KR101983896B1 - Cable veyor with floor contact abrasion protection - Google Patents

Abstract

The present invention relates to a cable bearing having a bottom contact abrasion preventing function, wherein a shaft portion provided corresponding to both side portions perpendicular to the bottom portion, and a shaft portion and a shaft hole of the links formed corresponding to each other on the opposite side of the shaft portion, A ball guide groove is formed at the center of the end portion of the shaft portion and a metal ball which is in contact with and rolling on the ground is press-fitted and received in the ball guide groove, In the cable bail, an undercut portion is formed in an end portion of the ball guide groove to prevent the press-fit metal ball from slipping out in a reverse direction, and the metal ball supports a cloud of the metal ball upon contact with the base of the device And the end of the support groove, in which the metal ball is supported, A metal ball is inserted into the center of the shaft portion, which is a bending reference point of each link, so that the side portion of the link is supported by the support portion, Which is used in correspondence with the upper surface of the base of the apparatus to prevent the dust from being blown out to prevent dust explosion and to prevent the metal balls from being separated by the undercut portion on the ball guide groove side The metal ball is elastically supported and supported by the support groove and the support portion so that the flexible ball can be flexibly bent and the service life of the cable bear can be greatly extended.

Description

[0001] Cable bear with floor contact abrasion protection function [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cable bearing having a floor contact abrasion preventing function, and more particularly, to a cable used in a combination of a shaft portion and a shaft hole provided in each link, When used in a neutral state, it prevents side worn of the link, minimizes friction with the bottom to realize stable link bending operation, prevents wear and dust of each link, and prevents static electricity from cable bear installed in special equipment. To a cable bearing having a floor contact abrasion-preventing function for preventing a safety accident such as an explosion accident caused by a floor contact.

In general, a cable or cable is formed by connecting a plurality of links such that a plurality of links are connected to each other as needed, and each of the links is bent so as to bend, so that a passage is secured inside the cable, By accommodating cables or pneumatic hoses connected to various automation devices such as machine tool robots and breakaway industrial machines, cables or pneumatic hoses connected to equipment that do not move at a certain angle are exposed to the outside, It is a kind of protection to prevent the covering of the pneumatic and hydraulic hoses from being peeled off or twisted to each other to prevent disconnection or leakage.

The cable bear provides a space for guiding the cable with a basic reciprocal link and supports the link as a connecting supporter at the upper and lower portions thereof while protecting the inner cable or hose from the outside.

The cable bear is used extensively from small size to large size. In general, cable bear manufactured in small size or medium size is injection-molded from a polyamide (PA) type plastic synthetic resin material which is easy to form and manufacture, The shaft is formed on one side of the side corresponding to the shape and the shaft hole is formed on the opposite side of the shaft so that a cable or a hose can be accommodated in the inside in such a way that a support is fixed to one side of the link It is produced as a unit.

Each of the links is used as a combination of the shaft portion and the shaft hole continuously as needed, and the link corresponding to the end portion of the interconnected link is connected to a fixing bracket for fixedly mounting the device and the device on the floor And the end of the link located on the opposite side is connected to a fixing bracket provided on the operation unit side of the apparatus.

In view of the source technology for preventing the bottom friction in relation to the cable bear, the Korean Registered Utility Model No. 20-0465244 (name: cable bear having an easy structure to install the roller on the outside, registration date: February 01, 2013 (Hereinafter referred to as " Patent Document ").

The patent document has improved the installation structure of the rollers and the rollers installed to reduce the friction of the cable bail bottom from the bottom surface, thereby facilitating the easy assembly of the rollers from the outside of the cable bail and facilitating the removal of foreign matter from the rotary shaft portion where the rollers rotate A cable which is provided so as to form a passage for receiving a cable and which is provided so as to be rotatable and mutually rotatable on both sides of the front and rear sides, A cable bearing comprising a support base and a roller rotatably installed so that a bottom surface of a corresponding one of the links is spaced apart from a bottom surface,

Wherein a guide groove communicating with the bottom surface is formed outside the intermediate point of the link, a fixing shaft integrally formed at the center of the guide groove for penetrating the roller is formed integrally with the guide groove, A plurality of protruding protrusions are formed on one side of the fixed shaft so as to prevent the rollers from being separated from each other so that the rollers can be installed and separated from the outside of the link.

