JP2019214442A - Fitting tool of rope tester device and rope tester system - Google Patents

Abstract

To provide a fitting tool of a rope tester device capable of easily moving a rope tester away from a rope.SOLUTION: A fitting tool of a rope tester device comprises a body part fixed to a structure, a fitting part fitted with a rope tester device and capable of moving in the vertical direction, a loading unit to apply a force to the fitting tool so as to move the rope tester away from the rope, and a switching part to switch from a stop state in which the fitting part stops moving by the force of the loading part to a release state in which the fitting part moves in the vertical direction to release the stop.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a fixture for a rope tester device and a rope tester system.

  The rope tester device includes a rope tester, and the rope tester is pressed against the rope to detect damage to a rope connected to an elevator car. 2. Description of the Related Art Conventionally, for example, a mounting device of a rope tester device includes a main body fixed to a structure, and a mounting portion to which the rope tester device is mounted and rotatably connected to the main body. 1).

  By the way, for example, when there is an abnormality (for example, damage such as disconnection, or adhesion of dust) on the rope, the rope tester receives a force from the traveling rope. And although the attachment device which concerns on patent document 1 is a structure which can rotate an attachment part with respect to a main-body part, since a rope tester is pressed against a rope, a rope tester separates easily from a rope. You may not be able to. In such a case, for example, the rope tester may be damaged.

JP 2012-153488 A

  Therefore, an object is to provide a mounting device of a rope tester device and a rope tester system that can easily separate a rope tester from a rope.

  A mounting device of the rope tester device, wherein the rope tester device having a rope tester pressed against a rope of an elevator is mounted, the mounting device of the rope tester device, and a main body fixed to a structure; A mounting part to which the device is mounted and which is movable in the vertical direction, a force applying part for applying a force to the mounting part so that the rope tester is separated from the rope, and the mounting part is moved by the force of the force applying part. A switching unit for switching from a stop state in which the stop is performed to a release state in which the stop is released by moving the mounting unit in the vertical direction.

  Further, in the mounting device of the rope tester device, the mounting portion is also movable in an intersecting direction that intersects the up-down direction, and the force applying portion applies a force in the intersecting direction to the mounting portion. The switching portion includes a stop portion that is stopped in the cross direction in the main body portion or the attachment portion, and the stop portion separates from the main body portion or the attachment portion with the vertical movement of the attachment portion. , May be used.

  Further, the mounting device of the rope tester device further includes a connecting portion that connects the main body portion and the mounting portion, and the mounting portion is configured to be movable in the vertical direction with respect to the connecting portion. Connected to a connection portion, the connection portion is connected to the main body portion so as to be movable in the cross direction with respect to the main body portion, and the force applying portion is connected to the connection portion in the cross direction. It may be configured to apply force.

  Also, in the mounting device of the rope tester device, a link mechanism for connecting the mounting portion and the connecting portion is provided, and the connecting portion faces the mounting portion in the up-down direction and is connected to the base. The link mechanism includes first and second link bodies rotatably connected at an intermediate portion between the first and second link bodies, and one end of each of the first and second link bodies is laterally attached to the mounting part. And the other end of each of the first and second link bodies is connected to the base so as to be slidable in the lateral direction.

  Further, the rope tester system includes a rope tester device having a rope tester pressed against a rope of an elevator, and the mounting device to which the rope tester device is mounted.

Drawing 1 is a mimetic diagram showing the state where the attachment of the rope tester device concerning one embodiment was installed. FIG. 2 is a perspective view of the rope tester system according to the embodiment. FIG. 3 is a perspective view of the rope tester device according to the embodiment. FIG. 4 is a perspective view of the mounting device according to the embodiment. FIG. 5 is an enlarged sectional view taken along line VV of FIG. FIG. 6 is an enlarged sectional view taken along line VI-VI of FIG. FIG. 7 is a perspective view of FIG. FIG. 8 is a perspective view of components of the mounting device according to the embodiment. FIG. 9 is a diagram showing a partial cross section for explaining the operation of the mounting device according to the embodiment. FIG. 10 is a diagram showing a partial cross section for explaining the operation of the mounting device according to the embodiment. FIG. 11 is a cross-sectional view illustrating an operation of the mounting device according to the embodiment. FIG. 12 is a diagram showing a partial cross section for explaining the operation of the mounting device according to the embodiment. FIG. 13 is a view showing a partial cross section of a mounting device according to another embodiment. FIG. 14 is a diagram showing a partial cross section for explaining the operation of the mounting device according to the embodiment. FIG. 15 is a view showing a partial cross section of a mounting tool according to still another embodiment. FIG. 16 is a view showing a partial cross section of a mounting tool according to still another embodiment. FIG. 17 is a view showing a partial cross section of a mounting tool according to still another embodiment. FIG. 18 is a diagram showing a partial cross section for explaining the operation of the mounting device according to the embodiment. FIG. 19 is a perspective view of a mounting tool according to still another embodiment. FIG. 20 is a diagram showing a partial cross section for explaining the operation of the mounting device according to the embodiment.

