present embodiment, on the ceiling of the car 4.

  FIG. 2 is a schematic view of the car door 4 viewed from the car. Two car doors 4 are arranged in front of the car as viewed from inside the car, and an operation panel 20 is installed on the right side thereof. The operation panel 20 is provided with a destination floor button 17, a door close button 18 and a door open button 19.

  FIG. 3 is a diagram showing a system configuration of the inspection device for the elevator E according to the present embodiment. FIG. 3 shows an example of a remote inspection device.

  The system for checking the elevator E according to this embodiment includes a hoisting machine 24, a control device 25, a recording device 26, an information device 30 and a control center 32 in addition to the car 1.

  A car 1 of the elevator E is installed in a hoistway 33 of a building (not shown) and is driven up and down by a hoisting machine 24 provided on the upper part of the hoistway 33. The hoisting machine 24 has a main sheave (not shown) that is rotatably supported.

  The elevator E has one end attached to the upper part of the car 1, the main rope 23 hung on the main sheave of the hoisting machine 24, and the other end of the main rope 23. The plate 22 is laminated in a laminated state. The counterweight 21 is formed. The hoisting machine 24 is driven and controlled by the control device 25. That is, the main sheave is rotated by the rotation of the motor of the hoisting machine 24 that receives a command from the control device 25, and the car 1 is made to have a counterweight by utilizing the frictional force between the main sheave and the main rope 23. 21 is moved up and down relatively. The hoisting machine 24 and the control device 25 are connected by a communication cable (not shown).

  The control device 25 is further connected to a control board (not shown) of the operation panel 20 by a communication cable 27a. As a result, an operation instruction or an operation state of each part of the operation panel 20 is input to the control device 25, and an instruction display or a state display is displayed on the operation panel 20 side from the control device 25 side accordingly or in parallel. Done.

  The light emitting device 13, the light receiving device 14, and the human sensor 10 are also connected to the control device 25 via the communication cable 27 a, and the input / output control of the multi-beam sensor including the light emitting device 13 and the light receiving device 14 and the human sensor 10 are performed. Human detection is also performed by the control device 25.

  The camera 16 is connected to the recording device 26 via a communication cable 28a, and the recording device 26 is connected to the information device 30 via a communication cable 28b.

  The information device 30 is connected to the control device 25 via a communication cable 27b. As a result, the recording device 26 and the camera 16 are also subjected to preset control including on / off control by the control device 25. Further, the information device 30 transmits the video information recorded in the recording device 26 to the control center 32, receives various information from the control center 32, and transmits it to the control device 25. Further, the information device 30 receives various information such as control information from the control device 25, operation information of each part of the elevator, operation abnormality information, current operation information, and the like via the public telephone line network 31a and the public telephone line 31. To the control center 32. A dedicated communication line may be used instead of the public telephone line network 31a and the public telephone line 31.

  The control center 32 is provided with a monitoring device (not shown) that determines whether or not each part of the elevator E has normally operated based on various operation information sent from the information device 30 through the public telephone line 31. The monitoring device further includes a server (not shown), and stores abnormal data and / or operation data in the storage device of the server.

  The monitoring device includes, for example, a computer (CPU or MPU) that is operated by software that implements the functions of the present embodiment, and the operation procedure of the flowcharts shown in FIGS. 4 and 5 described below is executed by the CPU or MPU in the computer. . The CPU (MPU) includes a control unit and a calculation unit, the control unit controls the flow of instruction interpretation and program control, and the calculation unit executes the calculation. The program is stored in a memory (not shown), an instruction to be executed (a certain numerical value or a sequence of numerical values) is taken out from the memory in which the program is placed, and the program is executed. The memory may be an internal memory or an external memory (storage medium) such as a hard disk or an optical disk, and maintenance data may be stored in the internal memory or in the external memory.

  The server can be connected to a portable terminal (Personal Computer: PC, hereinafter the same) (not shown) of a maintenance / inspection operator via a public telephone line network 30a so as to be communicable with each other by wire or wirelessly. The mobile terminal can obtain information necessary for maintenance inspection work by accessing the server, the mobile terminal transmits the maintenance inspection result to the server, and the server uses the received maintenance inspection result to maintain the elevator E. Store in the storage device as management information.

  FIG. 4 is a flowchart showing a procedure for confirming whether or not the devices such as the light-emitting device 13 and the light-receiving device 14 (multi-beam sensor) installed in the car door 4 and the safety shoe 12 have been normally operated. .

  In the flowchart of FIG. 4, first, it is confirmed by the input of the load detection device 9 and the human sensor 10 that a user has entered the car 1 or has left the car 1 (step 1). S1). Depending on the input order, it can be determined whether the user has entered the car 1 or left.

