JP2010018378A - Fastening device for temporarily fastening rope of elevator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fastening device for temporarily fastening a rope of an elevator capable of stably fastening the rope by always fastening the rope by prescribed pressure without using a special tool and depending on intuition and skill of a worker. <P>SOLUTION: In this fastening device, the rope 2 is passed between a base material 1 and a pressing member 3, and the rope 2 is pressed by the pressing member 3 and is press-bonded to the base material 1 to be temporarily fastened. A bar material 10 is inserted from the base material 1 to the pressing member 3, a coil spring 13 is mounted on an outer periphery of the bar material 10, a bolt 15 is screwed into an end face of the bar material 10, and the coil spring 13 is elastically compressed and deformed by screwing of the bolt 15. The pressing member 3 is pressed by spring force due to the compression and deformation to press-bond the rope 2 to the base material 1. Proper pressurizing force is applied to the rope 2 by a compression dimension L of the coil spring 13 when a head part 16 of the bolt 15 is screwed till the bolt 15 abuts on the end face of the bar material 10. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a fastening device for temporarily fixing a rope that fastens and holds a rope as an elevator article for temporarily fixing at the time of installation or maintenance inspection of the elevator.

  Various ropes are used for the elevator. When the elevator is installed, each rope is pulled around while being temporarily fixed at various positions, and is stretched over to a predetermined position. Also, at the time of maintenance inspection, maintenance inspection work is carried out while temporarily fixing each rope at various positions.

For temporarily fixing the rope, a fastening device for fastening and holding the rope is used. Such a fastening device is disclosed in, for example, Japanese Patent Application Laid-Open Nos. 2003-12252 and 2006-264871. These fastening devices have a structure in which a rope is crimped and held with pressure by tightening a bolt.
JP 2003-12252 A JP 2006-264871 A

  As described above, the conventional fastening device has a structure in which a rope is crimped and fastened with pressure by tightening a bolt. Therefore, when the bolt tightening force is directly applied to the rope and the tightening force becomes excessive, the rope There is a risk of damage to the strands. Therefore, a bolt tightening operation is managed using a dedicated tool such as a torque wrench so that the bolt tightening force becomes a predetermined value.

  However, if a special tool is prepared each time the rope is temporarily fixed, the workability is lowered. If you use a general-purpose tool, you can work efficiently. There is a risk of breaking the wire.

  The present invention has been made paying attention to such points, and the purpose thereof is to always tighten the rope with a predetermined pressure without using a dedicated tool or relying on the operator's intuition or skill. It is an object of the present invention to provide an elevator rope temporary fastening device that can be fastened stably.

  In order to achieve such an object, the invention of claim 1 includes a base material fixed at a predetermined position, and a pressing member provided facing the base material, the base material and the pressing member, In an elevator rope temporary fixing fastening device that passes a rope between and presses the rope with the pressing member and presses the rope against the base material to temporarily fix the elastic member, the elastic member includes an elastic member, and repulsion due to elastic deformation of the elastic member A pressurizing unit that pressurizes the pressing member with force and presses the rope against the base material, and a tightening unit that can change the amount of elastic deformation of the elastic member by moving the tightening member And a restricting means for restricting the position of movement of the fastening member to a predetermined position where a repulsive force based on elastic deformation of the elastic member is such that the rope is pressed against the base material with a predetermined pressure. And comprising It is a symptom.

  According to a second aspect of the present invention, a bar material is inserted from the base material to the pressing member, a coil spring is mounted as an elastic member on the outer periphery of the bar material, and a bolt is screwed into the end surface of the bar material as a fastening member The coil spring is elastically compressed and deformed by the screwing of the bolt, the pressing member is pressed by the repulsive force of the compressive deformation, the rope is pressed against the base material, and the movement position by the screwing of the bolt However, the head of the bolt is restricted to a predetermined position by contacting the end face of the bar.