  Hereinafter, an embodiment of a rope tester system and a fixture for a rope tester device will be described with reference to FIGS. In each of the drawings (similarly in FIGS. 13 to 20), the dimensional ratios of the drawings do not always match the actual dimensional ratios, and the dimensional ratios of the drawings do not always match. Absent.

  As shown in FIGS. 1 and 2, the attachment 1 of the rope tester device 21 is provided in a rope tester system 20. And the rope tester system 20 is installed in the elevator 30.

  The elevator 30 includes a car 31 on which a user rides, a rope 32 having one side connected to the car 31, and a counterweight 33 to which the other end of the rope 32 is connected. Further, the elevator 30 includes a hoist 34 having a sheave 34 a around which the rope 32 is wound, and the rope tester system 20 for detecting damage to the rope 32.

  The elevator 30 according to the present embodiment has a configuration in which the hoisting machine 34 is disposed inside the machine room X1, but is not limited to such a configuration. For example, the elevator 30 may have a configuration in which the hoist 34 is disposed inside the hoistway X2. Further, the position where the rope tester system 20 detects the damage of the rope 32 is not particularly limited. For example, in FIG. 1, the rope tester system 20 is disposed inside the machine room X1.

  As shown in FIG. 2, the rope tester system 20 includes a rope tester device 21 that detects damage to the rope 32 and the mounting device 1 to which the rope tester device 21 is attached. The rope tester device 21 includes a rope tester 22 pressed against the rope 32 to inspect the rope 32 and detect damage, a rope tester support 23 supporting the rope tester 22, a rope tester 22 and a rope tester support. And a moving device 24 for moving the moving device 23. Note that the moving device 24 is fixed to the attachment 1.

  Although only one rope 32 is shown in FIG. 2, a plurality of ropes 32 are usually provided. Specifically, a plurality of ropes 32 are provided so as to be arranged along the second lateral direction D2. The diameter of the rope 32 is, for example, 10 mm to 18 mm, and the interval between the ropes 32 is, for example, smaller than the diameter of the rope 32.

  As shown in FIG. 3, the rope tester 22 includes a groove 22a through which the rope 32 passes. The groove 22a extends along the vertical direction D3, and the rope 32 (see FIG. 2) is in contact with the inner surface of the groove 22a. The rope tester 22 includes, for example, a permanent magnet (not shown) and a detection coil (not shown) inside. Then, for example, the permanent magnet magnetizes the rope 32 and the detection coil detects the leakage magnetic flux, so that the damage (for example, disconnection) of the rope 32 is detected.

  The rope tester support 23 includes a fixing part 25 for fixing the rope tester 22 and a support part 26 for supporting the fixing part 25. The fixing portion 25 is connected to the support portion 26 so as to be rotatable around the second lateral direction D2. Note that the rotatable angle of the fixing portion 25 can be set to 60 ° (± 30 °) or less.

  The moving device 24 includes a first moving unit 24a that moves the supporting unit 26 in the first lateral direction D1 with respect to the rope 32, and a second moving unit 24 that moves the supporting unit 26 in the second lateral direction D2 with respect to the rope 32. And a moving unit 24b. Note that the first lateral direction D1 and the second lateral direction D2 are orthogonal to each other.

  Each of the moving units 24a and 24b transmits a drive source (for example, a motor) 24c and 24d for moving the support unit 26 and a drive of the drive sources 24c and 24d to the support unit 26, thereby causing the support unit 26 to move. Moving mechanisms 24e and 24f for moving in the lateral directions D1 and D2 are provided. The second moving unit 24b moves not only the support unit 26 but also the first moving unit 24a in the second lateral direction D2. That is, the support portion 26 and the first moving portion 24a integrally move in the second lateral direction D2.

  As shown in FIGS. 3 to 6, the mounting device 1 includes a main body 2 fixed to a structure, a mounting portion 3 to which a rope tester device 21 is mounted, and a connection connecting the main body 2 and the mounting portion 3. Unit 4. Further, the mounting device 1 includes a force applying unit 5 that applies a force to the mounting unit 3 and a switching unit 6 that switches the state of the mounting unit 3.

  In addition, the structure includes not only the building body of the building but also various structures fixed to the building body (for example, facilities of the elevator 30, facilities related to the building, and the like). That is, the main body 2 is directly or indirectly fixed to the building frame.

  The mounting portion 3 includes a mounting main body 3a to which the rope tester device 21 is mounted, and a shaft portion 3b that rotatably connects the mounting main body 3a to the connection portion 4. The mounting body 3a includes a distal end 3c, which is an end close to the rope 32 (see FIG. 2), and a proximal end 3d, which is an end far from the rope 32. The shaft 3b is fixed to the base 3d of the mounting body 3a. That is, the mounting portion 3 is rotatably connected to the connecting portion 4 at the base end 3d.

