KR101362926B1 - Wire rope isolator and vibration isolation system using the same - Google Patents

Abstract

The present invention provides a novel wire rope vibration isolator, capable of improving the performance of isolating vibration via simple combination with a compression coil spring and a vibration isolation system using the same. The wire rope vibration isolator according to the present invention comprises a first mounting block having a first top surface, a first bottom surface and a pair of first side surfaces facing each other, and having first side surface holes formed on the first side surfaces; a second mounting block arranged to face and be separated from the first mounting block, having a second top surface, a second bottom surface and a pair of second side surfaces facing each other, and having a plurality of second side surface holes formed on the second side surfaces; and a wire rope having curves arranged at one side between the first and second mounting blocks and penetrating the first and second side surface holes respectively in one-to-one correspondence, and loops connected to two neighboring curves among the curves in zigzag to interconnect the curves. The vibration isolation system according to the present invention is composed of wire rope vibration isolators, upper mounting plates mounted on the first mounting blocks of each wire rope vibration isolators, and lower mounting plates mounted on the second mounting blocks of each wire rope vibration isolators. According to the present invention, the combination of the wire rope vibration isolators and the compression coil springs is convenient and the winding of the wire rope is convenient, thereby increasing productivity, reducing production costs, and improving the performance of isolating vibration via the reduction of lateral stiffness variation.

Description

WIRE ROPE ISOLATOR AND VIBRATION ISOLATION SYSTEM USING THE SAME}

The present invention relates to a wire rope isolator, and more particularly to a wire rope isolator that can be conveniently combined with a compression coil spring and the like and a dustproof system using the same.

Anti-vibration systems are commonly used to block the transmission of vibration and noise generated from machinery and structures, and to protect the machinery from external shocks. In the low frequency region where the vibration of the vibration system is present, the displacement and the impact force are large, so that the stiff vibration control system should be used to limit the excessive movement of the machinery and reduce the impact force by the large damping force. In the high frequency range where the excitation displacement and impact force are small, the damping force should be insulated from the support structure of the vibration and noise of the machinery. Such dustproof systems have been developed in a wide variety of shapes and structures, including rubber mounts, spring mounts, air springs, and wire rope oscillators.

The wire rope isolator of US Pat. No. 5,549,285 consists of a first crimp bar, a second crimp bar and a wire rope. The wire rope is continuously passed through a plurality of Lateral holes formed in the sides of the first and second crimp bars. The coil of the wire rope has a central U-shaped segment, which extends outward along the longitudinal direction of the dust protection. Each of the coils slopes from top to bottom-right or from top to bottom left. Crimps are formed in the first and second crimp bars to fix the individual coils of the wire ropes fitted in the side holes.

The wire rope isolator of US Pat. No. 6,406,011 consists of a pair of mounting blocks, wire ropes, and a plurality of dowel pins spaced apart. The wire rope is continuously passed through a plurality of side holes formed in the sides of the mounting blocks. The dowel pins are coupled to pilot holes to secure the wire rope fitted into the side holes.

The conventional wire rope vibration isolator as described above is arranged to be inclined while alternately passing through the first and second crimp bars so that the wire rope has a coil shape or a loop shape. As a reference, deviations occur in the left and right stiffness of the wire rope, and there is a problem in that dustproof performance and reliability are deteriorated. In addition, in order to improve the anti-vibration performance, there was a need for a wire rope vibration isolator that can be used in combination with a compression coil spring.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art. It is an object of the present invention to provide a new wire rope dustproof machine and a dustproof system using the same which can be easily combined with a compression coil spring or the like to improve dustproofing performance.

Another object of the present invention is to provide a wire rope dustproof machine and a dustproof system using the same which can easily improve the productivity and reduce the production cost by winding the wire rope.

Still another object of the present invention is to provide a wire rope dustproof machine capable of firmly fixing a wire rope and a dustproof system using the same.

Another object of the present invention is to provide a new dustproof system that can improve the dustproof performance by reducing the left and right stiffness variation by the combination of the wire rope dustproofers and compression coil springs.