  According to a third aspect of the present invention, a stepped bolt is inserted as a fastening member from the pressing member to the base material, and a threaded portion at the tip of the stepped bolt is screwed into the base material. A coil spring is mounted as an elastic member between the head of the stepped bolt and the pressing member on the outer periphery, and the coil spring is elastically compressed and deformed by screwing the stepped bolt, and a repulsive force due to the compression deformation. When the pressing member is pressed, the rope is crimped to the base material, and the position of movement by screwing the stepped bolt is brought into a predetermined position by the stepped portion of the stepped bolt coming into contact with the base material. It is characterized by being regulated.

  According to a fourth aspect of the present invention, a stepped bolt is inserted from the base material to the pressing member, and a wing nut is screwed as a fastening member to a threaded portion of the tip of the stepped bolt. A coil spring is mounted as an elastic member between the nut and the pressing member on the outer periphery, and the coil spring is elastically compressed and deformed by screwing the wing nut, and the pressing member is pressed by a repulsive force due to the compressive deformation. The rope is crimped to the base material, and the position of movement of the wing nut by screwing is regulated to a predetermined position by the wing nut abutting against the stepped portion of the stepped bolt. Yes.

  According to a fifth aspect of the present invention, a pair of stepped guide bars are inserted from the pressing member to the base material, and the guide bars are coupled to each other via a pressing plate on the outer surface side of the pressing member. A headless bolt is attached to the outer surface of the member, the headless bolt penetrates the push plate and projects to the outer surface side of the push plate, and a nut is screwed to the projecting portion as a fastening member, A coil spring is mounted as an elastic member on the outer periphery of the headless bolt between the push plate, and the push plate and the pair of guide rods move together as the nut is screwed in, and the coil spring is elastically moved. Compressive deformation, the pressing member is pressed by the repulsive force of the compressive deformation, the rope is crimped to the base material, the position of movement by screwing the nut is the front It is characterized in that stepped portions of the pair of guide rods is regulated in position by contact with the base material.

  In the invention of claim 6, a striped bolt with a striped pattern that functions as a scale is inserted into the threaded portion from the base material to the pressing member, and a nut is inserted into the threaded portion at the tip of the striped bolt. And a coil spring is mounted as an elastic member between the nut and the pressing member on the outer periphery of the striped bolt, and the coil spring is elastically compressed and deformed by the screwing of the nut. The pressing member is pressed by the repulsive force, and the rope is crimped to the base material, and the position of the movement by screwing the nut is determined by visual positioning based on the striped pattern of the threaded portion of the striped bolt. It is characterized by being restricted by position.

  According to the seventh aspect of the present invention, a stepped bolt is inserted as a fastening member from the pressing member to the base material, and a threaded portion at the tip of the stepped bolt is screwed into the base material. A block member made of an elastic material is mounted as an elastic member between the head of the stepped bolt and the pressing member on the outer periphery, and the block member is elastically compressed and deformed by the screwing of the stepped bolt. The pressing member is pressed by the repulsive force due to deformation, the rope is crimped to the base material, and the position of the stepped bolt by moving the stepped bolt is in contact with the base material. It is characterized by being restricted to a predetermined position.

  According to the present invention, the rope can always be fastened stably with a predetermined pressure without using a dedicated tool or relying on the operator's intuition or skill.

  Embodiments of the present invention will be described below with reference to the drawings.

  1 and 2 show a first embodiment. FIG. 1 is an external perspective view of a fastening device for temporarily fixing a rope, and FIG. 2 is a plan view. Reference numeral 1 denotes a base material provided in an elevator hoistway, and an elevator rope 2 is temporarily fixed to the base material 1 via a pressing member 3. The base material 1 is a beam material fixed in the hoistway or a plate material attached to the beam material.

  The rope 2 is sandwiched between the base material 1 and the pressing member 3, and the inner surface of the base material 1 and the pressing member 3 has a circular arc-shaped fitting groove 4 in which a substantially half circumferential surface of the rope 2 is fitted. , 5 are formed.

  The base material 1 and the pressing member 3 are formed with through holes 8 and 9 on the left and right sides, respectively, with the rope 2 as a boundary. The through holes 8 and 9 have rods of a certain length from the outer surface side of the base material 1. The material 10 is loosely inserted. These rods 10 are made of a stepped round steel material having a head portion 11 at one end, and are inserted so that the head portion 11 abuts on the outer surface of the base material 1 and the distal end side protrudes to the outer surface side of the pressing member 3. Has been.

