JP2007112530A - Skirt guard gap adjustment method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform adjustment of a skirt guard gap in a shorter time in a skirt guard gap adjustment method. <P>SOLUTION: The skirt guard gap adjustment method for adjusting the skirt guard gap, i.e., a gap between a step of a conveyor for a passenger or a baggage and the skirt guard has a gap measurement step (S10) for continuously measuring the skirt guard gap by a gap measurement device arranged on the step during movement of the conveyor; a determination step (S12) for comparing the skirt guard gap with a reference gap, i.e., reference of the skirt guard gap to determine whether or not the skirt guard gap is within the reference gap; and an adjustment amount calculation step (S14) for calculating an adjustment amount of a mounting part such that the respective skirt guard gaps become within the reference gap when difference of the respective skirt guard gaps is within the difference of the maximum gap and the minimum gap of the reference gap at the mounting part for mounting abutment ends of the adjacent skirt guards. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a skirt guard gap adjusting method, and more particularly to a skirt guard gap adjusting method for determining a skirt guard gap, which is a gap between a passenger or luggage conveyor step and a skirt guard, and adjusting the gap.

  Passenger or luggage conveyors, such as escalators, are provided with skirt guards on both sides of the step. The skirt guard is arranged at a certain distance from the step over substantially the entire length of the escalator. The skirt guard gap, which is a gap between the step and the skirt guard, may change due to deformation of the skirt guard due to the escalator passenger or luggage hitting the skirt guard. Therefore, the skirt guard gap is regularly measured and inspected in the maintenance management of the escalator, and adjusted to an appropriate gap.

  The skirt guard gap is generally measured by stopping the escalator and applying a taper gauge for measuring the skirt guard gap to the gap between the step and the skirt guard. In addition to this taper gauge, the device for measuring the skirt guard gap is an arm that expands and contracts while the end abuts against the skirt guard, and holds the arm and converts the amount of expansion and contraction of the arm into an electrical signal. A skirt guard gap measuring device having a displacement converting device that performs recording and a recording device that performs recording in accordance with an electrical signal sent from the displacement converting device is used (for example, see Patent Document 1).

Japanese Utility Model Publication No. 63-190271

  The skirt guard gap is adjusted based on the measured value measured by the skirt guard gap measuring apparatus as described above. The skirt guard gap is generally adjusted by adjusting the mounting angle at which the skirt guard is attached. Here, some attachment angles have two skirt guards attached at one attachment angle. When adjusting such a mounting angle, the two skirt guards move simultaneously. Therefore, it takes a lot of adjustment time to find the adjustment amount of the mounting angle, and the burden of escalator maintenance management is large. There is. Moreover, even if it is normally attached, there is a deformation of the skirt guard itself, and adjustment work and repair work taking these conditions into consideration are required.

  Accordingly, an object of the present invention is to provide a skirt guard gap adjusting method for solving such problems and adjusting the skirt guard gap in a shorter time.

  A skirt guard gap adjusting method according to the present invention is a skirt guard gap adjusting method for adjusting a skirt guard gap, which is a gap between a passenger or luggage conveyor and a skirt guard, and the step is performed while the conveyor is moving. The gap measurement process in which the skirt guard gap is continuously measured by the arranged gap measurement device is compared with the reference gap which is the reference of the skirt guard gap and the skirt guard gap is within the reference gap. Each skirt guard gap when the difference between the skirt guard gaps at the attaching step for attaching the butt end of the adjacent skirt guard is within the difference between the maximum gap and the minimum gap of the reference gap. And an adjustment amount calculating step of calculating an adjustment amount of the attachment portion so that the distance is within the reference gap.

  In the adjustment amount calculating step, it is preferable to calculate the total amount of the gaps of the skirt guards facing the left and right of the step and calculate the adjustment amount of the attachment portion so that the skirt guard gaps are within the reference gap.

  Moreover, in the skirt guard clearance adjusting method according to the present invention, the passenger or luggage conveyor is preferably an escalator.

  According to the skirt guard gap adjusting method, the skirt guard gap can be adjusted in a shorter time.

  Embodiments according to the present invention will be described below in detail with reference to the drawings. FIG. 1 is a diagram illustrating steps of a skirt guard gap adjustment method.

  The gap measuring step (S10) is a step of continuously measuring the skirt guard gap by the gap measuring device arranged in the step during the movement of the passenger or luggage conveyor. The skirt guard clearance is preferably measured while the passenger or luggage conveyor is moving. This is because by measuring the skirt guard gap during movement of the passenger or luggage conveyor, the measurement can be performed more efficiently than when the passenger or luggage conveyor is stopped. The skirt guard gap is preferably measured continuously. This is because the skirt guard gap can be measured over substantially the entire length of the passenger or luggage conveyor by continuously measuring.

