JP3722477B2 - Cable protection guide - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention accommodates cables such as an electric cable, hydraulic hose, air hose, etc. in a fixed end installed on a fixed part side such as a device or a floor, and a moving part which is a movable side of the device or the like. The present invention relates to a cable protection guide that is used when a moving end is reciprocated while supporting a cable, a hose, and the like between the attached moving end.
[0002]
[Prior art]
Conventionally, various protection guides for cables and the like are known, such as those made of metal, plastics, and the like. Known in Japanese Patent Laid-Open No. 40135 (the former), Japanese Patent Laid-Open No. 10-28310 (the latter), and the like.
[0003]
The cable protection guide (disclosed in the above-mentioned publication) has a link body formed by integrally joining a pair of plastic side plates with arms, and is formed on the side plate of one link body. The side plates are pivotally attached to each other by fitting the stop projection into a fitting hole formed in the side plate of the other adjacent link body.
[0004]
The cable protection guide (the latter) disclosed in the above publication is a belt type formed of a plastic bottom wall and a side wall having a division groove standing on the bottom wall. .
[0005]
[Problems to be solved by the invention]
In the conventional cable protection guide (the former), since the link body is connected by pivotal attachment of the locking projection and the fitting hole, dust is generated due to wear at the pivotal attachment portion when the link body is bent and moved. There is a problem that a frictional noise is generated due to rubbing.
In addition, since the link body rotates freely by pivotal attachment of the locking projection and the fitting hole, the link body suddenly moves from an unstable position in the middle to a stable position on the floor surface during polygonal movement during bending. To turn. Therefore, there is a problem in that the upper edge of the side plate of the link body hits the floor surface and a large noise is generated.
[0006]
Further, since the conventional cable protection guide (the latter) is a belt type, there is a problem that it cannot be cut.
[0007]
Therefore, the present invention eliminates the problems of the prior art as described above, can eliminate the friction part when bending, can prevent the generation of dust, and does not generate noise even during high-speed movement An object of the present invention is to provide a cable protection guide that can be easily cut and connected.
[0008]
[Means for Solving the Problems]
In order to achieve the above-mentioned object, the present invention according to claim 1 is characterized in that a link body formed by connecting a pair of side plates opposed to each other by a connecting arm that horizontally spans between an upper edge and a lower edge is provided in a longitudinal direction. In the cable protection guides formed by connecting a plurality of cables, the side plate includes a connecting rod having a flexible portion integrally formed so as to protrude to the outside of one side edge, and the other side on the opposite side. A connecting groove into which a connecting rod is fitted inside the edge, and the connecting rod of the side plate of the link body is fitted and locked to the connecting groove of the side plate of the adjacent link body, so that the adjacent link body The cable protection guides are connected to each other so as to be freely bent.
According to a second aspect of the present invention, in the cable protection guide according to the first aspect of the present invention, a bulging locking portion is formed at the distal end portion of the connecting rod, and the rear end portion of the connecting groove is A locking hole into which the locking part is fitted and fixed is formed.
According to a third aspect of the present invention, in the cable protection guide according to the first or second aspect, the other side edge of the side plate is connected to the link so that adjacent link bodies can be bent at a predetermined angle. The lower part of the groove is formed with an inclined surface, and the tip end side of the connecting groove is formed to be widened toward the end.
According to a fourth aspect of the present invention, in the cable protection guide according to any one of the first to third aspects, the side plate includes a side wall cover on an outer surface thereof. .
According to a fifth aspect of the present invention, in the cable protection guide according to the fourth aspect, the coupling arm has an overlapping portion in which the coupling arms of adjacent link bodies overlap each other. .
[0009]
[Action]
The cable protection guide of the present invention is adjacent to the inclined surface of the side plate because the flexible portion of the connecting rod is bent at the bent portion when the moving end moves back and forth with the cables stored therein. The link body is bent at a predetermined angle until the lower part of one side edge of the side plate contacts. At the time of this bending, there is no place where the side plate of the link body and the connecting rod rub against each other, so that no dust is generated.
Since the link bodies are connected by a connecting rod having a flexible portion formed integrally with the side plate, the upper edge portion of the side plate smoothly hits the floor surface when bent due to the spring characteristics of the flexible portion. No noise is generated.