  Then, as the mounting body 3a rotates about the shaft 3b, the distal end 3c of the mounting body 3a moves in the up-down direction D3. As a result, the tip 3c of the attachment 3 moves in the up-down direction D3 with respect to the connection 4 and the main body 2 as the attachment 3 rotates with respect to the connection 4.

  The cross-sectional shape of the end portion of the shaft portion 3b is a circular shape, whereas the cross-sectional shape of the middle portion of the shaft portion 3b is a circular shape with a portion cut away. The mounting body 3a is fixed to the cutout portion. For example, the mounting body 3a is fixed to the shaft 3b by bolts (not shown) or the like.

  The connection part 4 houses the attachment part 3 inside. The connecting portion 4 includes a distal end wall portion 4a disposed along the distal end portion 3c of the mounting portion 3, a proximal end wall portion 4b disposed along the proximal end portion 3d of the mounting portion 3, and a distal end wall portion. It has a pair of side walls 4c and 4d connecting the base 4a and the base end wall 4b.

  Further, the connecting portion 4 includes a base portion 4e facing the mounting portion 3 in the vertical direction D3. The base portion 4e is disposed below the distal end portion 3c of the mounting portion 3 (the mounting main body 3a), and is disposed so as to face the distal end portion 3c of the mounting portion 3 (the mounting main body 3a). The base 4e is formed in a plate shape.

  The main body 2 houses the connection 4 therein. The main body 2 is connected to a distal end wall 2 a arranged in parallel with the distal end wall 4 a of the connecting portion 4, a base end wall 2 b arranged in parallel to the proximal end wall 4 b of the connecting portion 4, and The main body 2 includes a pair of side walls 2c and 2d which are arranged in parallel with the side walls 4c and 4d of the section 4 and connect the front end wall 2a and the base end wall 2b of the main body 2.

  The connecting portion 4 includes a guided portion 4f guided in an intersecting direction D1 intersecting the vertical direction D3, and the main body portion 2 includes a guiding portion 2e for guiding the guided portion 4f in the intersecting direction D1. And the connection part 4 and the main-body part 2 are connected by the guided part 4f and the guide part 2e. Thereby, the connecting portion 4 is connected to the main body 2 so as to be integrated with the mounting portion 3 and to be movable in the cross direction D1 with respect to the main body 2. In the present embodiment, the cross direction D1 is the first horizontal direction D1.

  The guided portion 4f is provided on the outer surface of the side wall portions 4c and 4d of the connecting portion 4, and the guide portion 2e is provided on the inner surface of the side wall portions 2c and 2d of the main body 2. The guided portion 4f is formed in a convex shape and extends in the cross direction D1, and the guide portion 2e is formed in a concave shape and extends in the cross direction D1.

  The force applying portion 5 includes an elastic portion 5 a disposed between the main body 2 and the connecting portion 4. In the present embodiment, the elastic portion 5a is a helical spring, but may be a leaf spring or rubber, for example. When the rope tester 22 inspects the rope 32, the elastic portion 5 a is disposed between the distal end wall portion 2 a of the main body 2 and the distal end wall portion 4 a of the connection portion 4 in a contracted and elastically deformed state. Have been.

  Thus, the force applying section 5 applies a force in the cross direction D1 (specifically, the direction from the distal end wall 4a to the proximal end wall 4b) to the connecting section 4. That is, the force applying unit 5 applies a force in the cross direction D <b> 1 to the mounting unit 3 via the connection unit 4.

  The switching unit 6 converts the movement of the mounting unit 3 in the up-down direction D3 into the movement of the stop unit 6a so that the stop unit 6a is stopped by the main unit 2 in the cross direction D1 and the stop unit 6a is separated from the main unit 2. And a conversion unit 6b. And the conversion part 6b is provided with the link mechanism 6c which connects the front-end | tip part 3c of the attachment part 3 and the base part 4e of the connection part 4. FIG.

  The link mechanism 6c includes first and second link bodies 6d, 6d rotatably connected to each other at an intermediate portion. Each of the first and second link bodies 6d, 6d has links 6e, 6e rotatably connected to each other, and a first slide that is rotatably connected to one end of the link 6e and slides with respect to the mounting portion 3. Parts 6f, 6f and second sliding parts 6g, 6g rotatably connected to the other end of the link 6e and sliding with respect to the base part 4e.

  The mounting portion 3 has a slide hole 3e extending in the second lateral direction D2, and a part of the first slide portion 6f is disposed inside the slide hole 3e of the mounting portion 3. The first slide portion 6f is prevented from falling out of the slide hole 3e, and the first slide portion 6f is slidable in the second lateral direction D2. Therefore, one end of the link body 6d is slidably connected to the mounting part 3 in the second lateral direction D2.

  The base portion 4e has a slide hole 4g extending in the second lateral direction D2, and a part of the second slide portion 6g is arranged inside the slide hole 4g of the base portion 4e. The second slide portion 6g is prevented from falling out of the slide hole 4g, and the second slide portion 6g is slidable in the second lateral direction D2. Therefore, the other end of the link body 6d is slidably connected to the base 4e in the second lateral direction D2.