  FIG. 2 is a view showing the gap measuring device 14 arranged at step 12 of the passenger or luggage conveyor 10. The gap measuring device 14 is preferably arranged at the end of step 12 as shown in FIG. 2 to measure the skirt guard gap of the skirt guard 16. Of course, depending on other conditions, the arrangement is not particularly limited. FIG. 3 is a view showing an attachment method for attaching the gap measuring device 14 to the step 12. As shown in FIG. 3, the gap measuring device 14 is preferably fitted and fixed in a groove, which is a cleat in step 12, via a comb blade-shaped gap measuring device mounting member 17. Thereby, since the gap | interval measuring apparatus 14 is stably attached to step 12, a skirt guard gap | interval can be measured with a sufficient precision.

  The gap measuring device 14 has a function of detecting the skirt guard gap. As a method for detecting the skirt guard gap, for example, an optical detection method using a laser, infrared rays, or the like, or a mechanical detection method using a displacement meter or the like can be used. Of course, the method for detecting the skirt guard gap is not particularly limited to these methods. The gap measuring device 14 converts the skirt guard gap measured by a laser or the like into an electrical signal and outputs the electrical signal to the information processing device 18.

  The information processing device 18 has a function of acquiring and processing measurement data of the skirt guard gap. The information processing device 18 receives an electrical signal output from the gap measurement device 14 and an electrical signal for starting or stopping the passenger or luggage conveyor 10. When an electrical signal for starting the passenger or luggage conveyor 10 is input, the information processing device 18 starts to acquire measurement data of the skirt guard gap and receives an electrical signal for stopping the passenger or luggage conveyor 10. And stop acquiring the measurement data of the skirt guard gap. The information processing device 18 calculates the distance from the reference point serving as the reference of the position of the measurement point to the measurement point based on the measurement time and the moving speed of the passenger or luggage conveyor 10, and the measurement point and the measurement point Are associated with the skirt guard gap and output to the output device 20 by an electrical signal.

  The output device 20 has a function of inputting the electrical signal output from the information processing device 18 and displaying the measurement result of the skirt guard gap. FIG. 4 is a diagram illustrating a measurement result of the skirt guard gap output by the output device 20. The measurement result can be displayed by taking the distance from the reference point to the measurement point on the horizontal axis and the skirt guard gap on the vertical axis. Of course, the measurement result of the skirt guard gap is not limited to the display method of the measurement result, and other display methods can be used. As the output device 20, a general printer, a display, or the like can be used.

  The determination step (S12) is a step of comparing the skirt guard gap with a reference gap that is a reference for the skirt guard gap to determine whether the skirt guard gap is within the reference gap. Here, for the reference gap of the skirt guard, for example, a gap of 2 mm or more and 4 mm or less is used. Also, a reference gap is generally provided for a gap obtained by adding up the skirt guard gaps of the skirt guards arranged on both sides of the step. In this case, a gap of 6 mm or less is used as the reference gap of the total skirt guard gap. FIG. 5 is a flowchart showing a method for determining the skirt guard gap. And based on such a determination result, adjustment of the skirt guard gap | interval in the attaching part which attaches the skirt guard mentioned later is performed.

  First, the skirt guard gap of the mounting portion is compared with the reference gap. And the attachment part in which the skirt guard gap is within the reference gap is accepted, and the attachment part larger than the reference gap is rejected. The skirt guard gap is adjusted for the rejected mounting portion. If the skirt guard gaps of all the attachment parts are acceptable, then the skirt guard gap of the skirt guard surface that is not attached with screws or the like between the attachment parts and the attachment part, and the reference gap are set. Compare. Then, if the skirt guard gap between the attachment portions is within the reference gap, it is determined to be acceptable and normal. If the skirt guard gap between the attachment portions is larger than the reference gap, the skirt guard disposed between the attachment portion and the attachment portion is replaced or repaired.

  The determination can be performed by executing, on a computer, software in which a determination method as described above is programmed. Moreover, you may perform by running the software which programmed the determination method with the information processing apparatus 18 mentioned above.

  In the adjustment amount calculation step (S14), when the difference between the skirt guard gaps at the mounting portion for attaching the butt end of the adjacent skirt guard is within the difference between the maximum gap and the minimum gap of the reference gap, In this step, the adjustment amount of the mounting portion is calculated so that the gap is within the reference gap.