  If it can be confirmed (step S1: YES), when the user passes the car door 4, it is confirmed from the input / output signals of the light emitting device 13 and the light receiving device 14 or the safety shoe 12 whether or not the device is activated ( Step S2).

  When the device is activated (step S2: YES), whether the safety shoe 12 is activated and then the car door 4 is reversed is determined by a signal change of a door opening / closing position detecting device (not shown) (step S3).

  When the car door 3 is reversed (step S3: YES), it is determined that the device has been normally operated, and it is confirmed whether or not a certain number of normal operations have been recognized within a predetermined period (step S4). That is, the determination process of step S4 is executed when the respective conditions are satisfied in steps S1 to S3. The reversal is performed by the control device 25 reversing the door motor 8 when the control device 25 detects the operation of the safety shoe 12 or the blocking of the infrared rays.

  In the determination process in step S4, when a predetermined number of normal operations are recognized within a predetermined period, these devices are determined to be normal, and the computer of the monitoring device specializes in the work items of the target devices. It is omitted from the list at the time of maintenance and inspection by an engineer (step S5).

  It is also possible to determine whether or not the user has passed through the car door 4 by analyzing the image information of the camera 16 installed in the car 1. The image of the camera 16 is recorded by the recording device 26 and analyzed by the computer of the monitoring device of the control center 32 that monitors the operation of the elevator E and the abnormality of each part, for example, and the analysis result can be used as the monitoring result. . The analysis result (monitoring result) is stored in the server.

  FIG. 5 is a flowchart showing a procedure for confirming whether or not devices such as the destination floor button 17, the door close button 18, and the door open button 19 installed in the car 1 have been normally operated.

  In FIG. 5, first, the presence of a user in the car 1 is confirmed by the input of the load detection device 9 and the image information of the camera 16 installed in the car 1 (step S11).

  If there is a user in the car 1 in step S11 (step S11: YES), it is confirmed whether the destination floor button 17, the door close button 18, and the door open button 19 installed in the car 1 are activated ( Step S12).

  When the device is activated (step S12: YES), the appearance state of the device operated by the user is confirmed by the image information of the camera 16 installed in the car 1 (step S13). Whether or not the elevator E is operating correctly is determined based on an input signal from an elevator control signal input device (not shown) (step S14).

  If the elevator E is operating correctly (step S14: YES), it is determined that the device has been operated normally (step S14: YES), and whether a certain number of normal operations have been recognized within a predetermined period. Confirm (step S15). That is, in step S11, S12, and S14, when each condition is satisfy | filled, it is confirmed whether the normal operation | movement of the fixed number of times was recognized within the fixed period preset by step S15.

  When a certain number of normal operations are recognized within the predetermined period set in advance in step S15 (step S15: YES), the computer of the monitoring device lists the work items of the target device at the time of maintenance and inspection by a specialist engineer. (Step S16).

FIG. 6 is a diagram illustrating an example of omission of work items in the work item list for maintenance and inspection work. FIG. 6A shows a maintenance / inspection work item list 40 for performing maintenance / inspection work by a professional engineer. Here, the target device is
1. Safety shoe (12)
2. Multi-beam sensor (light emitting device 13 and light receiving device 14)
3. Overload reversing device (device that reverses operation when overload is detected during door opening / closing: door motor 8, control device 25)
4). Car open / close button (door close button 18 and door open button 19)
5. In-car floor button (destination floor button 17)
6). Landing button (the button on the landing 11)
The car inner floor button (destination floor button 17) and the landing button are set for each floor.

  From the operating state of the device to be inspected, the inspection work items in which normal operation is recognized from the maintenance inspection work items 50 by the professional engineer by the processing of steps S5 and S16 are omitted. The omitted field maintenance / inspection work item list 45 is shown in FIG.

  That is, when it is clear that the elevator user's usage history exists and it is operating normally, the computer of the monitoring device changes the inspection item of the equipment from the maintenance inspection work item 50 on the maintenance inspection day by the professional engineer. Omitted. In FIG. 6B, in step S2, it is confirmed from the input / output signals of the light-emitting device 13 and the light-receiving device 14 or the safety shoe 12, whether the device has been operated, the car door 4 is reversed in step S3, and in step S4. Since predetermined normal operation is recognized, the inspection of the multi-beam sensor (the light emitting device 13 and the light receiving device 14) and the safety shoe 12 is omitted.

  Further, in step S12, it is confirmed whether the destination floor button 17, the door close button 18, and the door open button 19 are operated. In step S14, the normal operation of the elevator E is confirmed. This inspection is also omitted. Further, since the normal operation cannot be confirmed for the car inner floor button indicating the third floor and the second floor hall button, the car inner floor button (destination floor button 17) of the floor where the computer of the monitoring device cannot confirm normal operation. The field maintenance / inspection work item list 45 is created so that only the landing buttons are inspected. The created field maintenance / inspection work item list 45 is stored in the storage device of the server.