  According to such a link mechanism 6c, the distance between the first slide 6f of the first link 6d and the second slide 6g of the second link 6d, the distance between the first slide 6f of the second link 6d and The distance between the one link body 6d and the second slide portion 6g is kept the same. Therefore, the tip 3c of the mounting portion 3 and the base 4e are always parallel.

  For example, since the position of the rope tester support 23 is changed by the moving device 24, when the rope tester 22 receives a force from the rope 32, the position, direction, and size at which the force is applied to the mounting portion 3 may be different. become. However, according to the link mechanism 6c, the attachment portion 3 moves so as to maintain parallel to the base portion 4e regardless of the position, the direction, and the magnitude of the force received by the attachment portion 3 from the rope 32.

  The stop part 6a is formed long. The base end of the stop 6a is rotatably connected to the link 6d. Specifically, the base end of the stop 6a is rotatably connected to the second slide 6g. Thus, the stop 6a is connected to the attachment 3 via the link mechanism 6c.

  The main body 2 and the connecting portion 4 have insertion holes 2f and 4h in the side walls 2c, 2d, 4c and 4d, into which the distal end of the stop 6a is inserted. The distal end of the stop 6a is inserted into the respective insertion holes 2f and 4h, so that the distal end of the stop 6a contacts the insertion hole 2f of the main body 2 in the cross direction D1. As described above, the stopping portion 6a is stopped by the main body 2 in the cross direction D1, so that the switching portion 6 maintains the stopped state of the mounting portion 3.

  On the other hand, when the link mechanism 6c operates and the stop 6a moves in the second lateral direction D2, the distal end of the stop 6a comes out of the insertion hole 2f of the main body 2. As a result, the stopping portion 6a is separated from the main body portion 2, so that the switching portion 6 releases the stopping from the stopped state of the mounting portion 3, and releases the mounting portion 3 by the force of the force applying portion 5 to enable the movement of the mounting portion 3. Switch to state.

  The configuration of the mounting tool 1 according to the present embodiment is as described above. Next, the operation of the mounting tool 1 according to the present embodiment will be described with reference to FIGS.

  First, when the inspection of the rope 32 is started, as shown in FIGS. 5 to 9, the attachment portion 3 is located at the reference position. At this time, while the force applying section 5 applies a force in the cross direction D1 to the connecting section 4, the distal end of the stopping section 6 a is inserted into the insertion holes 2 f and 4 h of the main body 2 and the connecting section 4. Has been inserted. Since the stop 6a is stopped by the main body 2 in the cross direction D1, the attachment 3 is stopped from moving by the force of the force applying section 5. That is, the switching unit 6 is in the stopped state of the mounting unit 3.

  By the way, when there is an abnormality (for example, damage such as disconnection or adhesion of dust) on the rope 32, the rope tester 22 receives a force from the traveling rope 32. For example, when the rope 32 is traveling in the upward direction, the rope tester 22 receives an upward force as shown in FIG. Accordingly, the mounting portion 3 rotates with respect to the connecting portion 4 about the shaft portion 3b of the base end portion 3d, so that the distal end portion 3c of the mounting portion 3 moves upward. At this time, since the mounting portion 3 is not receiving the force from the force applying portion 5, the distal end portion 3c of the mounting portion 3 moves smoothly upward.

  Thereby, as shown in FIG. 11, the link mechanism 6c operates so that the slide portions 6f, 6f (6g, 6g) approach each other. Then, the distal end portion of the stopping portion 6a comes out of the insertion hole 2f of the main body portion 2, so that the stopping portion 6a separates from the main body portion 2. That is, when the mounting portion 3 moves upward, the switching portion 6 switches the mounting portion 3 from the stopped state to the released state. In FIG. 11, the rope tester device 21 is not shown.

  Then, as shown in FIG. 12, since the force unit 5 applies a force in the cross direction D1 to the connection unit 4, the switching unit 6 switches to the release state, so that the attachment unit 3 and the connection unit 4 are integrated. And moves in the cross direction D1 with respect to the main body 2. At this time, the rope tester 22 also moves in the intersecting direction D1 intersecting the vertical direction D3, so that the rope tester 22 does not hit the rope 32. Therefore, the rope tester 22 can be smoothly separated from the rope 32.

  In addition, even if the rope tester 22 approaches the rope 32 thereafter, the force applying portion 5 applies a force to the attachment portion 3 and the connection portion 4, so that the rope tester 22 is restricted from returning toward the rope 32. Therefore, the rope tester 22 can be kept separated from the rope 32.

  As described above, since the rope tester 22 receives the force from the rope 32 and moves upward, the mounting portion 3 is moved by the force of the force applying portion 5, so that the rope tester 22 can be easily separated from the rope 32. it can. In addition, since the force applying portion 5 uses the force of the elastic restoring force, it is not necessary to supply electricity to the attachment 1.