According to one aspect of the invention, there is provided a wire rope dustproofer. The wire rope isolator according to the present invention has a first upper surface, a first lower surface, a first mounting block having a pair of first side surfaces facing each other, and a plurality of first side holes formed in the pair of first side surfaces. and; It is disposed so as to face the first mounting block at intervals, and has a second upper surface, a second lower surface, a pair of second sides facing each other, and a pair of second sides to correspond to the plurality of first side holes. A second mounting block having a plurality of second side holes formed therein; In order to connect a plurality of curves and a plurality of curves disposed on one side between the first mounting block and the second mounting block and passed in a one-to-one correspondence relationship to each of the plurality of first side holes and the plurality of second side holes. It includes a wire rope having a plurality of loops zigzag connected to two neighboring curves of the plurality of curves.

The anti-vibration system according to the present invention has a plurality of first side holes disposed in parallel to each other and having a first top surface, a first bottom surface, a pair of first side surfaces facing each other, and a pair of first side surfaces. The first mounting block and the first mounting block are formed to face each other at a distance, and have a second upper surface, a second lower surface, and a pair of second side surfaces facing each other, and correspond to the plurality of first side holes. A second mounting block having a plurality of second side holes formed on the pair of second side surfaces, and disposed between one of the first mounting block and the second mounting block, the plurality of first side holes and the plurality of 2 Wye having a plurality of loops zigzag connected to two neighboring curves among the plurality of curves in order to connect the plurality of curves passed in a one-to-one correspondence to each side hole. A pair of wire rope vibration group having a rope; An upper mounting plate mounted to the first mounting block of each of the pair of wire rope dustproofers; And a lower mounting plate mounted to a second mounting block of each of the pair of wire rope dustproofers.

The wire rope dustproofer and the dustproofing system using the same according to the present invention are not only a simple combination of the wire rope dustproofers and the compression coil spring, but also the winding of the wire rope can be easily improved to improve productivity and reduce production costs. The wire rope is firmly fixed to the mounting block for improved reliability. In addition, since the combination of the wire rope vibration suppressors and the compression coil springs can reduce the left and right stiffness variation, the dustproof performance can be improved, and thus it can be very useful to support various machinery.

1 is a perspective view showing the configuration of a wire rope dustproofer according to the present invention.
2 is a perspective view separately showing the configuration of the wire rope dustproofer according to the present invention.
3 is a plan view showing the configuration of the wire rope dustproofer according to the present invention.
Figure 4 is a side view showing the configuration of the wire rope dustproofer according to the present invention.
5 is a cross-sectional view showing the configuration of the wire rope dustproofer according to the present invention.
6 is a cross-sectional view showing another example of the fixing means in the wire rope dustproofer according to the present invention.
7 is a perspective view showing the configuration of the dustproof system according to the present invention.
8 is a perspective view separately showing the configuration of the dustproof system according to the present invention.
9 is a cross-sectional view showing the configuration of the dustproof system according to the present invention.
Fig. 10 is a front view showing the structure for supporting the machine by the anti-vibration system according to the present invention.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments with reference to the accompanying drawings.

Hereinafter, preferred embodiments of the wire rope isolator according to the present invention will be described in detail with reference to the accompanying drawings.

First, in Figures 1 to 5 is shown a wire rope dustproofer according to the present invention. 1 to 5, the wire rope dustproofer 10 according to the present invention includes a first mounting block 20 and a second mounting block 30 which are disposed at intervals to face each other. do.

The first mounting block 20 is composed of a first retainer bar 22 having a longitudinal direction X, a width direction Y, and a height direction Z. As shown in FIG. The first retainer bar 22 has a first top face 22a, a first bottom face 22b, two first side faces 22c and 22d facing each other, and two first ends 22e and 22f facing each other. Have A plurality of first side holes 24: 24-1 to 24-n are formed along the longitudinal direction X of the first retainer bar 22 so as to penetrate through the first side surfaces 22c and 22d. A plurality of first mounting holes 26 are formed on both sides of the first top surfaces 22a adjacent to the first ends 22e and 22f.