However, the above-mentioned cable bear is provided with rollers on the lower side of both sides of the cable bear to minimize the friction between the bottom of the cable bear and the lower side of the cable bear. There is a problem that bottom friction can not be avoided.

As shown in FIGS. 1 and 2, the cable bear 10 is provided with a cable bearing 10 on a rotating body 2, which is rotationally constructed on a base 1 of a target device. The cable bear is caused to flow along the rotation orbit of the rotating body in a state in which any one of the side portions is positioned on the base and bent in the upper surface of the base by the forward and reverse rotation of the rotating body. Here, since the side portion of the cable bear comes into direct contact with the base to cause abrasion and dust, there is a problem that an explosion may be caused by static electricity generated in a special facility.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned conventional problems, and it is an object of the present invention to provide a link used as a connection combination of a shaft portion and a shaft hole provided in each link, It is possible to prevent the side wear of the link and minimize the friction with the bottom to realize stable link bending operation and to prevent wear and dust of each link and to prevent explosion due to static electricity from cable bear installed in special equipment The present invention provides a cable bearing having a bottom contact abrasion preventing function for preventing a safety accident such as an accident.

According to an aspect of the present invention, there is provided a shaft assembly including a shaft portion corresponding to both side portions orthogonal to a bottom portion, and a shaft portion and a shaft hole formed corresponding to each other on opposite sides of the shaft portion, A ball guide groove is formed in the ball guide groove and a metal ball which is in contact with and rolling on the ground is press-fitted and received, and both ends of the support ball are connected to and supported by the side portion,

The ball guide groove has an undercut portion formed at an end of the ball guide groove to prevent the press-fit metal ball from slipping out in a reverse direction, and a support groove for supporting the rolling of the metal ball upon contact with the base of the device, And an end portion of the support groove in which the metal ball is supported is formed with a support portion for resilient contact with the metal ball which is in contact with the surface of the metal ball which rises in the ball guide groove direction.

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A cable bail having a floor contact abrasion-proofing function according to the present invention is a cable bare in which a cable ball is formed by mutual combination of links, a metal ball is press-fitted in the center of a shaft portion as a bending reference point of each link, The metal ball can be prevented from being detached from the ball guide groove due to the undercut portion of the ball guide groove, By forming the grooves and the support portions, the metal balls are elastically supported to perform the rolling operation, thereby flexibly bending each link and providing an effect of significantly extending the service life of the cable bear.

1 is a perspective view showing a state in which a conventional cable bear is laid down on a floor,
Fig. 2 is a plan view of Fig. 1,
3 is a bottom perspective view of a cable bear showing a state in which a ball is applied to a shaft portion of a cable bearing according to the present invention,
Figs. 4 and 5 are cross-sectional views illustrating the formation of the shaft portion of the cable bail according to the present invention, Fig.
6 is a longitudinal sectional view showing the state of the metal ball being installed on the shaft portion of the cable bearing according to the present invention,
FIG. 7 is a longitudinal sectional view showing a state in which the metal ball is installed in FIG. 6,
8 is an enlarged view showing a state in which the metal ball according to the present invention is placed on the shaft portion,
FIG. 9 is an enlarged view showing a state in which the metal ball according to the present invention is placed in the shaft portion and is in contact with the bottom surface and rolling.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

A shaft portion 13 provided so as to correspond to both side portions 12 perpendicular to the bottom portion 11 and a shaft portion of the links 10A formed correspondingly to the shaft hole 14 on the opposite side of the shaft portion, A ball guide groove 13a is formed at the center of the end of the guide groove 13 and a metal ball B contacting and rolling with the ground is press-fitted into the ball guide groove. Both ends of the support ball 10B In a known cable bearing (10) forming a cable passage in which a cable is received by being connected and supported,

The metal balls may be applied to the respective shaft portions in combination of the links or may be provided on the following link side shaft portions by skipping one link as shown in Fig. 7 depending on the degree of keeping the links horizontally from the base line good.

