JP2004282976A - Cable protector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a new cable protector that can be manufactured at low cost and thereby makes it possible to lay cables at low cost. <P>SOLUTION: This cable protector is provided with protector bodies 2, which has one pipe half 4 on the top surface of which one cable accommodating grooves 7, 8 that accommodate cables C1, C2 are formed and one positioning portions 9-12 are formed, and the other pipe half 5, which is put on the one pipe half 4 and on the bottom surface of which the other cable accommodating grooves 20, 21 that accommodate the cables C1, C2 are formed at the positions corresponding to the one cable accommodating grooves 7, 8 and the other positioning portions 22, 23 are also formed at the positions corresponding to the one positioning portions 9-12; and a connecting pin 3 that connects these protector bodies 2 to each other in the longitudinal direction of the cable C1, C2 and at both ends of which locking portions 3b, 3c are each formed. The one pipe half 4 and the other pipe half 5 are formed into the same shape. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a cable protector used to protect cables such as high-voltage cables and optical fiber cables buried underground.
[0002]
[Prior art]
Hitherto, a cable such as a high-voltage cable or an optical fiber cable uses a cable protector to protect the cable from external force when it is buried in the ground. For example, the cable protectors disclosed in JP-A-11-355947 and JP-A-2003-21294 are used for the above-mentioned purpose. The cable protector disclosed in JP-A-11-355947 is composed of a convex body, a concave body, and a connecting pin. The convex body and the concave body are each of a vertical split type, and the convex body has a connecting convex portion, while the concave body has a concave portion. I have. Each of the convex body and the concave body has an arc groove through which a cable is inserted. Further, the connecting pin connects the convex body and the concave body. On the other hand, the cable protector disclosed in the above-mentioned Japanese Patent Application Laid-Open No. 2003-21294 discloses a pipe main body composed of a pair of half-pipe bodies, a pair of half-pipe bodies fixed to maintain the pipe main body, and It consists of a pair of connecting half pipes for connecting another pipe main body.
[0003]
[Patent Document 1]
JP-A-11-355947
[0004]
[Patent Document 2]
JP 2003-21294 A
[0005]
[Problems to be solved by the invention]
However, in the conventional cable protectors described above, not only are all formed by combining a plurality of members, but also because the shapes of the respective members are different from each other, the cost is high, and finally the cable laying is performed. Costs are relatively high. That is, the convex body and the concave body constituting the cable protector disclosed in the above-mentioned Japanese Patent Application Laid-Open No. 11-355947 have different shapes, and the convex body and the concave body are respectively different from each other. It is composed of an upper body, an intermediate body, and a lower body, and the shape of each of the upper body (and lower body) and the intermediate body is different. That is, in the cable protector disclosed in Japanese Patent Application Laid-Open No. 11-355947, four types of members having different shapes are required except for the connecting pins. In the cable protector disclosed in JP-A-2003-21294, each half pipe has the same shape, and each connection half pipe has the same shape. Is required.
[0006]
Therefore, the present invention has been proposed in order to solve the problems of the above-described conventional cable protector, and can be manufactured at extremely low cost, and thus, the cable can be laid at low cost. It is an object of the present invention to provide a new cable protector that can be used.
[0007]
[Means for Solving the Problems]
SUMMARY OF THE INVENTION The present invention has been proposed to solve the above-mentioned problems. A first invention (the invention according to claim 1) is a device in which one cable accommodating groove for accommodating a cable is formed on an upper surface. And a cable receiving groove which is placed on the one half pipe and accommodates a cable at a position corresponding to the one cable receiving groove is formed on the lower surface. And a protective body having the other half-pipe body having the other positioning portion formed at a position corresponding to the one positioning portion, and connecting the protective body to each other in a cable length direction. In addition, a connecting pin having an engaging portion formed at each end is provided, and the one half tube and the other half tube have the same shape, respectively.