The 2nd mounting block 30 is comprised by the 2nd retainer bar 32 which has the longitudinal direction X, the width direction Y, and the height direction Z. As shown in FIG. The 1st retainer bar 22 and the 2nd retainer bar 32 are comprised similarly. The second retainer bar 32, like the first retainer bar 22, has a second top face 32a, a second bottom face 32b, two second side faces 32c and 32d, and two second ends 32e, 32f), a plurality of second side holes 34: 34-1 to 34-n, and a plurality of second mounting holes 36. In the present embodiment, each of the first and second mounting holes 26 and 36 may be configured as a screw hole or bolt hole for fastening the bolt. Each of the first and second retainer bars 20 and 30 may be made of a metal, for example, aluminum alloy or stainless steel.

The wire rope vibration isolator 10 according to the present invention includes a wire rope 40 that is wound while passing through the first retainer bar 22 and the second retainer bar 32. The wire rope 40 twists a plurality of steel wires to make a row of strands, and twists a plurality of strands. The wire rope 40 may be made of stainless steel. In the present embodiment, the wire rope 40 may be composed of a spring wire, a cable having elasticity.

The wire rope 40 is composed of a first end 42, a second end 44, a plurality of curves 46, and a plurality of loops 48. The first end 42 passes through the first first side hole 24-1 of the plurality of first side holes 24: 24-1 to 24-n. The second end 42 passes through the last first side hole 24-n of the plurality of first side holes 24: 24-1 to 24-n. The curves 46 are formed in a “C” or “U” shape and are disposed on one side between the first retainer bar 22 and the second retainer bar 32, and the first side holes 24 and the first side holes 24. Passed in a one-to-one correspondence relationship with each of the second side holes 34. The loops 48 are connected in a zigzag-type shape to two neighboring curves of the curves 46 to connect the curves 46. The loops 48 consist of upper loops 48a connecting the tops of the two curves and lower ropes 48b connecting the bottoms of the two curves. As such, the wire rope 40 is configured in a zigzag form by alternately connecting two neighboring curves between the upper loops 48a and the lower loops 48b.

The wire rope isolator 10 according to the present invention includes a plurality of first crimps formed on the first retainer bar 22 to fix the wire rope 40 to the first and second retainer bars 22 and 32. 50 and a plurality of second crimps 52 formed on the second retainer bar 32. Each of the first and second crimps 50 and 52 is formed in a rectangle along the width direction Y. FIG.

As shown in FIG. 5, each of the first and second crimps 50, 52 may curve the curves 46 of the wire rope 40 with the first side holes 24 and the second side holes 34. After inserting into each of them, the first upper surface 22a of the first retainer bar 22 and the second upper surface 32a of the second retainer bar 32 are formed by pressing working. Each of the first and second crimps 50 and 52 protrudes inwardly of the first side holes 24 and the second side holes 34 by press working, thereby reducing the cross-sectional area to secure the wire rope 40. To be fixed.

The wire rope isolator 10 according to the present invention having such a configuration can be easily installed by fastening bolts to surrounding machinery, stages, structures, etc. through the first and second installation holes 28 and 38. have. The curves 46 of the wire rope 40 effectively attenuate vibration, noise, and impact by elastic deformation.

Referring to FIG. 6, the wire rope 40 is fixed to each of the first and second retainer bars 22 and 32 by a plurality of dowel pins 60 as fixing means. Each of the plurality of first pilot holes 62 is formed in the first upper surface 22a and the first lower surface 22b so as to communicate with the first side holes 24. Each of the plurality of second pilot holes 64 is formed in the second upper surface 32a and the second lower surface 32b so as to communicate with the second side holes 34.

The operator inserts the wire rope 40 into each of the first side holes 24 and the second side holes 34, and then loads each of the first pilot holes 62 and the second pilot holes 64. Join the pins 60. The tip of the dowel pins 60 is firmly fixed by pressing the wire rope 40. In the present embodiment, each of the first and second pilot holes 62 and 64 may be formed only on the first and second upper surfaces 22a and 32a. Further, the first and second pilot holes 62 and 64 are formed as screw holes, and screw the screw holes to fix the wire rope 40 to the first and second retainer bars 22 and 32, respectively. Can be.