  The mechanism for moving the mounting portion 3 in the up-down direction D3 when receiving a force from the rope 32 is a connection mechanism between the mounting portion 3 and the connecting portion 4. The mechanism by which the mounting portion 3 moves in the cross direction D1 is a connection mechanism between the main body 2 and the connection portion 4. Thus, each moving mechanism is a mechanism independent of each other.

  Therefore, when the rope tester 22 receives a force from the rope 32, the mounting portion 3 moves in the up-down direction D3 without receiving a force from the force applying portion 5. Then, the switching unit 6 switches the state of the mounting unit 3 by moving the mounting unit 3 in the up-down direction D3, so that the switching of the mounting unit 3 from the stopped state to the released state can be performed properly.

  As described above, the rope tester system 20 according to the present embodiment includes the rope tester device 21 having the rope tester 22 pressed against the rope 32 of the elevator 30 and the attachment 1 to which the rope tester device 21 is attached. Prepare.

  The attachment 1 of the rope tester 21 according to the present embodiment is the attachment 1 of the rope tester 21 to which the rope tester 21 having the rope tester 22 pressed against the rope 32 of the elevator 30 is attached. The main body 2 fixed to the structure, the mounting portion 3 to which the rope tester device 21 is mounted and movable in the vertical direction D3, and the mounting portion 3 so that the rope tester 22 is separated from the rope 32. 3 from a force applying portion 5 for applying a force to the mounting portion 3 and a stop state in which the mounting portion 3 stops moving by the force of the force applying portion 5 by moving the mounting portion 3 in the vertical direction D3. A switching unit 6 for switching to a release state to be released.

  According to such a configuration, when the rope tester 22 receives a force from the traveling rope 32, the mounting portion 3 moves in the vertical direction D3. Thereby, the switching unit 6 switches the mounting unit 3 from the stopped state to the released state. Therefore, the rope tester 22 separates from the rope 32 because the mounting part 3 is moved by the force of the force applying part 5. As described above, since the mounting portion 3 is moved in the vertical direction D3 by the force from the rope 32, the force of the force applying portion 5 is applied to the mounting portion 3, so that the rope tester 22 can be easily separated from the rope 32. it can.

  Further, in the mounting device 1 of the rope tester device 21 according to the present embodiment, the mounting portion 3 is also movable in an intersecting direction D1 intersecting with the vertical direction D3. The switching unit 6 applies a force in the cross direction D1 to the unit 3, and the switching unit 6 stops the main unit 2 or the mounting unit 3 (the main unit 2 in the present embodiment) in the cross direction D1. The stopping portion 6a is configured to separate from the main body 2 or the mounting portion 3 (the main body 2 in the present embodiment) as the mounting portion 3 moves in the vertical direction D3. .

  According to such a configuration, the mounting portion 3 is movable in the cross direction D1, and the force applying portion 5 applies a force in the cross direction D1 to the mounting portion 3. On the other hand, when the stopping portion 6a is stopped by the main body 2 or the mounting portion 3 (the main body 2 in the present embodiment) in the cross direction D1, the mounting portion 3 is moved by the force of the force applying portion 5. That's stopped.

  From such a state, when the mounting portion 3 moves in the vertical direction D3, the stopping portion 6a moves away from the main body 2 or the mounting portion 3 (the main body 2 in the present embodiment). Thus, the mounting portion 3 moves in the cross direction D1 by the force of the force applying portion 5.

  Further, the mounting device 1 of the rope tester device 21 according to the present embodiment further includes a connecting portion 4 for connecting the main body portion 2 and the mounting portion 3, and the mounting portion 3 is connected to the connecting portion 4. The connecting portion 4 is connected to the connecting portion 4 so as to be movable in the vertical direction D3. The connecting portion 4 is connected to the main body 2 so as to be movable in the cross direction D1 with respect to the main body 2. The connecting section 4 is configured to apply a force in the cross direction D1 to the connecting section 4.

  According to such a configuration, when the mounting portion 3 moves in the vertical direction D3 with respect to the connecting portion 4, the mounting portion 3 moves in the vertical direction D3 with respect to the main body 2. The connecting portion 4 moves along the cross direction D <b> 1 with respect to the main body 2 by the force from the force applying portion 5, so that the mounting portion 3 crosses the main body 2 together with the connecting portion 4. It moves along the direction D1. That is, the mounting portion 3 receives the force from the force applying portion 5 via the connection portion 4.

  Further, the mounting device 1 of the rope tester device 21 according to the present embodiment includes a link mechanism 6c for connecting the mounting portion 3 and the connection portion 4, and the connection portion 4 is connected to the mounting portion 3 and the up-down direction. A base portion 4e facing at D3 and connected to the link mechanism 6c, the link mechanism 6c including first and second link bodies 6d, 6d rotatably connected at an intermediate portion of each other; One end of each of the first and second link bodies 6d, 6d is slidably connected to the mounting part 3 in the lateral direction D2, and the other end of each of the first and second link bodies 6d, 6d is It is configured to be slidably connected to the base portion 4e in the lateral direction D2.

