KR20180057325A - Testing apparatus for wire rope durability - Google Patents

Abstract

The present invention relates to an apparatus for testing durability of a wire rope. The apparatus includes: a body frame; a first sheave fixedly installed on one side of the body frame; a second sheave provided below the first sheave; a rod device installed below the second sheave and slidably moved up and down; a weight provided under the rod device; a wire rope connected to the first sheave, the second sheave, and the rod device; and an operating device connected to the wire rope to pull or release the wire rope. As described above, according to the present invention, the wire rope is connected to each of the sheaves and the rod device, and the operating device is provided to pull or release the wire rope. The rod device is slidably moved up and down in accordance with the operation of the operating device so that durability of the wire rope can be tested with a simple structure by checking tensile strength of the wire rope. Thus, the efficiency of a durability test of the wire rope can be improved and the operation cost for the durability test can be minimized and the test can be safely performed.

Description

[0001] The present invention relates to a wire rope durability test apparatus,

The present invention relates to a wire rope durability tester, and more particularly to a wire rope durability tester for checking the tensile strength of a wire rope for durability test, in which the first sieve and the second sieve and the rod device interact To a wire rope durability tester capable of easily and safely testing a wire rope durability test by providing an operating structure for lifting a weight by sliding the rod device vertically up and down to check the tensile strength of the wire rope .

Generally, metal wire rope is widely used in a wide range of fields such as machinery, construction, ships, fishing, mining, bridges, elevators including aerial cables.

The basic structure of the wire rope will be described. A typical wire rope R has a structure in which a plurality of outer-layer strands are twisted to the outside of the core or the center located inward. At this time, each outer layer strand has a structure in which strands of a plurality of strands are stranded at a predetermined pitch around one strand of core wire.

In order to test the tensile strength and durability of the wire rope as described above, a tensile tester for a test piece such as a wire rope sling or a grommet was generally used.

Patent No. 918251 entitled "High Capacity Tensile Tester"

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of testing a wire rope in which, in order to test the durability of a wire rope, A wire rope connected to the first sheave, the second sheave, and the rod device portion; and a wire rope connected to the wire rope, Further comprising an operating unit connected to the rope for testing the durability of the wire rope by checking the tensile strength of the wire rope by pressing the wire rope so that the load unit slides vertically up and down according to the operation of the operating unit, A wire capable of testing various wire ropes more safely and easily by providing an operating structure for lifting the wire rope and checking the tensile strength of the wire rope. Program is to provide an endurance test equipment.

In order to achieve the above object,

A first sheave fixedly installed on one side of the main frame, a second sheave provided on a lower portion of the first sheave, a rod device slidably installed vertically up and down on the lower portion of the second sheave, A wire rope connected to the first sheave, the second sheave, and the rod device portion; and an operating device connected to the wire rope and pulling or releasing the wire rope, .

In addition, the rod device unit may include a fixed plate formed on one side of the main frame, a movable plate guided along a rail of the fixed plate, a guide sheave fixed to the movable body, and a plurality of And a support shaft having vertically arranged openings.

The operating unit may include a driving motor, a rotating body rotated by the operation of the driving motor, an operating member connected to the rotating body, a center connected to the operating member, And a connecting member provided at one end of the pivoting member and connected to the wire rope.

The operation member includes a first member having a threaded portion formed on an inner surface thereof, a second member having a threaded portion corresponding to the first member, and a second member having a threaded portion formed on the first member and the second member, And further comprising:

The pivoting member may include a first member having a threaded portion formed on an inner surface thereof and a second member having a threaded portion formed to correspond to the first member and a threaded portion of the first member and the second member, A third member having a threaded portion formed on an inner surface thereof, a fourth member having a threaded portion corresponding to the third member, and a second member having a threaded portion corresponding to the third member, And a second adjusting portion which further comprises a length adjusting member which is screwed to the threaded portion of the third member and the fourth member.

As described above, according to the present invention, there is provided an operating device for connecting a wire rope to each sheave and a load device and for pulling or releasing the outer ear rope, and the load device slides vertically up and down It is possible to test the durability of the wire rope by checking the tensile strength of various wire ropes easily with a simple structure so that the efficiency of the durability test of the wire rope can be improved and the operation cost of the durability test And it is also possible to test it safely.

