KR20100004957A - Elevator rope end device and rope device - Google Patents

Abstract

A rope end device for elevator is united with an elevator rope end. The elevator rope consists of a core rope and, disposed on the outer circumferential portion thereof, multiple outer-layer strands. The rope end device has a socket and a sleeve fixed at an end portion of the core rope and disposed within the socket. The socket is provided with a socket taper hole with tapered cross section. The sleeve is provided with a sleeve outer circumferential surface with tapered cross section capable of holding an end portion of outer-layer strand between the same and the inner wall surface of the socket taper hole.

Description

Rope terminal device and rope device of an elevator {ELEVATOR ROPE END DEVICE AND ROPE DEVICE}

The present invention relates to an elevator rope terminal device coupled to a rope terminal of an elevator rope and an elevator rope device formed by coupling a rope terminal device to an elevator rope.

Many conventional elevators have used elevator ropes containing eight or six strands. Moreover, the diameter of the sheave was set to 40 times or more of the diameter of the elevator rope in order to prevent premature wear and disconnection of the elevator rope and the sheave which the elevator rope winds.

On the other hand, in recent years, it is considered that reduction of the number of ropes and small reduction of the sheave are desirable due to the improvement in strength and bending fatigue properties of elevator ropes. For this reason, the elevator rope which enlarged the mounting area by increasing the number of strands, reducing the diameter of the wire which comprises a strand, and multilayering a cross-sectional structure. Is being proposed.

On the other hand, in the rope terminal device of the conventional elevator (socket) is fixed to the rope terminal by a Babbitt metal filling method or a sleeve (sleeve) crimping method. In the Babbitt metal filling method, the ends of all strands are folded and piled together, inserted into a taper hole in the socket, and the molten Babbitt metal is poured into the taper hole for hardening. Moreover, in the sleeve crimping method, after the sleeve in which the taper-shaped part was formed in the outer peripheral part is crimped | bonded to a rope terminal, the taper-shaped part of a sleeve is fitted to the taper hole of a socket (for example, refer patent document 1).

Patent Document 1: Japanese Patent Application Laid-Open No. 2002-211857

Problems to be Solved by the Invention

In the conventional Babbitt metal filling type rope terminal device as described above, when the number of strands is large, it takes considerable time and effort to fold the ends of the strands, and to insert the ends of all the strands that are bent. The socket becomes larger. In addition, in the conventional sleeve crimping rope terminal device, when the rope diameter is large, a large crimping device is required, which increases the cost of the crimping device and secures a large work space at the rope construction site. A need arises.

The present invention has been made to solve the above problems, and an object of the present invention is to obtain an elevator rope terminal device and a rope device which can prevent the enlargement of the socket and at the same time easily connect the socket to the rope terminal.

Means for solving the problem

The rope terminal device of an elevator according to the present invention is fixed to a rope terminal of an elevator rope having a core rope including a plurality of core rope strands and a plurality of outer layer strands disposed on an outer circumference of the core rope. Core tape insertion hole into which the outer peripheral surface of the taper-shaped cross section which supports the end of an outer layer strand between the socket which has a taper-shaped socket taper hole, and the inner wall surface of a socket taper hole, and an end of a core rope are inserted And a sleeve fixed to the end of the core rope and disposed in the socket taper hole.

An elevator rope device according to the present invention includes a rope terminal device fixed to a rope terminal of an elevator rope and an elevator rope having a core rope including a plurality of core rope strands and a plurality of outer layer strands disposed on an outer circumference of the core rope. The rope terminal device includes a socket having a socket tapered hole having a tapered end face and a sleeve outer peripheral surface having a tapered end face, a core rope insertion hole into which an end of the core rope is inserted, and a sleeve disposed in the socket taper hole. The end of the outer layer strand is sandwiched between the inner wall surface of the socket taper hole and the sleeve outer peripheral surface, and the sleeve is fixed to the end of the core rope.

BRIEF DESCRIPTION OF THE DRAWINGS It is a side view which shows the principal part of the elevator by Embodiment 1 of this invention.

2 is a cross-sectional view of the elevator rope of FIG.

3 is a side view illustrating the coupling part of FIG. 1.

FIG. 4 is a front view illustrating the coupling unit viewed in the arrow IV direction of FIG. 3.

FIG. 5 is a side view illustrating a state in which the coupling portion is coupled to the elevator rope of FIG. 3. FIG.

It is a side view which shows the coupling part of the rope apparatus of the elevator by Embodiment 2 of this invention.

FIG. 7 is a front view illustrating the coupling unit viewed from the arrow Ⅶ direction of FIG. 6.