  According to such a configuration, since the link mechanism 6c connects the mounting portion 3 and the base portion 4e, when the mounting portion 3 moves in the up-down direction D3, the mounting portion 3 is inclined with respect to the base portion 4e. Can be suppressed. Thereby, regardless of the position, the direction, and the magnitude of the force that the attachment portion 3 receives from the rope 32, the attachment portion 3 can be reliably moved in the vertical direction D3.

  In addition, the attachment 1 of the rope tester system 20 and the rope tester device 21 is not limited to the configuration of the above-described embodiment, and is not limited to the above-described operation and effect. The rope tester system 20 and the mounting device 1 of the rope tester device 21 can of course be variously modified without departing from the gist of the present invention. For example, it goes without saying that one or a plurality of configurations and methods according to the various modifications described below may be arbitrarily selected and employed in the configurations and methods according to the above-described embodiments.

(1) The mounting device 1 according to the above-described embodiment has a configuration in which a connecting portion 4 that connects the main body 2 and the mounting portion 3 is provided. However, the mounting device 1 is not limited to such a configuration. For example, as shown in FIGS. 13 and 14, a configuration in which the connection portion 4 is not provided and the attachment portion 3 is directly connected to the main body 2 may be employed.

(2) Further, in the mounting device 1 according to the above embodiment, the stop portion 6a is connected to the mounting portion 3 and is stopped by the main body 2 in the cross direction D1. However, the mounting device 1 is not limited to such a configuration. For example, as shown in FIGS. 13 and 14, the configuration may be such that the stop portion 2i is connected to the main body portion 2 and is stopped by the mounting portion 3 in the cross direction D1. The configuration according to FIGS. 13 and 14 will be described below.

  In the mounting device 1 according to FIGS. 13 and 14, as shown in FIG. 13, the main body 2 has a bottom 2 h and a stop 2 i protruding from the bottom 2 h in the vertical direction D3 (specifically, upward). It has. Further, the mounting portion 3 includes a supported portion 3g supported by the bottom 2h of the main body 2, and a connecting portion 3h that connects the mounting main body 3a and the supported portion 3g.

  The supported portion 3g has an insertion hole 3i into which the stopping portion 2i is inserted. When the mounting portion 3 is in the stopped state, the stopping portion 2i is inserted into the insertion hole 3i and is stopped by the insertion hole 3i in the cross direction D1. In addition, the main body 2 includes a concave guide portion 2j that guides the shaft portion 3b of the mounting portion 3 in the cross direction D1.

  In the force applying portion 5, one end of the elastic portion 5 a is connected to the base end wall 2 b of the main body 2, and the other end of the elastic portion 5 a is connected to the base end 3 d of the mounting portion 3. ing. When the mounting portion 3 is in the stopped state, the elastic portion 5a is elastically deformed so as to extend in the cross direction D1.

  Then, when the rope tester 22 receives a force from the rope 32, as shown in FIG. 14, the stopping portion 2i comes out of the insertion hole 3i as the mounting portion 3 moves in the vertical direction D3. That is, the mounting portion 3 switches from the stopped state to the released state. As a result, the stop portion 2i is separated from the insertion hole 3i, and the elastic portion 5a is restored to contract.

  As a result, the mounting portion 3 moves in the cross direction D1 (right direction in FIG. 14). After the rope tester 22 separates from the rope 32, the supported portion 3g of the mounting portion 3 slides on the bottom 2h of the main body 2, so that the mounting portion 3 moves stably in the cross direction D1.

(3) In the mounting device 1 according to the above embodiment, the force applying portion 5 includes the elastic portion 5a, and the elastic portion 5a is elastically deformed so as to contract when stopped. It is. However, the mounting device 1 is not limited to such a configuration.

  For example, as shown in FIGS. 13 to 15, in the force applying portion 5, the elastic portion 5 a may be elastically deformed so as to extend in a stopped state. In addition, for example, as shown in FIG. 16, the force applying portion 5 may apply a force to the mounting portion 3 by the weight 5b. In addition, for example, as shown in FIGS. 17 and 18, the force applying unit 5 may have a configuration in which a force is applied to the mounting unit 3 by a driving source 5c.

  The configuration in which the force applying portion 5 according to the above-described embodiment and FIGS. 13 to 16 applies a force to the mounting portion 3 not only when the mounting portion 3 is released but also when the mounting portion 3 is stopped. It is. On the other hand, the force applying portion 5 according to FIGS. 17 and 18 does not apply force to the mounting portion 3 when the mounting portion 3 is stopped, and only when the mounting portion 3 is released, 3 is applied. The configuration according to FIGS. 15 to 18 will be described below.

(3-1) In the force applying portion 5 according to FIG. 15, one end of the elastic portion 5a is connected to the base end wall 2b of the main body 2, and the other end of the elastic portion 5a is connected to the connecting portion. 4 is connected to the base wall 4b. Then, as shown in FIG. 15, when the mounting portion 3 is in the stopped state, the elastic portion 5a is elastically deformed so as to extend in the cross direction D1.