1 is a perspective view showing a wire rope endurance test apparatus according to the present invention.
FIG. 2 is a perspective view showing a first sheave, a second sheave, and a rod device according to the present invention; FIG.
3 is a structural view showing a process 1 for operating a wire rope endurance test apparatus according to the present invention.
4 is a structural view showing a process 2 of operating the wire rope endurance test apparatus according to the present invention.
5 is a cross-sectional view showing a length adjusting structure of the operating member and the pivoting member according to the present invention by the length adjusting member.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

A second sheave 30 provided below the first sheave 20 and a second sheave 30 provided below the first sheave 20. The first sheave 20 includes a main body frame 10, a first sheave 20 fixed to one side of the main body frame 10, A weight 50 provided under the load device 40 and a weight 50 provided under the load device 40. The weight of the weight of the first sheave 20, (30), a wire rope (60) connected to the rod device part (40), and an operating device part (70) connected to the wire rope (60) and pulling or releasing the wire rope .

Hereinafter, the constituent elements and actions of the present invention will be described in detail as follows.

The present invention mainly includes a main body frame 10, a first sheave 20, a second sheave 30, a rod device 40, a weight 50, a wire rope 60, do.

The main body frame 10 further includes a bottom frame to which a plurality of frames are connected, and a side frame installed on both sides in a form perpendicular to the bottom frame, and an upper frame connected to the upper side of the side frame.

The first sheave 20 is composed of a fixed portion fixed to the side frame of the main body frame 10 and a wheel rotatably installed on the fixed portion and guiding the wire rope 60.

The second sheave 30 is fixed to a side frame of the body frame 10 and is installed at a predetermined distance below the first sheave 20 and is connected to the wire rope guided by the wheel of the first sheave 20 60 to guide the guiding sheave 43 of the rod device unit 40 to the guiding sheave 43. [

The load unit 40 includes a fixing plate 41 provided below the second sheave 30 and having a rail 41a formed perpendicularly to a side frame of the body frame 10, A guiding sheave 43 fixed to the moving body 42 so as to correspond to the respective sheaves 20 and 30 and a guiding sheave 43 fixed to the bottom surface of the moving body 42 And a support shaft 43 having a plurality of fixing holes 43a vertically arranged to connect the fixing pins 45 to lift the weight 50 is formed.

The weight 50 is in the form of a plate, and a fixing hole is formed for inserting the fixing pin 45 into the side surface center, and the function thereof is used to test the tensile force of the wire rope 60.

The wire rope 60 is a strand formed by twisting several strands of wire to form a single strand and again twisting six strands around a single strand rope. And thus have various structures.

The operating unit 70 includes a driving motor 71, a rotating body 72 that rotates according to the operation of the driving motor 71, and an operating member A tiltable member 74 which is connected to the other end of the operation member 73 at the center and which is rotatably installed on a rotary shaft provided at one side of the body frame 10, And a connecting member (75) connected to the other end and connected to the wire rope (60).

The operation member 73 includes a first member 73-1 having a threaded portion formed on an inner surface thereof and a threaded portion corresponding to the first member 73-1. A second member 73-2 having a threaded portion mutually symmetrical with the threaded portion of the first member 73-1 and a length adjusting member 73-2 coupled to the threaded portion of the first member 73-1 and the second member 73-2, 3) so as to rotate the length adjusting member 73-3 to provide an action of opening or narrowing the space between the respective members 73-1 and 73-2, 50, it is possible to adjust the length of the operation member 73 to test the wire rope 60 tensile strength more precisely.

On the other hand, the pivoting member 74 includes a first member 74-1 having a threaded portion formed on the inner surface thereof in the one direction from the center, and a second member 74-1 having a threaded portion corresponding to the first member 74-1 And a length adjusting member (74-3) for screwing the first member (74-1) and the second member (74-2) to the threaded portion of the first member (74-1) and the second member (74-2) A third member 74-4 having a threaded portion formed on the inner surface thereof in the other direction, a fourth member 74-5 having threaded portions corresponding to the third member 74-4, Further comprising a second adjusting portion 74b which further comprises a length adjusting member 74-6 which is threadedly engaged with the threads of the third member 74-4 and the fourth member 74-5 , And by rotating one or both of the length adjusting members (74-3) and (74-6), respectively, to provide a function of opening or narrowing the space between the respective members, Accordingly, the length of the tiltable member 74 And, it provides the advantage of being able to accurately test the tensile strength of the wire rope 60 is more.