Further, by removing the side plates of the adjacent link bodies, the link bodies can be removed or added.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
A first embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a schematic perspective view showing a state in which the cables protection guides are bent. A cable protection guide (hereinafter referred to as a “protection guide guide”) 1 is formed by connecting a plurality of link bodies 2 in the longitudinal direction, and the cables are arranged in the longitudinal direction. Stored along.
[0011]
The link body 2 is formed by connecting a pair of synthetic resin side plates 3 that are spaced apart from each other by a synthetic resin coupling arm 6 that horizontally spans between an upper edge and a lower edge.
As shown in FIG. 2, protrusions 3 b are formed in the recessed portions 3 a at the upper and lower edges of the side plate 3, and a hole 6 a is formed in the coupling arm 6. The side plate 3 and the coupling arm 6 are coupled by press-fitting between the projection 3b and the hole 6a.
[0012]
2A, 2B, and 2C show the assembled state of the link body 2, and FIG. 2A shows an assembled state in which the coupling plate 6 is attached from the vertical direction of the side plate 3 (four-point assembly), ( B) is an assembly state in which the coupling arm 6 is attached to the lower edge of the side plate 3 and the coupling arm 6 is attached from above (two-point assembly), and (C) is an upper and lower coupling arm on one side plate 3. 6 shows an assembled state (two-point assembly) in which the other side plate 3 is attached. The assembly of (A) can be assembled without deforming the side plate 3 and the coupling arm 6, and the assembly of (B) is suitable for cut-off by bending of the coupling arm, and the assembly of (C). Is suitable for cutting and replacing cables.
[0013]
As shown in FIG. 3, the side plate 3 includes an integrally formed connecting rod 4 that protrudes outward from one side edge 3c, and the connecting rod 4 is fitted inside the other side edge 3d on the opposite side. The connecting groove 5 is provided and is integrally formed of synthetic resin. The connecting rod 4 is erected substantially vertically on the one side edge 3c, and is formed by a flexible portion 4a and a substantially rectangular parallelepiped engaging portion 4b bulging at the tip.
[0014]
The connecting groove 5 is composed of a groove portion 5a into which the flexible portion 4a of the connecting rod 4 enters the front end portion and a locking hole 5b into which the engaging portion 4b of the connecting rod 4 is fitted into the rear end portion. The lower surface of the groove portion 5a of the connecting groove 5 is formed as a curved surface inclined downward, and the distal end side of the connecting groove 5 is divergent. Since the distal end side of the connecting groove 5 is widened, the connecting rod 4 is easily bent by the flexible portion 4a.
[0015]
Further, the other side edge 3d of the side plate 3 is formed by a development regulating surface 3e whose upper part is substantially perpendicular to the connecting groove 5, and is formed by an inclined surface 3f whose lower part is inclined at a predetermined angle from the connecting groove 5. The
[0016]
In the protective guide 1, the connecting rod 4 of the side plate 3 of the link body 2 is fitted and locked in the connecting groove 5 of the side plate 3 of the adjacent link body 2, and the locking portion 4 b is press-fitted into the locking hole 5 b. By doing so, the adjacent link bodies 2 are connected to each other, and the connecting rod 4 is formed to be bendable by having the flexible portion 4a.
[0017]
The protection guide guide 1 houses cables therein and the moving end reciprocates. At the time of bending, the protection guide guide 1 is one of the side plates 3 of the link body 2 adjacent to the inclined surface 3 f of the side plate 3. Bends at a predetermined angle until the lower part of the side edge 3c comes into contact. In this case, the flexible portion 4a of the connecting rod 4 is bent. For example, when the inclined surface 3f of the side plate is inclined at approximately 18 ° as shown in FIG. 3, it is shown in FIG. Thus, the flexible part 4a of the connecting rod 4 bends at a maximum deformation angle of approximately 18 °.
[0018]
The protective guide guide 1 configured as described above is configured so that adjacent link bodies can be flexibly connected to each other by fitting and fixing the connecting rods of the side plates of the link bodies to the connecting grooves of the side plates of the adjacent link bodies. Therefore, there is no friction part when bending, and generation of dust due to friction can be prevented.