  The local maintenance / inspection work item list 45 stored in the storage device of the server is acquired by accessing the server via the public telephone line network 31a from the portable terminal of the maintenance / inspection worker during the local maintenance / inspection work. The acquired field maintenance / inspection work item list 45 is displayed on the display of the portable terminal or printed out from the printer.

  The computer of the monitoring device creates the on-site maintenance / inspection work item list 45 in FIG. 6 (b) from the maintenance / inspection work item list 40 in FIG. 6 (a). It is sufficient when the server is accessed prior to. Alternatively, when the work check date is known in advance, the list may be created in advance before starting the work check date. In any case, it may be obtained when a maintenance inspection worker accesses the server before the maintenance inspection work on site.

  In this embodiment, the mobile terminal accesses the control center 32 to obtain the list information. However, the maintenance management device 35 that stores the normality / abnormality of the operation of each part of the car 1 is similar to the monitoring device. Thus, the field maintenance / inspection work item list shown in FIG. 6B can be created. The maintenance management device 35 is provided in the control device 25 of the local elevator E shown in FIG. 2 or at a preset location of the hoistway 33 shown in FIG. 1 where the car 1 moves up and down, and the computer of the monitoring device It has the function of judging the normality and abnormality by a computer similar to the above and creating a field maintenance inspection work item list. As described above, in the present embodiment, the inspection device is configured by a computer of a monitoring device or a computer of the maintenance management device 35 provided in the control center 32.

  With this configuration, the maintenance inspection worker connects the portable terminal to the maintenance management device 35 or the control center 32 before starting the maintenance inspection work on site, and the on-site maintenance inspection as shown in FIG. The work item list 45 is acquired. In the case where the maintenance management device 35 includes a display, the field maintenance / inspection work item list can be directly acquired from the maintenance management device 35 without connecting a portable terminal.

  When the on-site maintenance / inspection work item list 45 is created in this manner, the maintenance / inspection worker can perform maintenance / inspection work only on the on-site maintenance / inspection work item 55 listed in the on-site maintenance / inspection work item list 45 at the site. Well, the inspection time can be reduced and efficient inspection work can be carried out.

  In addition, as a condition for detecting the operation history of the equipment, the local elevator E specializes in the operation history only when the camera 16 or the human sensor 10 (infrared sensor) detects that the operation is performed by a person. Inspection results equivalent to the maintenance inspection work performed by the person can be obtained.

  As described above, according to the present embodiment, the following effects can be obtained.

(1) The state of the safety shoe 12, the light emitting device 13, the light receiving device 14, the overload reverse device, the door close button 18, the door open button 19, the destination floor button 17, and the landing button (device) provided in the elevator E In the inspection device for the elevator E to be inspected, a usage history acquisition means for acquiring a usage history of an elevator user for a preset device and an operation history of the device for a preset number of times in a preset period are acquired. Operating history acquisition means and instruction means for instructing by omitting the inspection items of the equipment from all the maintenance inspection work items 50 for the equipment for which the operation history exists. Therefore, it is only necessary to carry out maintenance inspection work on the field maintenance inspection work item 55 (work item) instructed by the instruction means, reducing the inspection time and improving efficiency. You are possible to carry out the inspection work.

  As described above, since the inspection work items for the equipment having the operation history are omitted from all the maintenance inspection work items 50, the number of work items to be inspected on site is reduced, and the burden on the inspection worker can be reduced accordingly. it can.

(2) The operation history acquisition means includes the safety shoe 12, the light emitting device 13, the light receiving device 14, the overload reversing device, the door closing button 18, the door opening button 19, the destination floor button 17, and the landing button (device). Since it has a detecting means for detecting that a person has actuated, and only the operation detected by the detecting means is an operation history, only the operation switch is input even though it is not mechanically operated, Alternatively, it is possible to acquire a highly accurate operation history without detecting an operation history caused by a malfunction such as a case where the elevator E operates erroneously due to vibration, noise, or the like in a series of movements of the elevator E.

  As conditions for detecting the operation history of safety shoe 12, light emitting device 13, light receiving device 14, overload reverse device, door close button 18, door open button 19, destination floor button 17, landing button (device), Since the operation history is used only when the detection means detects that the operation is based on the above, an inspection result equivalent to the maintenance inspection work performed by a technician in the local elevator E can be obtained. As a result, even if a specialist engineer does not visit the site, the inspection work can be performed only by the field inspection worker.

(3) Since the detection means is the camera 16 and the presence / absence of the operation is detected by image analysis (using the recording device 26), the operation history can be detected without fear of malfunction.