[0008]
In the first invention, since the cable is accommodated in the one cable accommodating groove formed in the one half tubular body and the other cable accommodating groove formed in the other half tubular body, The embedded cable can be effectively protected, and the one half tube and the other half tube which are positioned by the one and the other positioning portions are not displaced. In particular, in the first invention, since one half tube and the other half tube constituting the protective body main body are respectively formed in the same shape, only one type is provided except for the connecting pin. It is sufficient to manufacture the member described above, and it is possible to realize a large cost reduction.
[0009]
The connecting pin constituting the first aspect of the present invention is not particularly limited as long as it connects the protector main bodies to each other in the length direction of the cable and has an engaging portion formed at each end. Although not limited thereto, by using a resilient or bendable material such as soft rubber as the material of the connecting pin, it can be used even when the cable laying route is curved. In addition, the one positioning portion formed on the one half tube and the other positioning portion formed on the other half tube are respectively provided on the upper surface of the one half tube or the other half tube. It may be formed on the lower surface, or may be formed on the side surface of one or the other half tube.
[0010]
Further, according to a second invention (an invention according to claim 2), in the first invention, a concave portion is formed at one end of the protective body, and at the other end of the protective body, A protrusion is formed to be inserted into the recess formed in the other protective body connected via the connection pin.
[0011]
In the second invention, a concave portion is formed at one end of the protective body, and the concave portion is formed at the other end of another protective body connected via the connecting pin. Is formed between the specific protective body connected in the longitudinal direction of the cable and the other protective body connected before and after the specific protective body. A gap is formed in the cable, and the cable is exposed from the gap so that no external force acts on the cable, and the cable can be further protected.
[0012]
Further, according to a third invention (an invention according to claim 3), in the second invention, the outer shape of the convex portion formed on the protective body main body has a curved shape and is formed into a tapered shape. The concave portion is formed in a shape slightly larger than the shape of the convex portion, and the protector main bodies connected to each other via the connecting pin are bendable.
[0013]
In the third aspect, since the protector bodies connected to each other via the connection pins are bendable, even if the cable laying route is curved, it can be handled. .
[0014]
Further, according to a fourth invention (an invention according to claim 4), in the first, second, or third invention, the connecting pin is provided with a shaft and one hook formed at one end of the shaft. A stop portion, and the other hook portion formed at the other end of the shaft portion, and the one hook portion on the upper surface on one end side of one half pipe constituting the protective body main body; A lower accommodation space for accommodating a part of the shaft portion is formed, and the other hooking portion and a part of the shaft portion are provided on the upper surface on the other end side of the one half tube. The other lower housing space for housing is formed, and one upper housing for housing the shaft body of the one hook portion and a part of the shaft portion is provided on the lower surface on one end side of the other half pipe body. A space is formed, and another upper housing space in which the other hooking portion and a part of the shaft portion are housed is formed on the upper surface on the other end side of the other half tube. It is characterized in.
[0015]
According to the fourth invention, in the cable laying operation, first, a large number of the one half pipes are installed in the longitudinal direction of the cable, and then the one lower housing space and the other lower housing are connected. The connection pin is accommodated in the accommodation space, and then a cable is laid in one continuous cable accommodation groove. Finally, while the other half pipe is placed, the one positioning part and the other are positioned. By positioning with the parts, the cable is protected by the inside of the protective body, and each protective body is connected by the connecting pin. That is, according to the fourth aspect, since the cable can be laid in a protected state only by the work of placing each member, the workability can be greatly improved.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a cable protector according to an embodiment of the present invention will be described in detail with reference to the drawings.
[0017]
As shown in FIG. 1, when laying two cables C1 and C2, the cable protector 1 is used by connecting a large number of them to protect the cables C1 and C2. It comprises a body 2 and a connecting pin 3. As shown in FIG. 2, the protection body main body 2 includes one half tube 4 and the other half tube 5 placed on the one half tube 4. The connection pin 3 is formed integrally with a synthetic resin, and includes a shaft portion 3a formed in a cylindrical shape, and one engagement portion 3b formed in a disk shape at one end of the shaft portion 3a. The other end of the shaft portion 3a and the other engaging portion 3c formed in a disk shape.