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An undercut portion 13b is formed at an end of the ball guide groove 13a to prevent the press-fit metal ball B from slipping out in the opposite direction.

An end of the support groove 13c in which the metal ball B is supported is formed with a support portion 13d in which elastic contact is made with respect to the metal ball which comes into contact with the ball when it rises in the direction of the ball guide groove 13a.

4, the ball guide groove 13a, the undercut portion 13b, the support groove 13c, and the support portion 13d are formed on the bottom portion 11 of the link 10A according to the present invention, The core C is guided in the central portion of the shaft portion 13 according to the shape of the core during the injection molding of the side portion 12 and the undercut portion 13b is formed during the forced withdrawal of the core C.

For reference, FIG. 5 attached to FIG. 5 shows a type in which the support hole 13d is formed through the shaft portion 13 according to the shape of the core C, but a metal ball can be press-fitted.

6, when the metal ball B is press-fitted into the ball guide groove 13a, the metal ball is inserted into the ball guide 13a, as shown in FIG. 8, The distance T1 is generated between the support groove 13c and the side surface of the link 10A on the base 1 as shown in FIG. 12, the metal ball comes into contact with the support portion 13d on the side of the support groove 13c.

In general, in the case where a large number of cables or pneumatic hoses accommodated in the cable bear 10 are applied to the cable bear to increase the weight of the cable bear, the cable bear contacting with the base and rolling by the metal ball, The support portion 13d maintains a shape rising in the downward direction and elastically supports one side of the upper portion of the metal ball, so that a smoother cloud can be realized.

In the above state, when the metal balls are brought into contact with the upper surface of the base during the combination of the links, the cable bear 10 is rolled according to the forward and reverse rotation of the target rotating body, So that the smooth rolling motion can be performed while maintaining the interval T2 from the ball guide groove 13a as shown in FIG.

1, the rolling operation of the rolling ball is carried out in such a manner that the cable bear, which flows in the track repeatedly determined in accordance with the forward and reverse rotations of the rotating body 2, Can be avoided. This offers the advantage of significantly extending the life of the cable bear.

By applying the metal ball to the shaft portion, the metal balls on the shaft portion side are bent from the shaft portions of the respective links. Since the metal balls on the shaft portion side are in contact with the base to form a cloud, the links can flex more flexibly, Thereby allowing the flow of the link to be implemented.

Therefore, it is possible to eliminate the dust generated by the friction by preventing the side portion 12 of the cable bearing 10 from being worn out. Therefore, in case of a cable bare installed in a special facility, a safety accident such as dust explosion accident caused by static electricity .

The cable bear according to the present invention is limited to the case where the side face is directed toward the base side as described above and the cable bear is moved from the base by the rolling motion of the links by a simple method of selecting one of the side faces and press- The occurrence of abrasion can be eliminated.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

1: Base 10: Cable Bear
10A: Link 10B: Support
11: bottom part 12: side part
13: shaft portion 13a: ball guide groove
13b: undercut portion 13c: support groove
13d: Support portion 13e: Support Ball
14: Slipper B: Metal ball
C: Core

Claims (3)

A shaft portion 13 provided so as to correspond to both side portions 12 perpendicular to the bottom portion 11 and a shaft portion of the links 10A formed correspondingly to the shaft hole 14 on the opposite side of the shaft portion, A ball guide groove 13a is formed at the center of the end of the guide groove 13 and a metal ball B contacting and rolling with the ground is press-fitted into the ball guide groove. Both ends of the support ball 10B In a known cable bearing (10) forming a cable passage in which a cable is received by being connected and supported,
An undercut portion 13b is formed in an end portion of the ball guide groove 13a to prevent the press-fit metal ball B from slipping out in the reverse direction. The metal ball B is fixed to the base 1 of the device, A support groove 13c for supporting the rolling of the metal ball B is formed upon contact with the metal ball B and the end of the support groove 13c in which the metal ball B is supported is raised in the direction of the ball guide groove 13a And a support portion (13d) for resilient contact with the metal ball which is in contact with the metal ball. delete delete

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