Hereinafter, a test method according to the operation of the present invention will be described.

When the weight 50 of a predetermined weight is fixed to the support shaft 43 of the rod unit 40 by the fixing pin 45 and then the drive motor 71 of the actuator unit 70 is operated ,

The rotary member 72 rotates in conjunction with the operation of the drive motor 71 and the operation member 73 connected to the rotary member 72 is repeatedly operated in the vertical direction, Is pivoted clockwise and counterclockwise around the rotation axis of the main body frame 10 as shown in FIG.

Concurrently with the above operation, the connecting member 75, which is connected to the end of the pivoting member 74 and held the wire rope 60, pulls the wire rope 60 in conjunction with the operation of the pivoting member 74 The guide sheave 43 of the rod device portion 40 connected to the wire rope 60 is moved upward and downward together with the action of releasing the wire rope 60. At the same time as the above operation, The moving member 42 of the rod device section 40 repeatedly slides vertically up and down to test the tensile force of the wire rope 60 to test the durability of the wire rope 60. [

In the meantime, in the test of the tensile strength of the wire rope 60, the operation member 73 and the tilting member 74 are formed to be adjustable in length, The length of the tiltable member 74 can be adjusted to provide a great advantage that the wire rope 60 tensile test can be performed more precisely.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims and their equivalents. It will be understood by those of ordinary skill in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: Body frame
20: First sieve
30: Second Sieve
40:
41: Fixed plate
41a: rail
42: mobile body
43: guide sheave
44: Support shaft
50: Weight
60: Wire rope
70:
71: drive motor
72: rotating body
73: operating member
73-1, 74-1: First member
73-2, 74-2: second member
73-3, 74-3, 74-6:
74-4: third member
74-5: fourth member
74a:
74b:
74:
75:

Claims (5)

A body frame 10,
A first sheave 20 fixed to one side of the body frame 10,
A second sheave 30 installed below the first sheave 20,
A rod device part (40) slidably installed vertically up and down below the second sheave (30)
A weight 50 provided under the load unit 40,
A wire rope 60 connected to the first sheave 20, the second sheave 30, the rod device 40,
And an operating device (70) connected to the wire rope (60) and pulling or releasing the wire rope (60). The method according to claim 1,
The rod device unit 40 includes a fixed plate 41 having a rail 41a formed on one side thereof and a movable member 42 guided along the rail 41a of the fixed plate 41, A guide shaft 43 fixed to the moving body 42 and a support shaft 43 having a plurality of fixing holes 43a formed on the bottom surface of the moving body 42 and vertically arranged Wire rope durability test equipment. The method according to claim 1,
The operating unit 70 includes a driving motor 71, a rotating body 72 rotated by the operation of the driving motor 71, an operating member 73 connected to the rotating body 72, A pivoting member 74 having one end connected to the operation member 73 and rotatably installed at one side of the main frame 10 and a wire rope 60 provided at one end of the pivoting member 74, Further comprising a connection member (75) connected to the wire rope endurance testing device. The method of claim 3,
The operation member 73 includes a first member 73-1 having a threaded portion formed on an inner surface thereof, a second member 73-2 having a threaded portion corresponding to the first member 73-1, Further comprising a length adjusting member (73-3) which is threadedly engaged with the threaded portion of the member (73-1) and the second member (73-2). The method of claim 3,
The pivoting member 74 includes a first member 74-1 having a threaded portion formed on an inner surface thereof in a direction from the center and a second member 74-1 having a threaded portion corresponding to the first member 74-1, (74a) that further includes a length adjusting member (74-3) screwed on the first member (74-1) and a threaded portion of the first member (74-1) and the second member (74-2) A third member 74-4 having a threaded portion formed on the inner surface thereof in the other direction and a fourth member 74-5 having threaded portions corresponding to the third member 74-4, And a second adjusting portion (74b) further comprising a length adjusting member (74-6) screwed into the threaded portion of the member (74-4) and the fourth member (74-5) Rope durability test equipment.

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