  First, a method for attaching the skirt guard will be described. FIG. 6 is a top view of the attachment part of the skirt guard. FIG. 7 is a cross-sectional view of the attachment part of the skirt guard. As shown in FIGS. 6 and 7, the attachment portion to which the skirt guard 16 is attached is an attachment provided between the attachment portion 30 at the butt end portion of the adjacent skirt guard 16 and the attachment portion 30 at the butt end portion. Part 32 is used. In the attachment portion 30 at the butt end portion of the adjacent skirt guards 16, the two skirt guards 16 are fixed to the first attachment member 36 by screws or the like 34. The first attachment member 36 is attached to the second attachment member 40 with bolts 38 or the like. The holes for passing the bolts 38 provided in the first mounting member 36 and the second mounting member 40 are substantially rectangular, and by loosening the bolts 38 and sliding the first mounting member 36, The skirt guard gaps of the two skirt guards 16 can be adjusted simultaneously.

  In the mounting portion 32 provided between the butted end mounting portion 30, one skirt guard 16 is fixed to the first mounting member 36 by a screw 34 or the like. The first attachment member 36 is attached to the second attachment member 40 with bolts 38 or the like. The holes for passing the bolts 38 provided in the first mounting member 36 and the second mounting member 40 are substantially rectangular, and by loosening the bolts 38 and sliding the first mounting member 36, The skirt guard gap of one skirt guard 16 can be adjusted.

  Next, the calculation method of the adjustment amount in each attachment part 30 and 32 of the skirt guard 16 is demonstrated. The calculation method of the adjustment amount of the attachment portion 30 at the butt end portion of the adjacent skirt guard 16 is as follows. First, each skirt of the attachment portion 30 at the butt end portion of the adjacent skirt guard 16 that has failed in the determination step (S12). Calculate the guard gap difference. Then, when the difference between the skirt guard gaps is within the difference between the maximum gap and the minimum gap of the reference gap, the adjustment amount of the attachment portion 30 is calculated so that the skirt guard gaps are within the reference gap. Here, in order to make each skirt guard gap within the reference gap, for example, the adjustment amount of the mounting portion 30 is calculated so that the largest skirt guard gap among the skirt guard gaps becomes the maximum gap of the reference gap. can do. Further, the adjustment amount of the attachment portion 30 may be calculated so that the small skirt guard gap among the skirt guard gaps becomes the minimum gap of the reference gap.

  Next, the case where one skirt guard gap of adjacent skirt guards 16 is 5 mm, the other skirt guard gap is 6 mm, and the reference gap is 2 mm or more and 4 mm or less will be specifically described. In this case, the difference between the skirt guard gaps is 1 mm, and the difference between the maximum gap and the minimum gap of the reference gap is 2 mm. In order to make each skirt guard gap within the reference gap, the adjustment amount of the mounting portion 30 is calculated so that the larger skirt guard gap becomes the maximum gap of the reference gap. Then, since the larger skirt guard gap is 6 mm and the maximum gap of the reference gap is 4 mm, the adjustment amount of the mounting portion 30 is calculated as 2 mm. In the above case, if the adjustment amount of the mounting portion 30 is calculated so that the small skirt guard gap becomes the minimum gap of the reference gap, the smaller skirt guard gap is 5 mm, and the minimum gap of the reference gap is 2 mm. The adjustment amount of the mounting portion 30 is calculated as 3 mm. When the mounting portion 30 is adjusted in this manner, each skirt guard gap can be set to 2 mm or more and 4 mm or less, which is within the reference gap.

  The calculation method of the adjustment amount in the mounting portion 32 provided between the adjacent skirt guard 16 and the mounting portion 30 at the butt end is first the skirt guard gap of the mounting portion 32 that has failed in the determination step (S12). And the difference between the reference gap and the difference can be used as the adjustment amount of the attachment portion 32. For example, the adjustment amount of the attachment portion 32 can be calculated so that the skirt guard gap becomes the maximum gap of the reference gap. Further, the adjustment amount of the attachment portion 32 may be calculated so that the skirt guard gap becomes the minimum gap of the reference gap.

  Next, the case where the skirt guard gap is 5 mm and the reference gap is 2 mm or more and 4 mm or less will be specifically described. When adjusting the skirt guard gap to be the maximum gap of the reference gap, the difference between the skirt guard gap of 5 mm and the maximum gap of the reference gap of 4 mm is 1 mm. Can be 1 mm. Further, when adjusting the skirt guard gap to be the minimum gap of the reference gap, the difference between the skirt guard gap of 5 mm and the minimum gap of the reference gap is 3 mm. The adjustment amount can be 3 mm. In this manner, when the mounting portion 32 is adjusted, the skirt guard gap can be set to 2 mm or more and 4 mm or less, which is within the reference gap.

  Here, in calculating the adjustment amount in each of the attachment portions 30 and 32 of the skirt guard 16, the total sum of the gaps of the skirt guards facing the left and right of the step is further calculated so that each skirt guard gap is within the reference gap. The adjustment amount of the attachment portions 30 and 32 can be calculated so as to be. For example, for each skirt guard gap, in addition to the above-mentioned reference gap of 2 mm or more and 4 mm or less, which is one side of the skirt guard gap, a gap obtained by totaling the gaps of the skirt guards facing the left and right of the step, The adjustment amounts of the attachment portions 30 and 32 are calculated so as to be within 6 mm which is the reference gap of the total skirt guard gap.