Further, since the link bodies are connected to each other by a connecting rod having a flexible portion formed integrally with the side plate, the protective guide guide 1 is used because the connecting rod tries to maintain an inherently designed angle. Even when the moving end moves at a high speed, the spring characteristics of the flexible portion can prevent the upper edge portion of the side plate from smoothly hitting the floor surface during bending and prevent generation of large noise.
Further, the connecting body 2 and the connecting groove on the side plate of the link body facilitate the attachment and detachment of the link body 2, so that the protection guide guide 1 can be easily connected and the link body can be easily added.
[0019]
As described above, as the means for connecting the side plates 3 of the adjacent link bodies 2, the engaging portion 4 b of the connecting rod 4 is press-fitted into the engaging hole 5 b of the connecting groove 5. As shown, the engaging projections 4c are formed on the upper and lower surfaces of the engaging portion 4b of the connecting rod 4 constituting the side plate 3, and the engaging groove 5c is formed in the connecting groove 5, When other side plates adjacent to each other are assembled from the side and the engaging portion 4b is fitted into the engaging hole 5b, the engaging protrusion 4c may be press-fitted and fixed into the engaging groove 5c.
[0020]
A second embodiment will be described with reference to FIG . First, the link body 12 of the protective guide guide 11 is connected to a pair of synthetic resin side plates that are opposed to each other by a connecting arm that horizontally spans between the upper edge and the lower edge, as in the first embodiment. It is formed by.
[0021]
Although not shown in detail in FIG. 6, the side plates constituting the link body 12, while connecting rods from the side edge protrudes outwardly is integrally formed with the connecting rod inside the other side edge of the opposite side A connecting groove into which is fitted is formed. This connecting rod is erected substantially vertically on one side edge, and is formed by a flexible portion and a substantially rectangular parallelepiped locking portion bulging at the tip thereof.
[0022]
The connecting groove includes a groove portion into which the flexible portion of the connecting rod enters the front end portion, and a locking hole into which the locking portion of the connecting rod is fitted into the rear end portion . Similarly, the lower surface of the groove portion of the connecting groove is formed as a curved surface inclined downward, and the distal end side of the connecting groove is formed so as to bend toward the end so that the link body can be bent.
That is, the lower surface of the groove portion of the connecting groove is not a straight line, but a curved line with a constant bending stress of the connecting rod , usually a curved surface with a constant radius of curvature . In this case, if the connecting groove is a straight line, only the end of the connecting rod is bent, so that the bending stress is increased and the life is shortened.
The locking hole is formed by a rectangular hole inclined at an angle (approximately 9 °) of ½ of an inclination angle (for example, approximately 18 °) of an inclined surface to be described later with respect to the perpendicular of the groove portion. Yes.
[0023]
The other side edge of the side plates, the upper portion than the connection groove is formed substantially perpendicular restrictor surfaces are formed by inclined surfaces which lower part the connecting groove is inclined at a predetermined angle (e.g., 18 °) The
[0024]
The protection guide guide 11 is formed by connecting adjacent link bodies 12 by connecting and fixing the connecting rods of the side plates of the link bodies 12 to the connecting grooves of the side plates of the adjacent link bodies 12.
[0025]
In this case, the engaging portion of the connecting rod of the link body 12 is fitted into the inclined engaging hole , but the protection guide as shown in FIG. 6 due to the spring characteristics of the flexible portion of the connecting rod. In the state where the guide 11 is deployed horizontally (the portion shown on the upper side in the same figure), the flexible portion is in contact with the upper surface of the groove portion and is horizontally regulated, but is in a state where it is bent to the maximum (the same figure). In the left part), the flexible part bends downward (for example, the deformation angle is approximately 9 °).
[0026]
In the bent state, the protective guide guide 11 configured as described above has a locking hole inclined with respect to the perpendicular of the groove portion of the connecting groove, so that the connecting rod at the time of maximum bending according to the first embodiment. of approximately half that of the deformation angle of the flexible portion of example 1 becomes (approximately 9 °), it can be made to the side plate of high rigidity made of synthetic resin, as a result, protective guides The lifetime of 11 can be extended.
[0027]
EXAMPLE 3 FIG. 7 will be described with reference to FIG. The protection guide 21 of the third embodiment corresponds to the protection guide guide according to the first embodiment in which a side wall cover is provided on the side plate 3, and hereinafter, the same mode members as those of the first embodiment are the same. A description will be given with reference numerals.