FIG. 8 is a side view illustrating a state in which the coupling portion is coupled to the elevator rope of FIG. 6. FIG.

Fig. 9 is a side view showing the engaging portion of the rope device of an elevator according to Embodiment 3 of the present invention.

FIG. 10 is a front view illustrating the coupling unit viewed in the arrow X direction of FIG. 9. FIG.

It is a front view which shows the coupling part of the rope apparatus of the elevator by Embodiment 4 of this invention.

Preferred Mode for Carrying Out the Invention

EMBODIMENT OF THE INVENTION Hereinafter, preferred embodiment of this invention is described with reference to drawings.

Embodiment 1.

BRIEF DESCRIPTION OF THE DRAWINGS It is a side view which shows the principal part of the elevator by Embodiment 1 of this invention. In the figure, the rope connecting portion 1 is provided, for example, in a car, a balance weight, or an upper part of a hoistway (however, in the case of the upper part of the hoistway, FIG. 1 is in the up and down reverse direction). The rope 2 for elevator which hangs a car and a balance weight in the hoistway is connected to the rope connection part 1 via the rope terminal apparatus 3. The rope device is constituted by coupling the rope terminal device 3 to the rope terminal of the elevator rope 2.

The rope terminal device 3 comprises a coupling part 4, a connecting pin 5, a rod part 6, a spring seat 7, a main nut 8, a stop nut 9 and compression It has a coil spring 10. Coupling portion 4 is coupled to the rope terminal of the elevator rope (2). The rod part 6 is rotatably connected to the coupling part 4 via the connecting pin 5. In addition, the rod part 6 penetrates the rope connection part 1.

The thread part 6a is formed in the edge part on the opposite side to the engaging part 4 of the rod part 6. The spring sheet 7 is penetrated by the screw portion 6a. The main nut 8 and the stop nut 9 are screwed onto the threaded portion 6a and restrict the displacement of the spring sheet 7 in a direction away from the rope connecting portion 1. The compression coil spring 10 is arrange | positioned between the rope connection part 1 and the spring seat 7.

2 is a cross-sectional view of the elevator rope 2 of FIG. The elevator rope 2 has a core rope 11 and a plurality of outer layer strands 12 (12 in FIG. 2) disposed on the outer circumference of the core rope 11. The outer layer strands 12 are twisted to the outer circumferential portion of the core rope 11.

The core rope 11 includes a core strand 13, which is a core rope strand disposed at the center thereof, and a plurality of inner layer strands (6 in FIG. 2), which are core rope strands twisted at the outer circumference of the center strand 13 ( 14) The strands 12, 13, and 14 are each constituted by twisting a plurality of strands of steel.

FIG. 3 is a side view showing the coupling part 4 of FIG. 1, and FIG. 4 is a front view showing the coupling part 4 seen from the arrow IV direction of FIG. The engaging portion 4 has a cylindrical socket 15 and a sleeve 16 disposed in the socket 15. The socket 15 has a socket taper hole 15a having a tapered cross section. The diameter of the socket taper hole 15a is continuously reduced toward one end of the socket 15.

The sleeve 16 has a sleeve outer peripheral surface 16a having a cross section tapered shape and a sleeve taper hole 16 b having a cross section tapered shape as a core rope insertion hole into which an end of the core rope 11 is inserted. Moreover, the sleeve 16 is arrange | positioned in the socket taper hole 15a.

The end of the outer layer strand 12 is released from the outer peripheral portion of the core rope 11 and is sandwiched between the inner wall surface of the socket taper hole 15a and the sleeve outer peripheral surface 16a. The ends of the central strand 13 and the inner layer strand 14 are unfolded and folded to be accommodated in the sleeve taper hole 16b. In the sleeve taper hole 16b, a babbitt metal 17 as a fusion metal is fused. As a result, the sleeve 16 is fixed to the end of the core rope 11.

The core rope fixing tool 18 which tightly tightens the outer peripheral part of the core rope 11 is provided in the lead-out part from the sleeve 16 of the core rope 11. Moreover, the elevator rope fixing tool 19 which tightens the outer peripheral part of the elevator rope 2 is provided in the lead-out part from the socket 15 of the elevator rope 2.

Next, the coupling method of the coupling part 4 to the rope terminal of the elevator rope 2 is demonstrated. First, the rope terminal of the elevator rope 2 is inserted into the socket 15. Next, the edge part of the outer layer strand 12 is unwound by predetermined length, and is extended.