[0018]
The one and the other half tubes 4, 5 are both integrally formed of a synthetic resin and are formed into the same shape. Therefore, the same reference numerals can be used for the reference numerals of the one and the other half tubes 4, 5 in the drawing, but in order to avoid ambiguity, as described above, different names and different names are used. Description will be made using reference numerals.
[0019]
The lower surface of the one half pipe 4 is formed as a rectangular horizontal surface 4a, the left side surface 4b is erected at a right angle from the left end of the horizontal surface 4a, and the right side surface 4c is also erected at a right angle from the right end of the horizontal surface 4a. ing. In addition, first to third horizontal planes 4d, 4e, 4f are formed on the upper surface of the one half tube 4, and the first horizontal plane 4d and the second horizontal plane 4e are provided between the first horizontal plane 4d and the second horizontal plane 4e. A first lower cable accommodation groove 7 for accommodating the cable C1 is formed. Further, between the second horizontal surface 4e and the third horizontal surface 4f, a second lower cable housing groove which is parallel to the first lower cable housing groove 7 and houses the cable C2. 8 are formed. The first and second lower cable accommodation grooves 7, 8 are one of the cable accommodation grooves constituting the present invention, and form accommodation spaces for accommodating the lower half of each of the cables C1, C2. The one half tube 4 has a length from one end to the other end.
[0020]
In addition, a first lower convex portion 9 is protruded from one end of the first horizontal surface 4d constituting the one half tube body 4, and the other end of the first horizontal surface 4d is A second lower convex portion 10 is provided so as to protrude. Further, a first lower concave portion 11 is formed at one end of the third horizontal surface 4f constituting the one half-tube body 4, and a second lower concave portion 11 is formed at the other end of the third horizontal surface 4f. Is formed. The first lower convex portion 9 and the second lower convex portion 10 and the first lower concave portion 11 and the second lower concave portion 12 are one positioning portion constituting the present invention.
[0021]
In addition, one end of the second horizontal surface 4e that forms the one half-pipe body 4 has one lower part in which the other engagement part 3c that forms the connection pin 3 and a part of the shaft part 3a are accommodated. A side recess 15 is formed. The other end of the second horizontal surface 4e that forms the one half tube 4 has the other engagement portion 3b that forms the connection pin 3 and the other half that accommodates a part of the shaft portion 3a. A lower recess 16 is formed. These lower housing recesses 15 and 16 are lower housing spaces constituting the present invention, and are both substantially T-shaped. The one lower concave portion 15 is provided with a first semi-circular space 15a in which the lower side is accommodated from the center of the other engaging portion 3c, and communicates with the first space 15a. And a second space 15b having a semi-circular shape in which a lower side is accommodated from the center of the first engaging portion 3b. It comprises an arc-shaped third space 16a and a semicircular fourth space 16b which communicates with the third space 16a and accommodates the lower side from the center of the shaft 3a. The one and other lower concave portions 15 and 16 have an inner diameter larger than the outer diameter of the connecting pin 4. That is, the first space 15a has an inner diameter larger than the outer diameter of the other engaging portion 3c, and the second space 15b has a smaller inner diameter than the outer diameter of the other engaging portion 3c and the shaft portion. The third space 16a has an inner diameter larger than the outer diameter of the one engaging portion 3b, and the fourth space 16b has an inner diameter larger than the outer diameter of the one engaging portion 3b. The inner diameter is smaller than the outer diameter of the portion 3b and larger than the outer diameter of the shaft portion 3a.
[0022]
Further, at one end of the one half tube 4, a lower half protrusion 17 swelling in the length direction of the cables C1 and C2 is formed, and at the other end (the one half tube). A lower half recess 18 into which the lower half projection 17 (formed on one half tube connected by the connecting pin 3) is inserted is formed behind the body 4. The lower half convex portion 17 is inclined so as to gradually approach the cable C1 and C2 directions from one end surface of the one half tubular body 4 along the length direction of the cables C1 and C2 (tapered shape). On the other hand, as shown in FIG. 3, the lower half concave portion 18 substantially corresponds to the outer shape of the lower half convex portion 17 as shown in FIG. The space is larger than the convex portion 17.