[0028]
The link body 22 is formed by connecting a pair of side plates 3 made of synthetic resin that are spaced apart from each other and connected by connecting arms 6 that horizontally cross between the upper and lower edges.
[0029]
The side plate 3 includes a side wall cover 27, and the side plate 3 and the side wall cover 27 are integrally molded plastic products. As in the first embodiment, the side plate 3 is integrally formed with a connecting rod 4 protruding outward from one side edge 3c, and the connecting rod 4 is fitted inside the other side edge 3d on the opposite side. The connecting groove 5 is formed, and the development regulating surface 3e and the inclined surface 3f are formed.
In this case, it is preferable that the side plate 3 and the side wall cover 27 are integrally formed, but they may be integrally formed by bonding, screwing or the like.
[0030]
The connecting rod 4 is erected substantially vertically on the one side edge 3c, and is formed of a flexible portion 4a and a substantially rectangular parallelepiped engaging portion 4b bulging at the tip thereof. The connecting groove 5 is composed of a groove portion into which the flexible portion 4a of the connecting rod 4 enters the front end portion and a locking hole into which the engaging portion of the connecting rod 4 is fitted and locked at the rear end portion. The front end side of the groove 5 is formed so as to widen toward the end.
[0031]
The protection guide guide 21 is connected to the adjacent link bodies 2 by fitting and fixing the connecting rod 4 of the side plate 3 of the link body 22 into the connection groove 5 of the side plate 3 of the adjacent link body 22. The protective guide guide 21 can be bent by the connecting rod 4 having the flexible portion 4a.
[0032]
In the protective guide guide 21 configured as described above, the side plates 3 constituting the link body 22 are provided with the side wall cover 27 on the outside, so that the positions of the link bodies 22 connected by the connecting rod 4 are restricted. Lateral displacement can be prevented, and as a result, cutting due to detachment of the side plates 3 of the protection guide guide 21 can be prevented.
Further, since the position of the link body 22 is regulated by the side wall cover 27, there is no need to press-fit the engaging portion of the connecting rod into the engaging hole of the connecting groove, and the assembly becomes easy. It is possible to prevent pinching between the side plates.
[0033]
EXAMPLE 4 FIG. 9 (A), (B) , will be described with reference to (C). The protection guide guide 31 of the fourth embodiment is such that a side wall cover 37 is added to the side plate 33 substantially the same as the side plate 3 of the first embodiment, and the coupling arms of adjacent link bodies are partially overlapped. Equivalent to.
[0034]
The link body 32 is formed as a side plate 33 by connecting a pair of side plates 33 made of synthetic resin, which are opposed to each other, by a plate-like connecting arm 36 that horizontally spans between upper and lower edges. The coupling arm 36 is formed by plate portions 36b and 36c having a stepped portion 36a, and one plate body portion 36b and the other plate body portion 36c are mutually connected when the link body 32 is connected by a connecting rod 34. It is supposed to overlap.
In this case, a cutout 33a is formed in the side plate 33, and a stepped portion 36a of the coupling arm 36 enters the cutout 33a. The coupling arm 36 is detachably fixed to the side plate 33 by screws or the like. Is done.
[0035]
The side plate 33 has a side wall cover 37 integrally formed on the outer side thereof, and a connecting rod 34 protruding outward from one side edge, and a connecting rod 34 is fitted inside the other side edge on the opposite side. A connecting groove 35 is provided. The connecting groove 35 includes a groove portion 35a into which the flexible portion 34a of the connecting rod 34 is inserted at the front end portion thereof, and an engaging hole 35b into which the engaging portion 34b of the connecting rod 34 is fitted into the rear end portion. .
[0036]
The protection guide guide 31 is formed by connecting adjacent link bodies 32 to each other by a connecting rod 34 of a side plate 33 having a side wall cover 37 and a connecting groove 35, and connecting the side plates 33 and 33 by a connecting arm 36. The
[0037]
As shown in FIG. 9 (C), the protection guide guide 31 having the above-described configuration is such that, in the expanded state and the bent state, the connecting arm 36 of the adjacent link body 32 has the plate portion 36b with the stepped portion 36a as a boundary. 36c overlap with each other and the side wall cover 37 closes the sides thereof, so that the inside of the protective guide guide 31 can be made to be a fully closed type.