  A coil spring 13 is mounted as an elastic member on the outer periphery on the front end side of each bar 10 protruding to the outer surface side of the pressing member 3. Further, screw holes 14 are formed in the end surfaces on the front end side of the respective bars 10, and bolts 15 are screwed into the screw holes 14 as fastening members, respectively.

  Both end portions of each coil spring 13 abut against the outer surface of the pressing member 3 and the head portion 16 of the bolt 15 and are elastically compressed by screwing the bolt 15, and the pressing member 3 is subjected to spring force (repulsive force) by this compression. Is pressed against the base material 1, and the rope 2 is pressed against the base material 1 by this pressing force and is fixed to the base material 1.

  The compression dimension of the coil spring 13 changes depending on the screwing amount of the bolt 15, and the spring force of the coil spring 13, that is, the crimping force of the rope 2 to the base material 1 changes according to the size of the compression dimension.

  Here, in this embodiment, the spring force corresponding to the compression dimension L of the coil spring 13 when the bolt 15 is screwed and the head portion 16 abuts against the end surface on the front end side of the bar member 10 causes the rope 2 to act on the base material 1. The spring constant of the coil spring 13 is determined so that the crimping force is fixed accurately and does not damage the rope 2.

  The procedure for temporarily fixing the rope 2 to the base material 1 will be described. First, in a state where each bolt 15 is loosened, the rope 2 is passed between the base material 1 and the pressing member 3, and the base material 1 and the pressing member 3 In the fitting grooves 4 and 5. Then, each bolt 15 is screwed and moved until each head 16 comes into contact with the end face of the bar 10.

  As a result, each coil spring 13 is compressed to a predetermined dimension L, and a predetermined crimping force is applied to the rope 2 by the spring force of each coil spring 13 based on the compression dimension L, and the rope 2 is fixed to the base material 1 by crimping. Is done.

  The compression dimension L of each coil spring 13 is defined by the head 16 of each bolt 15 coming into contact with the end face of the bar 10. Since the head 16 of each bolt 15 abuts against the end face of the bar 10, the screwing position of each bolt 15 is restricted, and therefore each bolt 15 is further screwed to compress each coil spring 13 more than specified. Therefore, it is not necessary to adjust the torque when screwing each bolt 15 by using a dedicated tool or adjusting the operator's intuition, and it is always determined to be appropriate regardless of the skill of the operator. The rope 2 can be temporarily fixed to the base material 1 by the crimping force.

  3 and 4 show a second embodiment. In this embodiment, stepped bolts 20 are provided as fastening members on the left and right sides of the base material 1 and the pressing member 3 with the rope 2 as a boundary. As shown in FIG. 4, these stepped bolts 20 are formed with a screw portion 22 having a diameter smaller than the diameter of the main portion 21 at the tip of the main portion 21, and the boundary between the main portion 21 and the screw portion 22 is a stepped portion. 23.

  A screw hole 24 and a through hole 25 corresponding to each stepped bolt 20 are formed in the base material 1 and the pressing member 3. Each stepped bolt 20 is loosely inserted into the through hole 25 of the pressing member 3, the screw portion 22 at the tip is screwed into the screw hole 24 of the base material 1, and an elastic member is provided on the outer periphery of each stepped bolt 20. A coil spring 27 is attached. The coil springs 27 are disposed between the outer surface of the pressing member 3 and the heads 28 of the stepped bolts 20, and the pressing member 3 is pressed toward the base material 1 by the spring force (repulsive force) of the coil springs 27. The rope 2 is pressed against the base material 1 by this pressing force.

  And the compression dimension of each coil spring 27 changes according to the screwing amount of the screw part 22 of each stepped bolt 20 with respect to each screw hole 24 of the base material 1, and the step part 23 of each stepped bolt 20 becomes the base material 1. Appropriate pressure is applied to the rope 2 by the compression dimension L of the coil spring 13 when it is screwed into contact with the inner surface of the rope 2.