[0023]
In addition, the other half tube 5 mounted on the one half tube 4 configured as described above has the same configuration as the one half tube 4 as described above. A typical configuration will be described. As shown in FIG. 2, the lower surface has a shape similar to that of the first lower cable housing groove 7 and a first housing in which the upper side from the center of the cable C1 is housed. The upper cable receiving groove 20 is formed in parallel with the first upper cable receiving groove 20, and has the same shape as the second lower cable receiving groove 8, so that the upper side from the center of the cable C2 is received. A second upper cable receiving groove 21 is formed. Also, on the lower surface of the other half-pipe body 5, there is provided a first upper-side concave portion 11 formed on the upper surface (third horizontal surface 4 f) of the one half-pipe body 4. A convex portion 22 is formed, and a second upper convex portion 23 that fits into the second lower concave portion 12 is formed behind the first upper convex portion 22. A first lower protrusion 9 formed on the upper surface (first horizontal surface 4d) of the one half tube 4 fits on the lower surface of the other half tube 5. An upper concave portion is formed, and a second upper concave portion (not shown) into which the second lower convex portion 10 is fitted is formed.
[0024]
Also, at one end of the other half-pipe 5, an upper half-projection 24 identical to the lower half-projection 17 formed at the one half-pipe 4 is formed, and at the other end, An upper half recess 25 (see FIG. 1) identical to the lower half recess 18 is formed.
[0025]
Hereinafter, a working method of laying the cables C1 and C2 using the cable protector 1 according to the above-described embodiment or a method of using the cable protector 1 will be briefly described.
[0026]
When laying the cables C1 and C2 using the cable protector 1, first, the one half-pipe 4 is placed on the laying route of the cables C1 and C2 (not shown). In this case, when one (one) half pipe 4 is installed such that the lower half projection 17 formed on the one half pipe 4 is located forward. Behind the one half tube 4, the lower half convex portion formed on the next (one) half tube 4 is provided with the lower half formed on the one half tube 4 already installed. The half pipe 4 is set so as to be located in the side half recess 18, and the next (one) half pipe 4 is placed behind the (one) half pipe 4. That is, as shown in FIG. 3, when a large number of (one) half pipes 4 are installed, in this example, the one half pipe 4 is first installed on the rightmost side, and the next half pipe 4 is installed on the left side. The (one) half pipe 4 is installed, and the next (one) half pipe 4 is installed in the route of laying the cables C1 and C2.
[0027]
Then, when the work of installing a large number (one) of the half tubes 4 is completed in the manner described above, the connecting pins 3 are then connected to the respective (one) half tubes 4 as shown in FIG. To accommodate. That is, since the space for accommodating the connection pin 3 is formed by the one of the front and rear half pipes 4 installed in the manner described above, the connection pin 3 is accommodated in the space. In addition, by accommodating the connection pins 3 in this manner, the respective one half pipes 4 are temporarily connected, so that the laying routes of the cables C1 and C2 can be bent (curved) in this state.
[0028]
When the accommodating operation of the connecting pins 3 is completed, the cable C1 is inserted into the continuous first lower cable accommodating groove 7 formed on the upper surface of the multiple (one) half pipes 4. The cable C2 is laid in the second lower cable accommodation groove 8 which is also continuous. When the work of laying the cables C1 and C2 is completed, the other half-pipe 5 is placed and fixed from above one half-pipe 4 in this manner. In this case, unlike the above-described installation procedure of one half-pipe 4, the one-pipe half-pipe 4 installed at the rearmost position among the many (one) half-pipe 4 already installed and the above-mentioned other half-pipe 4 And fix the half-pipe body 5.