7 to 10 show a dustproof system according to the invention. 7 to 9, the dustproof system 110 according to the present invention includes a pair of wire rope dustproofers 10a and 10b, a top plate 120 and a bottom plate 130. Consists of. Since the pair of wire rope isolators 10a and 10b are configured in the same manner as the wire rope isolator 10 described above, the same components are assigned the same reference numerals, and detailed descriptions of the structure and operation are omitted.

In the anti-vibration system 110 according to the present invention, the wire rope anti-vibrators 10a and 10b are disposed in parallel along the X-axis direction at intervals from each other. The curves 46 of each of the wire rope isolators 10a and 10b are disposed to face outward with respect to the center between the wire rope isolators 10a and 10b.

The upper plate 120 is mounted to the first upper surface 22a of the first retainer bar 22. The first retainer bar 22 and the upper plate 120 are coupled by fastening the plurality of bolts 122. The lower plate 130 is mounted on the second lower surface 32b of the second retainer bar 32. The second retainer bar 32 and the lower plate 130 are coupled by fastening the bolts 132.

The anti-vibration system 110 according to the present invention includes a plurality of compression coil springs 140 as elastic support means. Compression coil springs 140 are mounted between the upper plate 120 and the lower plate 130. The plurality of bosses 134 protrude from the upper surface of the lower plate 130. Lower portions of the compression coil springs 140 are fitted to the bosses 134 and fixed. The bosses 134 may be formed on the bottom surface of the upper plate 120. 7 to 9 show that two compression coil springs 140 are mounted between the upper plate 120 and the lower plate 130, but this is exemplary and the number of compression coil springs 140 is required. It can be increased or decreased depending on. In the present embodiment, the elastic support means is a variety of anti-vibration rubber mounted between the upper plate 120 and the lower plate 130, a dust-proof spring-rubber mount, the air mount (air mount), the spring is surrounded by rubber Can be configured.

The dustproof system 110 according to the present invention further includes a leveling mechanism 150. The leveling mechanism 150 is composed of a first bolt 152 and a second bolt 154. The screw hole 124 is formed in the center of the upper plate 120. The first bolt 152 is fastened to the screw hole 124 of the upper plate 120. A screw hole 152a is formed in the center of the first bolt 152. The second bolt 154 is fastened to the screw hole 152a of the first bolt 152. The second bolt 154 is fastened to the screw hole 152a of the first bolt 152 through a bracket 162 attached to the mechanism 160, for example, the mechanism 160. .

Referring to FIG. 10, the operator temporarily installs a plurality of pedestals 166 on the floor 164 on which the mechanical device 160 is installed in order to install the anti-vibration system 110 according to the present invention. When the mechanism 160 is supported by the pedestal 166, the operator installs a plurality of dustproof systems 110 between the floor 164 and the mechanism 160.

The worker fastens the second bolt 154 through the bracket 162 of the mechanical device 160 to the screw hole 152a of the first bolt 152. When the worker fastens the second bolt 154 to the screw hole 124 of the upper plate 120, the upper plate 120 is lowered according to the fastening of the second bolt 154. The curve 46 of the wire rope 40 is elastically deformed to store elastic energy by the lowering of the upper plate 120, and the compression coil springs 140 are compressed to store elastic energy. When the worker releases the second bolt 154 from the screw hole 124 of the upper plate 120, the upper plate 120 is raised to accurately level the mechanism 160.

On the other hand, the anti-vibration system 110 according to the present invention can effectively attenuate vibration, noise, and impact by the elastic deformation of the wire rope 40 and the plurality of compression coil springs 130. The wire rope 40 of the pair of wire rope dustproofers 10a and 10b has the curves 46 arranged in a symmetrical structure so that the left and right stiffness deviation of the wire rope 40 is reduced, thereby improving the damping performance and improving reliability. Stability can be improved. In particular, when rolling, pitching, etc. of the mechanical device 160 occurs, the elastic deformation of the wire rope 40 stably supports the mechanical device 160 while effectively attenuating vibration, noise, and impact. Can be.