  Therefore, also in this embodiment, if each stepped bolt 20 is screwed in until the stepped portion 23 comes into contact with the base material 1, a predetermined pressure can be applied to the rope 2 without excess or deficiency. There is no need to adjust the torque when screwing 20 with a special tool or the operator's intuition, and the rope 2 is always applied to the base material 1 with a predetermined appropriate crimping force regardless of the skill of the operator. Can be temporarily fixed.

  FIG. 5 shows a third embodiment. In this embodiment, stepped bolts 30 are provided on the left and right sides of the base material 1 and the pressing member 3 with the rope 2 as a boundary. These stepped bolts 30 are loosely inserted into the through holes 31 and 32 formed in the base material 1 and the pressing member 3 from the outer surface side of the base material 1.

  The head 33 of each stepped bolt 30 abuts the outer surface of the base material 1, and a small-diameter threaded portion 35 is formed at the tip of each stepped bolt 30 via a stepped portion 34. A wing nut 36 is screwed as a member, and a coil spring 37 is mounted as an elastic member on the outer periphery of each stepped bolt 30 between the wing nut 36 and the pressing member 3, and the spring force (repulsive force) of these coil springs 37. ), The pressing member 3 is pressed toward the base material 1, and the rope 2 is pressed against the base material 1 with this pressing force.

  Then, the compression dimension of each coil spring 27 changes in accordance with the screwing amount of each wing nut 36 to the screw portion 35 of each stepped bolt 30, and each wing nut 36 abuts on the step portion 34 of each stepped bolt 30. Appropriate pressure is applied to the rope 2 by the compression dimension L of the coil spring 13 when it is screwed in.

  Therefore, also in this embodiment, if each wing nut 36 is screwed in until it abuts against the step portion 34, a predetermined pressure can be applied to the rope 2 without excess or deficiency. Therefore, the rope 2 can be temporarily fixed to the base material 1 with a predetermined appropriate crimping force regardless of the skill of the operator.

  6 to 8 show a fourth embodiment. In this embodiment, stepped guide bars 40 are provided on the left and right sides of the base material 1 and the pressing member 3 with the rope 2 as a boundary. These guide bars 40 have a large diameter portion 41 and a small diameter screw portion 42 protruding from one end portion of the large diameter portion 41, and a boundary between the large diameter portion 41 and the screw portion 42 is a stepped portion 43. ing.

  The large-diameter portion 41 is loosely inserted into the through-hole 45 formed in the pressing member 3, and the screw portion 42 is loosely inserted into the through-hole 46 formed in the base material 1, and the screw portion 42 protruding to the outer surface side of the base material 1. A nut 47 for retaining is screwed to the end.

  Between the end portion of the large diameter portion 41 projecting to the outer surface side of the pressing member 3 in one guide rod 40 and the end portion of the large diameter portion 41 projecting to the outer surface side of the pressing member 3 in the other guide rod 40. A push plate 48 is provided. The push plate 48 is fixed to the large diameter portions 41 of the both guide rods 40 by means of welding or the like, and the push plate 48 and the both guide rods 40 constitute an integral guide body 49. FIG. 7 shows the appearance of the guide body 49.

  As shown in FIG. 8, a headless bolt 50 is integrally attached to the intermediate portion on the outer surface side of the pressing member 3 by means such as welding. The headless bolt 50 is loosely inserted into a through hole 51 formed in the push plate 48 of the guide body 49, and a nut 52 is screwed as a fastening member to an end portion of the headless bolt 50 protruding to the outer surface side. It is worn.

  A coil spring 53 is mounted on the outer periphery of the headless bolt 50 as an elastic member between the pressing plate 48 and the pressing member 3, and the pressing member 3 is attached to the base material 1 side by the spring force (repulsive force) of the coil spring 53. The rope 2 is pressed against the base material 1 by this pressing force.

  Then, by screwing the nut 52, each guide bar 40 slides and moves integrally with the pressing member 3 and the coil spring 53 is compressed. That is, the compression dimension of the coil spring 53 changes in accordance with the screwing amount of the nut 52, and the compression dimension L of the coil spring 53 when screwed until the stepped portion 43 of each guide bar 40 contacts the inner surface of the base material 1. Appropriate pressure is applied to the rope 2.