  Then, the position information of the measurement point for measuring the skirt guard gap of the attachment portion can be registered in advance in the information processing apparatus 18 and can be created as data in which the attachment portion and the adjustment amount of the attachment portion are associated with each other. FIG. 8 is a diagram showing a passenger or luggage conveyor 10 that measures the skirt guard gap. For example, seven skirt guards, skirt guard A (50) to skirt guard G (60), are used for the passenger or luggage conveyor 10. Then, a reference point 62 which is a reference of the position of the measurement point and 22 measurement points from the measurement point a (64) to the measurement point v (86) are registered in the information processing device 18.

  FIG. 9 is a diagram illustrating data in which the attachment portion is associated with the adjustment amount of the attachment portion. The data that associates the attachment portion with the adjustment amount of the attachment portion includes the distance from the reference point 62 to each measurement point (64 to 86) and the symbol of each skirt guard (50 to 60) attached to the attachment portion. And the registered measurement points (64 to 86), the skirt guard gap at each measurement point (64 to 86), the symbol of each attachment portion, and the adjustment amount at each attachment portion. For example, each skirt guard gap between the skirt guard A (50) and the skirt guard B (52) to which the attachment portion α is attached is 5 mm at the measurement point a (64) and 6 mm at the measurement point b (66). It can be seen that the adjustment amount of the attachment portion α is 2 mm. Further, it can be seen that the skirt guard gap of the skirt guard B (52) to which the attachment portion β is attached is 5 mm at the measurement point c (68), and the adjustment amount of the attachment portion β is 1 mm.

  The adjustable amount is calculated from the reference value in the left and right skirt guard gaps facing each other across the step. Therefore, it can be used to set the positions of the left and right skirt guard measurement points. The calculation of the adjustment amount in the adjustment amount calculation step (S14) can be performed by executing, on a computer, software in which the adjustment amount calculation method as described above is programmed. Alternatively, the information processing device 18 described above may execute software programmed with an adjustment amount calculation method.

  As described above, according to the skirt guard gap adjusting method, the skirt guard gap can be adjusted in a shorter time.

It is a figure which shows the process of the skirt guard clearance gap adjustment method which is embodiment of this invention. It is a figure which shows the gap | interval measuring apparatus arrange | positioned at the step of the passenger or luggage conveyor which is embodiment of this invention. It is a figure which shows the attachment method which attaches the gap | interval measuring apparatus which is embodiment of this invention to a step. It is a figure which shows the measurement result of the skirt guard clearance | gap output by the output device which is embodiment of this invention. It is a flowchart which shows the determination method of the skirt guard clearance | gap which is embodiment of this invention. It is a top view of the attachment part of the skirt guard which is embodiment of this invention. It is sectional drawing of the attaching part of the skirt guard which is embodiment of this invention. It is a figure which shows the passenger or luggage conveyor which measures the skirt guard clearance gap which is embodiment of this invention. It is a figure which shows the data which matched the attaching part which is embodiment of this invention, and the adjustment amount of the attaching part.

Explanation of symbols

  10 passenger or luggage conveyor, 12 steps, 14 gap measuring device, 16 skirt guard, 17 gap measuring device mounting member, 18 information processing device, 20 output device, 34 screw, 36 first mounting member, 38 bolt, etc., 40 Second mounting member, 50 skirt guard A, 60 skirt guard G, 62 reference point, 64 measurement points a, 86 measurement points v.

Claims (3)

A skirt guard gap adjusting method for adjusting a skirt guard gap, which is a gap between a passenger or luggage conveyor step and a skirt guard,
A gap measuring step of continuously measuring the skirt guard gap with a gap measuring device arranged in a step during the movement of the conveyor;
A determination step of comparing the skirt guard gap with a reference gap that is a reference of the skirt guard gap to determine whether the skirt guard gap is within the reference gap,
Each skirt guard gap should be within the reference gap when the difference between each skirt guard gap at the mounting part to which the butt guard ends of adjacent skirt guards are within the difference between the maximum gap and the minimum gap of the reference gap. An adjustment amount calculating step for calculating the adjustment amount of the mounting portion;
A skirt guard gap adjusting method characterized by comprising: In the skirt guard clearance adjusting method according to claim 1,
The adjustment amount calculating step calculates the total amount of the gaps of the skirt guards facing the left and right sides of the step, and calculates the adjustment amount of the mounting portion so that each skirt guard gap is within the reference gap. Guard gap adjustment method. In the skirt guard gap adjusting method according to claim 1 or 2,
The skirt guard clearance adjusting method, wherein the passenger or luggage conveyor is an escalator.

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