Therefore, pinching between side plates can be prevented, chips can be prevented from entering from the outside (when used in a machine tool), and at the same time, the wear powder of cables should not be exposed to the outside. And the cleanliness can be improved.
[0038]
As mentioned above, although Example 1-4 was demonstrated, the modification as another aspect is shown below. FIG. 10 (A), the (B), the connecting rod 44 of the side plate 43 and having a flexible portion 44a and the locking portion 44b, and a the locking portion 44b notched groove 44c and the hook 44d It may be included. Thus, when the latching | locking part 44b is formed, the connection rod 44 can be inserted and connected to the groove | channel 45 for a connection from a longitudinal direction.
In this case, if the side plate 43 is formed with the side wall cover 47, the side plate 43 will not be laterally displaced, and if the notch hole 47a is formed in the side wall cover 47, the locking portion 44b is deformed from the outside. You can remove the link.
[0039]
In each embodiment, the shape of the locking portion formed at the tip of the connecting rod has been described as a rectangular body, but an elliptical shape or a circular shape may be used. Alternatively, the strength may be increased by embedding a wire along the longitudinal direction of the connecting rod by insert molding in the flexible portion of the connecting rod of the side plate.
In addition, the flexible portion of the connecting rod is formed by integrally molding the side plate with a synthetic resin. In order to increase the rigidity of the protective guide guide, the side plate is made of a high-rigidity synthetic resin. In this case, the side plate may be integrally formed with the flexible part of the connecting rod made of soft synthetic resin.
In this case, when different kinds of resin are injected into the mold from another gate and integrally molded, both are mixed at the boundary surface and firmly bonded.
Furthermore, in each Example, although the thing which integrally molded the side plate provided with the connecting rod which has a flexible part, and the groove for a connection with the synthetic resin was demonstrated, it is good also as a metal product formed with the metal.
[0040]
Further, as shown in FIG. 11 , the bulging portion may not be formed at the distal end portion 54a of the connecting rod 54 of the side plate 53. In this case, the rear end portion 55a of the engaging groove 55 and the connecting rod It is also possible to connect the front end portion 54a of 54 with an adhesive or the like, and the side plates can be separated by inserting a flathead screwdriver or the like.
[0041]
【The invention's effect】
As described above, according to the present invention, the side plate constituting the link body includes the connecting rod having the flexible portion that is integrally formed by projecting to the outside of the one side edge, and the other side on the opposite side. It is provided with a connecting groove for fitting a connecting rod inside the edge, and the connecting rods of the side plates of the link body are fitted and locked in the connecting grooves of the side plates of the adjacent link body, so that the adjacent link bodies are connected to each other. Since they are connected so as to be freely bent, there is no frictional part when bending, and generation of dust due to friction can be prevented.
Moreover, since the side plate provided with the connecting rod and the connecting groove is formed integrally, the connecting rod and the side plate are formed separately, and two connecting grooves into which the connecting rod is fitted to the side plate are formed. The number of parts can be reduced as compared with the one, and the protective guide guide can be easily assembled, cut off, and linked easily.
[0042]
In the cable protection guide, the side plates of adjacent link bodies are connected by a connecting rod and a connecting groove, so the link bodies try to maintain an inherent angle at which the connecting rod is designed. Even when the link body moves from an unstable position on the way to a stable position on the floor surface during the movement of the bent portion of the protective guide guide, the link body suddenly moves due to the spring characteristics of the flexible portion of the connecting rod. It is possible to make the upper edge of the side plate smoothly touch the floor surface without being rotated, and as a result, it is possible to prevent the generation of loud noise.
[0043]
Further, the cable body protection guide is connected to the link body by fitting and locking the connecting rod of the side plate of the link body into the connecting groove of the side plate of the adjacent link body. This facilitates the initial assembly of the protective guide, cut-off, and addition of the link body.
[0044]
The side plate constituting the link body is formed with a bulging locking portion at the front end portion of the connecting rod, and a locking hole into which the locking portion is fitted and locked is formed at the rear end portion of the connecting groove. In this case, the link body locking part formed on the side plate of one link body can be fitted and locked in the locking hole of the adjacent link body, so that the link bodies can be bent firmly. Can be linked.