  Therefore, also in this embodiment, if the nut 52 is screwed in until the stepped portion 43 of each guide bar 40 comes into contact with the inner surface of the base material 1, a predetermined pressure can be applied to the rope 2 without excess or deficiency. There is no need to adjust the torque when screwing the nut 52 with a dedicated tool or the operator's intuition, and the rope 2 is always applied to the base material 1 with a predetermined appropriate crimping force regardless of the skill of the operator. On the other hand, it can be temporarily fixed.

  FIG. 9 shows a fifth embodiment. In this embodiment, striped bolts 58 are provided on the left and right sides of the base material 1 and the pressing member 3 with the rope 2 as a boundary. These striped bolts 58 are loosely inserted into the through holes 59, 60 formed in the base material 1 and the pressing member 3 from the outer surface side of the base material 1, and the head 61 of each striped bolt 58 is the outer surface of the base material 1. The threaded portion 62 projects to the outer surface side of the pressing member 3, and the nut 63 is screwed to the projecting portion.

  Each striped bolt 58 is provided with a colored stripe pattern 65 on the screw portion 62, and the stripe pattern 65 functions as a scale so that the position of the nut 63 can be visually determined.

  Coil springs 66 are mounted as elastic members between the pressing member 3 and the nut 63 on the outer periphery of the threaded portion 62 of each striped bolt 58, and the pressing member 3 is caused by the spring force (repulsive force) of these coil springs 66. Is pressed toward the base material 1, and the rope 2 is pressed against the base material 1 with this pressing force.

  Then, the compression dimension of each coil spring 66 changes in accordance with the screwing amount of each nut 63, and the rope depends on the compression dimension L of the coil spring 66 when each nut 63 is screwed to a predetermined position indicated by the stripe pattern 65. Appropriate pressure is applied to 2.

  Therefore, also in this embodiment, if each nut 63 is screwed to a predetermined position indicated by the stripe pattern 65, a predetermined pressure can be applied to the rope 2 without excess or shortage. It is not necessary to use a special tool or adjust the operator's torque with the operator's intuition, and the rope 2 is always temporarily fixed to the base material 1 with a predetermined appropriate crimping force regardless of the operator's skill. be able to.

  FIG. 10 shows a sixth embodiment. In this embodiment, stepped bolts 70 are provided on the left and right sides of the base material 1 and the pressing member 3 with the rope 2 as a boundary. These stepped bolts 70 are integrally attached to the inner surface of the pressing member 3 by means such as welding.

  Each stepped bolt 70 is loosely inserted into a through hole 71 formed in the base material 1. A small-diameter threaded portion 73 is formed at the tip of each stepped bolt 70 via a stepped portion 72, and nuts 74 are respectively screwed to the threaded portions 73 as fastening members. A coil spring 75 is mounted as an elastic member on the outer periphery of each stepped bolt 70, and the pressing member 3 is pressed toward the base material 1 by the spring force (repulsive force) of the coil spring 75. 2 is crimped to the base material 1.

  Then, the compression dimension of each coil spring 75 changes according to the screwing amount of each nut 74 to the threaded portion 73 of each stepped bolt 70, and each nut 74 is screwed in until it abuts against the stepped portion 72 of each stepped bolt 70. An appropriate pressing force is applied to the rope 2 by the compression dimension L of the coil spring 75 at that time.

  Therefore, also in this embodiment, if each nut 74 is screwed in until it abuts against the stepped portion 72, a predetermined pressure can be applied to the rope 2 without excess or deficiency. Therefore, the torque when screwing each nut 74 is dedicated. Therefore, the rope 2 can be temporarily fixed to the base material 1 with a predetermined appropriate crimping force regardless of the skill of the operator.