  According to such a configuration, when the rope tester 22 receives a force from the rope 32, the elastic portion 5a is restored to contract when the attachment portion 3 is switched from the stopped state to the released state, so that the elasticity of the elastic portion 5a is reduced. A restoring force is applied to the connection 4. As a result, the mounting portion 3 moves integrally with the connecting portion 4 in the cross direction D1 (right direction in FIG. 15).

(3-2) The force applying portion 5 according to FIG. 16 includes a weight 5b, a string 5d having one end connected to the weight 5b and the other end connected to the base end wall 4b of the connection portion 4. And a rotating part 5e on which the cord body 5d is hung and rotatably connected to the base end wall part 2b of the main body part 2. The gravitational force of the weight 5b is applied to the connecting portion 4 in the cross direction D1 (rightward in FIG. 16). According to such a configuration, when the rope tester 22 receives a force from the rope 32 and is switched from the stopped state to the released state of the attachment part 3, the attachment part 3 is integrated with the connection part 4, It moves in the cross direction D1 (right direction in FIG. 16).

(3-3) The force applying unit 5 according to FIGS. 17 and 18 is moved in the cross direction D1 by the driving source 5c and the driving source 5c, and the end is connected to the base end wall 4b of the connection unit 4. And a cylinder 5f. 17 and 18, the drive source 5c is a (electromagnetic, pneumatic, hydraulic) cylinder device, but is not particularly limited, and may be, for example, a motor.

  Further, the mounting device 1 includes a detection unit (for example, a photoelectric sensor) 7 that detects that the mounting unit 3 has moved in the vertical direction D3. In such a configuration, the switching unit 6 is configured to operate the drive source 5c based on the detection of the detection unit 7 in a state in which the drive source 5c is not operated (in a stopped state) and a state in which the drive source 5c is operated (release of the mount unit 3). State). Then, a signal is input from the detection unit 7 to the switching unit 6 (control unit), and a signal is output from the switching unit 6 (control unit) to the driving unit 5c.

  According to such a configuration, as illustrated in FIG. 17, when the detecting unit 7 does not detect the movement of the mounting unit 3 in the vertical direction D3, the switching unit 6 (control unit) stops the mounting unit 3. State. As a result, since the drive source 5c does not operate, the force applying unit 5 does not apply a force to the connection unit 4.

  When the detecting unit 7 detects the movement of the mounting unit 3 in the vertical direction D3 as shown in FIG. 18 by the rope tester 22 receiving the force from the rope 32, the switching unit 6 (control unit) Then, the mounting portion 3 is switched to the release state. As a result, the drive source 5c operates, and the cylinder 5f moves in the cross direction D1 (rightward in FIG. 18). Therefore, since the force applying section 5 applies a force to the connecting section 4, the mounting section 3 moves integrally with the connecting section 4 in the cross direction D <b> 1 (the right direction in FIG. 18).

(4) In the mounting device 1 according to the embodiment, the switching unit 6 includes a conversion unit 6b that converts the movement of the mounting unit 3 in the up-down direction D3 into the movement of the stop unit 6a. is there. However, the mounting device 1 is not limited to such a configuration. For example, the configuration may be such that the stop portion is provided in the main body portion 2, or the configuration may be such that the stop portion 3 f is provided in the attachment portion 3 as shown in FIGS. 19 and 20. . The configuration according to FIGS. 19 and 20 will be described below.

  In the mounting device 1 according to FIGS. 19 and 20, as shown in FIG. 19, the mounting portion 3 includes a stop portion 3f that protrudes from the mounting main body 3a in the second lateral direction D2. The connecting portion 4 has recesses 2g, 4i for accommodating the stopping portions 3f in the side walls 2c, 2d, 4c, 4d, respectively. When the mounting portion 3 is in the stopped state, the stopping portion 3f is housed in the recesses 2g and 4i, and is stopped by the recess 2g in the cross direction D1.

  Then, when the rope tester 22 receives a force from the rope 32, as shown in FIG. 20, the mounting portion 3 moves in the up-down direction D3, and the stopping portion 3f comes out of the concave portions 2g, 4i. That is, the mounting portion 3 switches from the stopped state to the released state. As a result, the stopping portion 3f moves away from the concave portion 2g, so that the mounting portion 3 and the connecting portion 4 move in the cross direction D1 (the right direction in FIG. 20).

(5) Further, in the mounting device 1 according to the above embodiment, the distal end portion 3c of the mounting portion 3, that is, a part moves in the vertical direction D3. However, the mounting device 1 is not limited to such a configuration. For example, a configuration in which the entire mounting portion 3 moves (rotates and translates) in the vertical direction D3 may be used.

(6) In the mounting device 1 according to the above-described embodiment, the vertical direction D3 in which the mounting portion 3 moves by the force from the rope 32 is a curved direction (curved direction) along the vertical direction. Configuration. However, the mounting device 1 is not limited to such a configuration. For example, the vertical direction D3 in which the attachment portion 3 moves by the force from the rope 32 may be a linear direction parallel to the vertical direction, or may be a linear direction inclined with respect to the vertical direction. , May be used.