[0029]
According to such a working method, the specific protective body 2 and the protective body 2 before and after the specific protective body 2 are connected via the connection pins 3, respectively, and the cable C1 is connected to the continuous The cable C2 is inserted into a not-shown insertion groove formed by the first lower cable accommodation groove 7 and the first upper cable accommodation groove 20, and the cable C2 is connected to the continuous second lower cable accommodation groove 8. One end of the protection body 2 is inserted into a not-shown insertion groove formed by the second upper cable housing groove 21 and is formed by the lower half-half convex portion 17 and the upper half-half convex portion 24. Is formed in a recess (not shown) provided at the other end of the protective body 2 by the lower half recess 18 and the upper half recess 25. Is inserted into . In addition, each of the one half-pipe body 4 and the other half-pipe body 5 is connected to a first upper protrusion 22 or a second lower recess 12 fitted in the first lower recess 11. Is fixed and positioned by the second upper convex portion 23 fitted to the first position.
[0030]
Therefore, according to the cable protector 1 according to the above-described embodiment, not only can the cables C1 and C2 be prevented from being damaged by external force and can be reliably protected, but also, as described above, the one half-pipe body Since both 4 and the other half-pipe 5 have the same shape, the manufacturing cost can be greatly reduced, and the cables C1 and C2 can be laid inexpensively. Moreover, in the cable protector 1 described above, the cables C1 and C2 can be laid according to the work procedure described above, so that skill is not required, and the cables C1 and C2 can be laid extremely simply and quickly. Further, according to the cable protector 1 according to this embodiment, instead of laying the cables C1 and C2 in a straight line as shown in FIG. 1, as shown in FIGS. C2 can be laid in a curved state.
[0031]
In the cable protector 1 according to the first embodiment described above, the connecting pins 3 for connecting the protector main bodies 2 and the protector main bodies 2 are formed of synthetic resin. The material of the connecting pin constituting the present invention does not necessarily need to be made of a synthetic resin, but may be a material that can be elastically deformed such as rubber. As described above, when the connecting pin is formed of a material that can be elastically deformed, one and the other lower housing recesses 15 and 16 formed in one half tube 4 which is a component of the above-described cable protector 1. Alternatively, one and the other upper housing recesses (not shown) formed in the other half tube 5 can be formed in a shape corresponding to the outer shape of the connection pin 3.
[0032]
Further, the cable protector 1 according to the above-described embodiment is used when laying the two cables C1 and C2, but the present invention uses the two cables C1 and C2 as described above. It is not limited to the one used when laying, and for example, it may be used when laying one cable (not shown), as shown in FIGS. 6 and 7. Alternatively, a cable used when laying three cables C1, C2, and C3 may be used. 6 and 7 show a cable protector 30 according to a second embodiment of the present invention. The cable protector 30 includes a protector body 31, one half-pipe 32, and the other half-pipe 33. , And two connecting pins 34 and 35 for connecting the respective protective body bodies 31.
[0033]
The one half pipe 32 has a first lower cable housing groove 36 in which the cable C1 is housed on the upper surface, a second lower cable housing groove 37 in which the second cable C2 is housed, The third lower cable accommodation grooves 39 for accommodating the third cable C3 are formed in parallel with each other. Also, the first to fourth flat portions 32a... 32d are formed on the one half tube 32, and the first flat portion 32a is provided with the cable protection according to the first embodiment. First and second lower convex portions 40 and 41 having the same shape as the first lower convex portion 9 and the second lower convex portion 10 constituting the body 1 are protruded. The fourth horizontal surface 32d of the one half tube 32 has first and second lower concave portions formed in the same shape as the first and second lower concave portions 11 and 12. 42 and 43 are formed. Further, the second flat portion 32b and the third flat portion 32c have the same configuration as the lower housing recesses 15 and 16 of the cable protector 1 according to the first embodiment. , Two lower receiving recesses 44, 45, 46, 47 are formed. Also, a lower half convex portion 48 is formed at one end of the one half tube 32, and a lower half concave portion 49 is formed at the other end.