The embodiments described above are merely illustrative of the preferred embodiments of the present invention, the scope of the present invention is not limited to the described embodiments, those skilled in the art within the spirit and claims of the present invention It will be understood that various changes, modifications, or substitutions may be made thereto, and such embodiments are to be understood as being within the scope of the present invention.

10, 10a, 10b: wire rope dustproofer 20: first mounting block
22: first retainer bar 24: first side hole
30: second mounting block 32: second retainer bar
34: second side hole 40: wire rope
46: cover 48: loop
50: first crimp 52: second crimp
60: dowel pin 110: dustproof system
120: upper plate 130: lower plate
140: compression coil spring 150: leveling mechanism
152: first bolt 154: second bolt
160: machinery 162: bracket

Claims (10)

A first mounting block having a first upper surface, a first lower surface, and a pair of first side surfaces facing each other, wherein a plurality of first side holes are formed in the pair of first side surfaces;
A pair of second side surfaces disposed to face the first mounting block at intervals and having a second top surface, a second bottom surface, and a pair of second side surfaces facing each other, and corresponding to the plurality of first side holes; A second mounting block having a plurality of second side holes formed on two sides thereof;
A plurality of curves disposed on one side between the first mounting block and the second mounting block and passed in a one-to-one correspondence relationship with each of the plurality of first side holes and the plurality of second side holes; And a wire rope having a plurality of loops zigzag connected to two neighboring curves of the plurality of curves to connect the curves. The method of claim 1,
And wherein the wire rope has a first end and a second end fitted to a first first side hole and a last first side hole of the plurality of first side holes. 3. The method according to claim 1 or 2,
The first mounting block is formed of a first retainer bar having a first crimp formed in each of the plurality of first side holes for fixing the wire rope.
And the second mounting block comprises a second retainer bar having a second crimp formed in each of the plurality of second side holes to fix the wire rope. A first mounting having a first top surface, a first bottom surface, a pair of first side surfaces facing each other, and having a plurality of first side holes formed in the pair of first side surfaces at a distance from each other and in parallel; The pair of blocks and a pair of second side surfaces disposed to face each other at a distance from the first mounting block and having a second upper surface, a second lower surface, and a pair of second side surfaces facing each other; A second mounting block having a plurality of second side holes formed on a second side thereof, and disposed between one of the first mounting block and the second mounting block, the plurality of first side holes and the plurality of first 2 A plurality of curves passing in a one-to-one correspondence relationship to each of the side holes and a plurality of zigzag connected to two neighboring curves among the plurality of curves to connect the plurality of curves. A pair of wire rope vibration group having a wire rope with a loop;
An upper mounting plate mounted to a first mounting block of each of the pair of wire rope dustproofers;
And a lower mounting plate mounted to a second mounting block of each of the pair of wire rope dustproofers. 5. The method of claim 4,
And wherein the wire rope has a first end and a second end fitted with a first first side hole and a last first side hole of the plurality of first side holes. The method according to claim 4 or 5,
The first mounting block is made of a first retainer bar having a first crimp formed in each of the plurality of first side holes for fixing the wire rope.
And the second mounting block comprises a second retainer bar having a second crimp formed in each of the plurality of second side holes for fixing the wire rope. The method according to claim 4 or 5,
And a resilient support means mounted between the upper mounting plate and the lower mounting plate. The method of claim 7, wherein
And said elastic support means comprising at least one compression coil spring mounted between said upper mounting plate and said lower mounting plate. The method of claim 7, wherein
And a leveling mechanism mounted to the upper mounting plate for leveling the upper mounting plate. 10. The method of claim 9,
The leveling mechanism,
A first bolt fastened to the center of the upper mounting plate and having a screw hole formed therein;
Dustproof system fastened to the threaded hole of the first bolt through a mechanism supported by the upper mounting plate.

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