(7) In the mounting device 1 according to the embodiment, when the mounting portion 3 moves upward, the mounting portion 3 is moved by the force applying portion 5 so that the rope tester 22 is separated from the rope 32. This is the configuration. However, the mounting device 1 is not limited to such a configuration. For example, the configuration may be such that when the mounting portion 3 moves in at least one of the upward direction and the downward direction, the mounting portion 3 is moved by the force applying portion 5 so that the rope tester 22 is separated from the rope 32. .

(8) Further, in the mounting device 1 according to the embodiment, the force applying section 5 applies a force to the mounting section 3 in the cross direction D1. However, the mounting device 1 is not limited to such a configuration. For example, the force applying section 5 may apply a force to the mounting section 3 in the vertical direction D3.

(9) Further, in the rope tester system 20 according to the above-described embodiment, the moving device 24 of the rope tester device 21 is configured to be mounted on the mounting portion 3. However, the rope tester system 20 is not limited to such a configuration.

  For example, the configuration may be such that the rope tester support 23 is attached to the attachment portion 3, or, for example, the configuration may be such that the rope tester 22 is attached to the attachment portion 3. That is, the rope tester device 21 may be configured not to include at least one of the rope tester support 23 and the moving device 24.

DESCRIPTION OF SYMBOLS 1 ... Mounting | wearing apparatus, 2 ... Body part, 2a ... Tip wall part, 2b ... Base wall part, 2c ... Side wall part, 2d ... Side wall part, 2e ... Guide part, 2f ... Insertion hole, 2g ... Depression, 2h ... Bottom part Reference numeral 2i: Stop portion, 2j: Guide portion, 3: Mounting portion, 3a: Mounting body, 3b: Shaft portion, 3c: Tip portion, 3d: Base end portion, 3e: Slide hole, 3f: Stop portion, 3g: Cover Supporting portion, 3h connecting portion, 3i inserting hole, 4 connecting portion, 4a distal end wall portion, 4b proximal end portion, 4c side wall portion, 4d side wall portion, 4e base portion, 4f guided Part, 4g slide hole, 4h insertion hole, 4i recess, 5 force part, 5a elastic part, 5b weight, 5c drive source, 5d string, 5e rotating part, 5f cylinder, 6 switching section, 6a stopping section, 6b converting section, 6c link mechanism, 6d link body, 6e link, 6f first sliding section, 6g 2 slide unit, 7 detection unit, 20 rope tester system, 21 rope tester device, 22 rope tester, 22a groove, 23 rope support device, 24 moving device, 24a first moving unit, 24b ... Second moving unit, 24c driving source, 24d driving source, 24e moving mechanism, 24f moving mechanism, 25 fixed unit, 26 support unit, 30 elevator, 31 cage, 32 rope, 33 Balancing weight, 34: hoisting machine, 34a: sheave, D1: first horizontal direction (crossing direction), D2: second horizontal direction, D3: vertical direction, X1: machine room, X2: hoistway

Claims (5)

A rope tester device having a rope tester that is pressed against a rope of an elevator, the mounting device of the rope tester device,
A main body fixed to the structure,
An attachment portion to which the rope tester device is attached, and which is movable in a vertical direction,
A force applying section for applying a force to the attachment section so that the rope tester is separated from the rope;
A switching unit that switches from a stop state in which the attachment unit stops moving by the force of the force applying unit to a release state in which the attachment unit moves up and down to release the stop. Mounting equipment for tester equipment. The mounting portion is also movable in an intersecting direction intersecting the vertical direction,
The force section applies the force in the cross direction to the mounting section,
The switching unit includes a stop unit that is stopped in the cross direction by the main body unit or the mounting unit,
The attachment device of the rope tester device according to claim 1, wherein the stop portion separates from the main body portion or the attachment portion as the attachment portion moves vertically. Further comprising a connecting portion for connecting the body portion and the mounting portion,
The attachment portion is connected to the connection portion so as to be movable in the vertical direction with respect to the connection portion,
The connection unit is connected to the main body so as to be movable in the cross direction with respect to the main body,
The mounting device of the rope tester device according to claim 2, wherein the force applying unit applies the force in the cross direction to the connection unit. A link mechanism for connecting the attachment portion and the connection portion,
The connecting portion includes a base portion facing the mounting portion in the up-down direction and connected to a link mechanism,
The link mechanism includes first and second link bodies rotatably connected to each other at an intermediate portion therebetween.
One end of each of the first and second link bodies is slidably connected to the mounting portion in a lateral direction,
The mounting device of the rope tester device according to claim 3, wherein the other end of each of the first and second link bodies is slidably connected to the base in the lateral direction. A rope tester device having a rope tester pressed against an elevator rope,
A rope tester system, comprising: the mounting device according to any one of claims 1 to 4, to which the rope tester device is mounted.

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