[0034]
Further, the other half-pipe body 33 mounted on the one half-pipe body 32 configured as described above has the one half-pipe body 33 in the same manner as the protector body 2 according to the above-described first embodiment. It has the same configuration as the half tube 32, and a typical configuration thereof will be described. A first lower cable receiving groove for receiving the cable C1 is provided on the lower surface of the other half tube 33. 37, a second upper cable housing groove 51 corresponding to the second lower cable housing groove 38 in which the second cable C2 is housed, and a third cable Third upper cable housing grooves 52 corresponding to the third lower cable housing grooves 39 in which C3 is housed are formed in parallel with each other. The lower surface of the other half tube 33 is provided on the lower surface of the one half tube 32 with a first upper recess 42 formed on the upper surface (fourth horizontal surface 32d). A convex portion 53 is formed, and a second upper convex portion 54 that fits into the second lower concave portion 43 is formed behind the first upper convex portion 53. A first lower projection 40 (not shown) formed on the lower surface of the other half tube 33 is fitted with a first lower projection 40 formed on the upper surface (first horizontal plane 32a) of the one half tube 32. An upper concave portion is formed, and a second upper concave portion (not shown) into which the second lower convex portion 41 is fitted is formed. Also, at one end of the other half tube 33, an upper half protrusion 55 identical to the lower half protrusion 48 formed on the one half tube 32 is formed, and at the other end, An upper half (not shown) identical to the lower half recess 49 is formed. In the cable protector 30 according to the second embodiment, the method of use and the method of installation are the same as those of the cable protector 1 according to the first embodiment described above, and a description thereof will be omitted. .
[0035]
Even in the case of the cable protector 30 according to the above-described second embodiment, not only can the cables C1 and C2 be prevented from being damaged by an external force and can be reliably protected. Since the half-pipe 4 and the other half-pipe 5 have the same shape, the manufacturing cost can be greatly reduced, and the cables C1 and C2 can be laid at low cost.
[0036]
In the cable protectors 1 and 30 according to the above-described first and second embodiments, one of the positioning portions and the other positioning portion constituting the present invention are formed as convex portions or concave portions, and each of the positioning portions is formed as one half. Although formed on the upper surface of the tubular body or the lower surface of the other half tubular body, the one and other positioning portions constituting the present invention need not be convex portions or concave portions in this way, and the one and other portions are not necessary. The positioning portion does not necessarily need to be formed on the upper surface of one half tube or the lower surface of the other half tube, and may be formed on the side surface of one half tube or the other half tube. good. For example, a lower engaging portion is formed on one side of one of the half tubes each having the same shape, and a lower engaging piece is formed on the other side, while the other half tube is formed on the other side. The other side may be provided with an upper engaging portion that engages with the lower engaging portion, and one side may be formed with an upper engaging portion that engages with the lower engaging portion. good.
[0037]
【The invention's effect】
As is clear from the description of each of the above embodiments, in the first invention (the invention according to claim 1), one of the cable housing grooves formed in the one half pipe and the other half pipe are provided. Since the cable is accommodated in the other cable accommodating groove formed, the cable buried in the ground can be effectively protected, and the one half pipe body positioned by the one and other positioning portions is provided. And the other half tube are not displaced. In particular, in the first invention, since one half tube and the other half tube constituting the protective body main body are respectively formed in the same shape, only one type is provided except for the connecting pin. It is sufficient to manufacture the member described above, and it is possible to realize a large cost reduction.
[0038]
In the second invention (the invention according to claim 2), the protection body has one end formed with a concave portion, and the other end connected to the other end of the protection body via the connection pin. Since the convex portion to be inserted into the concave portion formed in the body main body is formed, a specific protective body connected in the length direction of the cable, and a specific protective body connected before and after this specific protective body are connected. A gap is formed between the main body and the other protective body, and the cable is exposed from the gap so that external force does not act on the cable, thereby further protecting the cable.
[0039]
Further, in the third invention (the invention according to claim 3), since the protection body main bodies connected to each other via the connection pins are bendable, the case where the cable laying route is curved may be used. Even this can be accommodated.