[0045]
The other side edge of the side plate is bent at a predetermined angle by forming a portion below the coupling groove with an inclined surface so that adjacent link bodies can be bent at a predetermined angle. In addition, since the leading end side of the connecting groove is formed so as to widen toward the end, the link bodies can be easily bent at the time of bending.
[0046]
When the side wall cover is provided on the outer side surface of the side plate, the side wall cover can prevent the adjacent link bodies from being shifted to the side, and can prevent foreign matter from being caught.
[0047]
When the side plate constituting the link body has a side wall cover on the outer surface and the coupling arm has an overlapping portion where the coupling arms of adjacent link bodies overlap each other, the side wall cover of the side plate and the coupling arm having the overlapping portion The inside of the protective guide guide can be sealed, and as a result, dust generated from cables during the reciprocating movement of the moving end can be prevented from being scattered to the outside, and the protective guide from the outside can be prevented. It is possible to prevent foreign matter from entering the guide.
[Brief description of the drawings]
FIG. 1 is a perspective view illustrating a bent portion of a cable protection guide according to a first embodiment of the present invention.
FIG. 2 shows the disassembled and assembled state of the link body, and (A), (B) and (C) are explanatory views of different disassembled and assembled states, respectively.
FIG. 3 is a side view of the side plate of the above.
FIG. 4 is an operation explanatory diagram at the bent portion of the cable protection guide according to the above.
FIG. 5 is a perspective view of a modified side plate.
FIG. 6 is a perspective view showing a bent portion of a cable protection guide according to the second embodiment of the present invention.
FIG. 7 is a perspective view of a link body according to a third embodiment of the present invention.
FIG. 8 is a perspective view showing the bent portion of the cable protection guide according to the above.
9 shows an embodiment 4, (A) is a perspective view of the bent portion of the cable protection and guide the guide, (B) is partially cut perspective view of the coupling arm is attached to the side plate, (C) is State explanatory drawing of a bending part.
FIG. 10 shows another modification of the side plate, (A) is a partially cutaway perspective view of the side plate, and (B) is a side view showing a connected state of the side plates.
FIG. 11 is a side view showing another modification of the side plate.
[Explanation of symbols]
1, 11, 21, 31 ... Cable protection guides 2, 12, 22, 32 ... Link body
3, 33 ... side plate 3a ... recessed part 3b ... projection
3c ... one side edge
3d, 33d ... the other side edge
3e ... Deployment restriction
3f: inclined surface 3g: projection
4, 34 ... connecting rod
4a: Flexible part
4b, 34b ... locking part 4c ... engagement protrusion
5, 35 ... Connecting groove
5a, 35a ... groove
5b, 35b ... locking hole 5c ... locking groove 6 ... coupling arm 6a ... hole 27, 37 ... side wall cover 36 ... coupling arm 36a ... step 36b, 36c .... Plate body part 43 ... Side plate 44 ... Connection rod 44a ... Flexible part 44b ... Locking part 44c ... Notch groove 44d ... Hook 45 ... Connection groove 47 ... Sidewall cover 47a ... Notch hole

Claims (5)

In a cable protection guide formed by a plurality of link bodies formed by connecting a pair of spaced-apart side plates connected by connecting arms that horizontally cross between the upper edge and the lower edge, in the longitudinal direction,
The side plate includes a connecting rod having a flexible portion that is integrally formed so as to protrude outward from one side edge of the side plate, and a connecting groove into which the connecting rod is fitted inside the other side edge on the opposite side. With
Cables protection characterized in that adjacent link bodies are flexibly connected to each other by connecting and engaging the connecting rods of the side plates of the link bodies to the connecting grooves of the side plates of the adjacent link bodies. Information guide.   A bulging locking portion is formed at the front end of the connecting rod, and a locking hole into which the locking portion is fitted and fixed is formed at the rear end of the connecting groove. The cable protection guide according to claim 1.   The other side edge of the side plate is formed with an inclined surface at a portion below the connecting groove so that adjacent link bodies can be bent at a predetermined angle, and the leading end side of the connecting groove is formed to be widened toward the end. The cable protection guide according to claim 1 or 2, wherein the cable protection guide.   The cable side protection guide according to any one of claims 1 to 3, wherein the side plate includes a side wall cover on an outer surface thereof.   5. The cable protection guide according to claim 4, wherein the coupling arm has an overlapping portion where coupling arms of adjacent link bodies overlap each other.

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