  FIG. 11 shows a seventh embodiment. In this embodiment, stepped bolts 78 are provided on the left and right sides of the base material 1 and the pressing member 3 with the rope 2 as a boundary. In these stepped bolts 78, a screw portion 80 having a diameter smaller than the diameter of the main portion 79 is formed at the tip of the main portion 79, and the boundary between the main portion 79 and the screw portion 80 is a stepped portion 81.

  A screw hole 83 and a through hole 84 corresponding to each stepped bolt 78 are formed in the base material 1 and the pressing member 3. Each stepped bolt 78 is loosely inserted into the through hole 84 of the pressing member 3, and the screw portion 80 at the tip is screwed into the screw hole 83 of the base material 1.

  A pressing plate 87 is provided between the end portions of both stepped bolts 78 so as to face the pressing member 3, and a block material made of an elastic material such as rubber is used as an elastic member between the pressing plate 87 and the pressing member 3. 88 is provided. Each stepped bolt 78 passes through the push plate 87 and the block member 88 and is inserted into the through hole 84 of the pressing member 3, and the screw portion 80 is screwed into the screw hole 83 of the base material 1, thereby compressing the block member 88. The pressing member 3 is pressed toward the base material 1 by the elastic repulsive force, and the rope 2 is pressed against the base material 1 by this pressing force.

  The compression dimension of the block member 88 changes according to the screwing amount of each stepped bolt 78, and the block member 88 is screwed until the stepped portion 81 of each stepped bolt 78 contacts the inner surface of the base material 1. An appropriate pressure is applied to the rope 2 by the compression dimension L.

  Therefore, also in this embodiment, if the stepped bolts 78 are screwed in until the stepped portion 81 comes into contact with the base material 1, a predetermined pressure can be applied to the rope 2 without excess or deficiency. There is no need to adjust the torque when screwing 78 with a dedicated tool or the operator's intuition, and the rope 2 is always applied to the base material 1 with a predetermined appropriate crimping force regardless of the skill of the operator. Can be temporarily fixed.

1 is an external perspective view of a fastening device according to a first embodiment of the present invention. The top view of the fastening device. The top view of the fastening apparatus which concerns on 2nd Embodiment of this invention. The side view of the volt | bolt in the fastening device. The top view of the fastening apparatus which concerns on 3rd Embodiment of this invention. The top view of the fastening apparatus which concerns on 4th Embodiment of this invention. The perspective view of the guide body in the fastening device. The perspective view of the press member in the fastening device. The top view of the fastening apparatus which concerns on 5th Embodiment of this invention. The top view of the fastening apparatus which concerns on 6th Embodiment of this invention. The top view of the fastening apparatus which concerns on 7th Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Base material, 2 ... Rope, 3 ... Pressing member, 10 ... Bar material, 13 ... Coil spring, 15 ... Bolt, 20 ... Stepped bolt, 20 ... Bolt, 21 ... Main part, 22 ... Screw part, 23 ... Step part, 24 ... Screw hole, 27 ... Coil spring, 30 ... Stepped bolt, 34 ... Step part, 36 ... Wing nut, 37 ... Coil spring, 40 ... Guide rod, 41 ... Large diameter part, 43 ... Step part, 47 ... Nuts, 50 ... Bolts, 52 ... Nuts, 53 ... Coil springs, 58 ... Striped bolts, 61 ... Heads, 63 ... Nuts, 65 ... Striped patterns, 66 ... Coil springs, 70 ... Stepped bolts, 72 ... Step part, 74 ... nut, 75 ... coil spring, 78 ... stepped bolt, 79 ... main part, 81 ... step part, 83 ... screw hole, 88 ... block material

Claims (7)