[0040]
According to the fourth invention (invention of claim 4), in the cable laying work, first, a large number of the one half pipes are installed in the length direction of the cable, and then the one half pipe is installed. The connection pins are accommodated in the lower accommodation space and the other lower accommodation space, and then a cable is laid in one continuous cable accommodation groove. By positioning by the one positioning part and the other positioning part, the cable is protected by the inside of the protective body, and each protective body is connected by the connecting pin. That is, according to the fourth aspect, since the cable can be laid in a protected state only by the work of placing each member, the workability can be greatly improved.
[Brief description of the drawings]
FIG. 1 is a plan view showing a state in which a cable protector according to a first embodiment of the present invention has been installed.
FIG. 2 is an exploded perspective view of the cable protector shown in FIG.
FIG. 3 is a plan sectional view of the constructed cable protector.
FIG. 4 is a plan view showing a state where the cable is laid in a curved state.
FIG. 5 is a plan sectional view showing a state in which the cable is laid in a curved state.
FIG. 6 is an exploded perspective view of a cable protector according to a second embodiment of the present invention.
FIG. 7 is a plan sectional view showing a state in which the cable is bent and laid using the cable protector shown in FIG. 6;
[Explanation of symbols]
1 Cable protector
2 Protector body
3 Connecting pins
3a Shaft
3b One engaging part
3c The other engaging part
4 One half tube
5 The other half tube
7 First lower cable receiving groove
8 Second lower cable receiving groove
9 1st lower convex part
10 2nd lower convex part
11 First lower recess
12 Second lower recess
17 Lower half convex
18 Lower half recess
20 first upper cable receiving groove
21 Second upper cable receiving groove
22 1st upper convex part
23 2nd upper convex part
24 Upper half convex
25 Upper half recess
30 Cable protector
31 Protector body
32 One half tube
33 The other half tube
34,35 connecting pin
37 1st lower cable accommodation groove
38 Second lower cable receiving groove
39 Third lower cable receiving groove
40 1st lower convex part
41 2nd lower convex part
42 first lower recess
43 Second lower recess
48 Lower half convex
49 Lower half recess
50 first upper cable receiving groove
51 Second upper cable receiving groove
52 Third upper cable receiving groove
53 1st upper convex part
54 2nd upper convex part
55 Upper half convex
C1, C2, C3 cable

Claims (4)

One half pipe body in which one cable housing groove for housing the cable is formed on the upper surface and one positioning portion is formed,
The other cable receiving groove which is placed on the one half pipe body and accommodates the cable at a position corresponding to the one cable accommodating groove is formed on the lower surface, and the other cable accommodating groove is located at a position corresponding to the one positioning portion. A protective body having the other half-pipe formed with the positioning portion of
A connecting pin that connects these protector bodies to each other in the length direction of the cable, and a connecting pin formed with an engaging portion at each end.
The one half pipe and the other half pipe each have the same shape. A recess is formed at one end of the protection body, and the other end of the protection body is inserted into the recess formed at another protection body connected via the connection pin. The cable protector according to claim 1, wherein a convex portion formed is formed. The outer shape of the convex portion formed on the protective body main body has a curved surface shape and is formed into a tapered shape, and the concave portion is formed into a slightly larger shape than the shape of the convex portion. 3. The cable protector according to claim 2, wherein the protector bodies connected to each other are bendable. The connection pin has a shaft portion, one hook portion formed at one end of the shaft portion, and another hook portion formed at the other end of the shaft portion,
On the upper surface on one end side of one half tube constituting the protective body main body, one lower accommodation space for accommodating the one hook portion and a part of the shaft portion is formed, On the other end side upper surface of one half-pipe, the other lower receiving space in which a part of the other hooking part and the shaft part are stored is formed,
On the lower surface on one end side of the other half tube, there is formed one upper accommodation space for accommodating the shaft of the one hook portion and a part of the shaft, and the other half tube is formed. The cable according to claim 1, 2 or 3, wherein the other upper side receiving space in which the other hooking portion and a part of the shaft portion are stored is formed on the upper surface on the other end side of the body. Protective body.

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