Thereafter, the exposed end of the core rope 11 is inserted through the sleeve 16. Next, the ends of the center strand 13 and the inner layer strand 14 are unwrapped by a predetermined length. Then, the ends of the center strand 13 and the inner layer strand 14 are folded and accommodated in the sleeve taper hole 16b. Thereafter, the molten Babbitt metal is poured into the sleeve taper hole 16b and cured. As a result, the end of the core rope 11 is fixed to the sleeve 16. 5 shows a state at this time.

From the state of FIG. 5, the loosened outer layer strands 12 are evenly arranged on the outer periphery of the sleeve 16, and the rope terminal of the elevator rope 2 is pulled into the socket 15. Thereby, the edge part of the outer layer strand 12 is firmly fixed to the socket 15 by the wedge effect of the socket taper hole 15a and the sleeve 16. As shown in FIG.

Here, in order to more secure the outer layer strand 12, at least one of the inner wall surface of the socket taper hole 15a and the sleeve outer circumferential surface 16a is compression-deformed by the outer layer strand 12, and the concave resulting from deformation It is preferable that outer layer strand 12 penetrates into a part. To this end, for example, the sleeve 16 is made of a material having a sufficiently low hardness (material softer than the outer layer strands 12), for example, mild steel (SS400, etc.), compared to the material of the element wire constituting the outer layer strands 12. It is preferable to construct.

In the rope terminal device and the rope device of such an elevator, the diameter of the core rope 11 fixed by the Babbitt metal filling method is smaller than the diameter of the entire elevator rope 2, and the number of strands of the core rope 11 is for the elevator. Since the number of strands of the entire rope 2 is smaller, the core rope 11 can be fixed to the sleeve 16 without requiring a large amount of working time by using the compact sleeve 16. In addition, since the outer layer strands 12 are fixed in the socket 15 by the wedge effect without having to bend, the enlargement of the socket 15 can be prevented.

Embodiment 2.

Next, FIG. 6 is a side view showing the engaging portion of the rope device of the elevator according to the second embodiment of the present invention, FIG. 7 is a front view showing the engaging portion seen from the arrow Ⅶ direction of FIG. 6, and FIG. 8 is the elevator rope of FIG. 6. It is a side view which shows the state in the middle of engaging a coupling part. In the figure, the engaging part 4 in Embodiment 2 has the same socket 15 and the sleeve 21 arrange | positioned in the socket 15 as Embodiment 1. In FIG.

The sleeve 21 has a sleeve outer peripheral surface 21a having a tapered cross section and a core rope insertion hole 21b into which an end of the core rope 11 is inserted. The diameter of the core rope insertion hole 21b is equal over the whole length. The sleeve 21 is disposed in the socket taper hole 15a.

The edge part of the outer layer strand 12 is unwound from the outer peripheral part of the core rope 11, and is clamped between the inner wall surface of the socket taper hole 15a, and the sleeve outer peripheral surface 21a. The end of the core rope 11 is accommodated in the core rope insertion hole 21b while being untwisted and twisted. And, the sleeve 21 is pressed to the end of the core rope (11). The other configuration is the same as that in the first embodiment.

In the rope terminal device and the rope device of such an elevator, the sleeve 21 is crimped to the core rope 11, so that the core rope 11 can be easily fixed to the sleeve 21 without requiring much working time. Can be. Moreover, since the diameter of the core rope 11 is smaller than the diameter of the whole elevator rope 2, the compact sleeve 21 can be used and it can cope with a compact crimping apparatus. In addition, since the outer layer strands 12 are fixed in the socket 15 by the wedge effect without having to bend, the enlargement of the socket 15 can be prevented.

Embodiment 3.

Next, FIG. 9 is a side view which shows the engaging part of the rope apparatus of the elevator by Embodiment 3 of this invention, and FIG. 10 is a front view which shows the engaging part seen from the arrow X direction of FIG. In the figure, the filling layer 22 made of the material softer than the outer layer strand 12 and the socket 15 is formed in the socket taper hole 15a. The filling layer 22 is arrange | positioned so that the inner wall surface of the socket taper hole 15a may be covered, and it has the same thickness. The outer layer strand 12 is sandwiched between the filling layer 22 and the sleeve outer circumferential surface 16a. The other configuration is the same as that in the first embodiment.

In the rope terminal device and the rope device of such an elevator, by forming the filling layer 22 in the socket taper hole 15a, the load burden on the outer layer strand 12 and the core rope 11 at the coupling portion 4 is further increased. It becomes even, and high fastening strength can be obtained.

In addition, the filling layer 22 can be comprised, for example from materials, such as mild steel or a zinc alloy.