A base material fixed at a predetermined position and a pressing member provided opposite to the base material, a rope is passed between the base material and the pressing member, and the rope is pressed by the pressing member. In an elevator rope temporary fixing fastening device that is crimped and temporarily fixed to the base material,
A pressurizing means comprising an elastic member, pressurizing the pressing member with a repulsive force due to elastic deformation of the elastic member, and crimping the rope to the base material;
A fastening means comprising a fastening member, and capable of changing an elastic deformation amount of the elastic member by movement of the fastening member;
Restriction means for restricting the position of movement of the fastening member to a predetermined position where a repulsive force based on elastic deformation of the elastic member is such that the rope is crimped to the base material with a predetermined pressure force;
A fastening device for temporarily fixing an elevator rope.   A bar is inserted from the base material to the pressing member, a coil spring is mounted as an elastic member on the outer periphery of the bar, a bolt is screwed as a fastening member to the end surface of the bar, and the bolt is screwed in. The coil spring is elastically compressed and deformed, the pressing member is pressed by a repulsive force due to the compressive deformation, the rope is pressed against the base material, and the position of movement by screwing the bolt is the head of the bolt 2. The fastening device for temporary fixing of an elevator rope according to claim 1, wherein the belt is regulated to a predetermined position by abutting against an end face of the bar.   A stepped bolt is inserted as a fastening member from the pressing member to the base material, and a threaded portion of the tip of the stepped bolt is screwed into the base material, and the stepped bolt is placed on the outer periphery of the stepped bolt. A coil spring is mounted as an elastic member between the head and the pressing member, and the coil spring is elastically compressed and deformed by screwing the stepped bolt, and the pressing member is pressed by a repulsive force due to the compressive deformation. The rope is pressure-bonded to the base material, and the position of movement of the stepped bolt by screwing is regulated to a predetermined position by the stepped portion of the stepped bolt coming into contact with the base material. The fastening device for temporarily fixing an elevator rope according to claim 1.   A stepped bolt is inserted from the base material to the pressing member, and a wing nut is screwed as a fastening member to a screw portion at the tip of the stepped bolt, and the nut and the pressing are provided on the outer periphery of the stepped bolt. A coil spring is mounted as an elastic member between the member, the coil spring is elastically compressed and deformed by screwing the wing nut, and the pressing member is pressed by a repulsive force due to the compression deformation, and the rope is The position of the movement of the wing nut by being crimped to the material and being screwed is regulated to a predetermined position by the wing nut coming into contact with a step portion of the stepped bolt. Fastening device for temporary fixing of elevator rope.   A pair of stepped guide bars is inserted from the pressing member to the base material, and these guide bars are coupled to each other via a pressing plate on the outer surface side of the pressing member, and the outer surface of the pressing member has no head. A bolt is attached, the headless bolt penetrates the pressing plate and protrudes to the outer surface side of the pressing plate, and a nut is screwed as a fastening member to the protruding portion, between the pressing member and the pressing plate. A coil spring is mounted as an elastic member on the outer periphery of the headless bolt. When the nut is screwed, the push plate and the pair of guide rods move together, and the coil spring is elastically compressed and deformed. The pressing member is pressed by the repulsive force, and the rope is crimped to the base material, and the position of the movement by screwing the nut is the position of the pair of guide rods. Part elevator rope temporary fastening Fastening device according to claim 1, characterized in that it is restricted to a predetermined position by contact with the base material.   A striped bolt with a striped pattern that functions as a scale is inserted into the threaded portion from the base material to the pressing member, and a nut is screwed onto the threaded portion at the tip of the striped bolt, and the striped A coil spring is mounted as an elastic member between the nut and the pressing member on the outer periphery of the attached bolt, and the coil spring is elastically compressed and deformed by screwing the nut, and the pressing member is repulsive by the compression deformation. The rope is pressed against the base material, and the position of movement by screwing the nut is regulated to a predetermined position by visual positioning based on the stripe pattern of the threaded portion of the striped bolt. The fastening device for temporary rope fixing of the elevator according to claim 1 characterized by things.   A stepped bolt is inserted as a fastening member from the pressing member to the base material, and a threaded portion of the tip of the stepped bolt is screwed into the base material, and the stepped bolt is placed on the outer periphery of the stepped bolt. A block material made of an elastic material is mounted as an elastic member between the head and the pressing member, and the block material is elastically compressed and deformed by screwing the stepped bolt, and the repulsive force due to the compressive deformation causes the pressing. When the member is pressed, the rope is crimped to the base material, and the position of the stepped bolt by screwing is regulated to a predetermined position by the stepped portion of the stepped bolt contacting the base material. The elevator rope temporary fastening fastening device according to claim 1.

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