(4) The detection means is a human sensor 10 (infrared sensor) that detects the presence of a person, and only an operation switch is input, or vibration or noise in a series of movements of the elevator E Since it does not operate, the operation history can be detected without fear of malfunction.

(5) Since the usage history acquisition means, the operation history acquisition means, and the instruction means are monitoring devices in the control center 32 that remotely monitor the operation and abnormality of each part of the elevator E, the elevator from a remote location E inspection instruction becomes possible. Note that the monitoring device including the usage history acquisition unit, the operation history acquisition unit, and the instruction unit is configured by a program (software) downloaded to a computer in the monitoring device, so that it is not necessary to prepare hardware. The system can be constructed at a low cost.

(6) The usage history acquisition unit, the operation history acquisition unit, and the instruction unit are the maintenance management device 35 provided in the inspection target elevator E that detects and stores the operation and abnormality of each part of the elevator E. Therefore, even if there is a problem in communication with a remote place, the maintenance / inspection worker can perform the maintenance / inspection work only on the work item in which the inspection work item is omitted by the instruction means. Thereby, inspection time can be reduced and efficient inspection work can be implemented.

(7) Since the above inspection work items are inspection work items that are determined to be inspected by a professional engineer on the inspection work day, the professional engineer collects all the inspection item data and uses all the inspection data. Thus, it is not necessary to check whether the operation of the device is normal. Thereby, it becomes possible to inspect only by a local inspection worker, and an efficient inspection operation can be carried out.

(8) Check the condition of safety shoe 12, light emitting device 13, light receiving device 14, overload reverse device, door close button 18, door open button 19, destination floor button 17, landing button (equipment) provided in the elevator In the elevator inspection method, the elevator user's usage history for the device preset by the usage history acquisition unit is acquired, and the operation of the device is performed a preset number of times in a period preset by the operation history acquisition unit. Since a history is acquired and an instruction means omits an inspection item for the device from an inspection work item set in advance for the device for which the operation history exists, the same effect as in (1) can be obtained. .

  In the description of the effects in the above-described embodiment, the constituent elements in the claims are indicated in parentheses for each part of the present embodiment, or a reference numeral is attached, and the correspondence between the two is clarified.

  Furthermore, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention, and all the technical matters included in the technical idea described in the claims are all included. The subject of the present invention. The above embodiment shows a preferable example, but those skilled in the art can realize various alternatives, modifications, variations, and improvements from the contents disclosed in this specification, These are included in the technical scope described in the appended claims.

DESCRIPTION OF SYMBOLS 10 Human sensor 12 Safety shoe 13 Light-emitting device 14 Light-receiving device 16 Camera 17 Destination floor button 18 Door close button 19 Door open button 32 Control center 35 Maintenance management apparatus 40 Maintenance inspection work item list 45 Local maintenance inspection work item list 50 Maintenance inspection Work item 55 Field maintenance and inspection work item E Elevator

Claims (8)

In the elevator inspection device that checks the state of equipment installed in the elevator,
Usage history acquisition means for acquiring an elevator user's usage history for a preset device;
An operation history acquisition means for acquiring an operation history of the device for a preset number of times in a preset period;
Instructing means for omitting the inspection item of the device from the inspection work item and indicating the device having the operation history,
An elevator inspection device characterized by comprising: In the elevator inspection apparatus according to claim 1,
The operation history acquisition unit includes a detection unit that detects that a person has operated the device,
An elevator inspection device characterized in that only the operation detected by the detecting means is used as an operation history. In the elevator inspection device according to claim 2,
An elevator inspection apparatus, wherein the detecting means is a camera. In the elevator inspection device according to claim 2,
An elevator inspection apparatus, wherein the detection means is an infrared sensor that detects the presence of a person. In the elevator inspection device according to any one of claims 1 to 4,
The elevator inspection device, wherein the use history acquisition means, the operation history acquisition means, and the instruction means are monitoring devices that monitor the operation and abnormality of each part of the elevator at a remote location. In the elevator inspection device according to any one of claims 1 to 4,
The elevator characterized in that the usage history acquisition means, the operation history acquisition means, and the instruction means are maintenance management devices provided in an elevator to be inspected that detects and stores the operation and abnormality of each part of the elevator. Inspection equipment. In the elevator inspection apparatus according to any one of claims 1 to 6,
An elevator inspection device, wherein the inspection work item is an inspection work item determined by a professional engineer to inspect on an inspection work day. In the elevator inspection method to check the state of equipment installed in the elevator,
Acquire the elevator user's usage history for the equipment preset by the usage history acquisition means,
Acquire the operation history of the device for a preset number of times in a period preset by the operation history acquisition means,
An elevator inspection method characterized in that an instruction means omits an inspection item for the equipment from inspection work items set in advance for the equipment having the operation history.

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