Moreover, even if the filling layer 22 previously formed into a conical shape is inserted in the socket taper hole 15a, you may form the filling layer 22 by flowing molten material in the socket taper hole 15a, and hardening it.

In addition, you may arrange | position the filling layer 22 shown in Embodiment 3 in the socket taper hole 15a of Embodiment 2. As shown in FIG.

Embodiment 4.

Next, FIG. 11 is a front view which shows the engaging part of the rope apparatus of the elevator by Embodiment 4 of this invention. In the figure, a plurality of spiral grooves (the same number as the outer layer strands 12) receiving the outer layer strands 12 are formed in the sleeve outer circumferential surface 16a. The grooves 16c are arranged at equal intervals in the circumferential direction of the sleeve 16. The cross-sectional shape of the bottom surface of each groove | channel 16c is circular arc shape with a curvature radius larger than the outer peripheral surface of the outer layer strand 12. As shown in FIG. The other configuration is the same as that in the first embodiment.

In such a rope terminal device and a rope device of the elevator, since the grooves 16c are formed evenly on the outer circumferential surface 16a of the sleeve, the outer layer strands 12 can be easily equalized, and the outer layer strands 12 are loaded. Can be equally burdened.

In addition, the groove 16c may be a straight line parallel to the axis line of the sleeve 16.

Moreover, you may form the groove | channel which receives the outer layer strand 12 in the inner peripheral surface of the socket taper hole 15a.

Moreover, you may arrange | position the filling layer 22 shown in Embodiment 3 in the socket taper hole 15a of Embodiment 4. As shown in FIG.

Furthermore, the cross-sectional structure of the elevator rope is not limited to the structure shown in FIG. 2, and may be another structure as long as the rope terminal can be divided into a core rope and an outer layer strand. For example, you may have a structure containing three or more layers, a structure containing the auxiliary strand of a smaller diameter than an outer layer strand and an inner layer strand.

In this way, the present invention can be used in the rope device of the elevator coupled to the rope terminal of the elevator rope and the rope device of the elevator formed by coupling the rope terminal device to the elevator rope.

Claims (11)

An elevator rope coupled to a rope terminal of an elevator rope having a core rope including a plurality of core rope strands and a plurality of outer layer strands disposed on an outer periphery of the core rope. As a terminal device, A socket having a taper-shaped socket taper-hole of a cross section; and And a core tape insertion hole into which an end portion of the core rope is inserted, and an outer peripheral surface of a sleeve having a cross-sectional taper shape sandwiching an end portion of the outer layer strand between the inner wall surface of the socket taper hole. An elevator rope terminal device having a sleeve fixed to an end and disposed in the socket taper hole. The method according to claim 1, The core rope insertion hole is an elevator rope terminal device of the tapered sleeve taper of the cross section. The method according to claim 1, A rope terminal device of an elevator, formed in the socket taper hole, further comprising a filling layer made of the outer layer strand and the material softer than the socket. The method according to claim 1, The rope terminal device of the elevator is formed with a plurality of grooves receiving the outer layer strands on the sleeve outer peripheral surface. The method according to claim 4, The groove of the elevator rope terminal device is formed in a spiral shape on the outer peripheral surface of the sleeve. An elevator rope having a core rope including a plurality of core rope strands, and a plurality of outer layer strands disposed on an outer circumference of the core rope. An elevator rope device having a rope terminal device coupled to a rope terminal of the elevator rope, The rope terminal device, A socket having a socket taper hole in the shape of a single-sided taper, and A sleeve disposed in the socket taper hole, the sleeve taper having an outer circumferential surface of a cross section tapered and a core rope insertion hole into which an end of the core rope is inserted; An end portion of the outer layer strand is sandwiched between the inner wall surface of the socket taper hole and the sleeve outer peripheral surface, The sleeve rope device of the elevator is fixed to the end of the core rope. The method according to claim 6, The core rope insertion hole is a sleeve taper hole of a cross section taper shape, An end of the core rope strand is folded and accommodated in the sleeve taper hole, and the rope device of an elevator in which a fusion metal is fused. The method according to claim 6, The sleeve is an elevator rope device that is pressed to the end of the core rope. The method according to claim 6, At least one of the inner wall surface of the said socket taper hole and the outer peripheral surface of the said sleeve is compression-deformed by the said outer layer strand, The rope apparatus of the elevator. The method according to claim 6, And said sleeve is made of a softer material than said outer layer strands. The method according to claim 6, The outer layer strands are rope devices of an elevator disposed at equal intervals from each other.

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