JP4312216B2 - Cable guide - Google Patents

Description

  The present invention relates to a cable guide, and more particularly to a cable guide for holding a plurality of cables attached to connection terminals arranged side by side in the direction of gravity on the side of the apparatus.

  There are various apparatuses such as a communication apparatus and a control apparatus that perform data communication by wire connection with a plurality of devices. Such a device is often installed near the wall, but the device is too close to the wall and the cable connected to the connection terminal on the back of the device is installed in a state where it is bent near the plug. was there. For example, an optical fiber cable needs to be installed with a minimum bending radius to prevent attenuation or breakage of the optical fiber, but may be installed in a state where the minimum bending radius is not ensured as described above. There was sex. Further, even when the apparatus is installed with a minimum bending radius, the apparatus may move due to a collision with a person or the like and further approach the wall. As a result, the cable may be damaged or the signal quality may be deteriorated.

  Conventionally, connectors and boots for protecting such cables have been proposed (for example, Patent Documents 1 to 5). Further, an optical fiber cable guide that can maintain the optical fiber cable in a state in which a minimum bending radius is ensured has been proposed (for example, Patent Document 6).

  When a plurality of cables are connected to the apparatus by wire, it is desired to have a structure that not only solves the above-mentioned problems such as cable breakage but also takes into account the convenience of cable attachment / detachment work. For example, Patent Document 6 describes a cable assembly to which a plurality of optical fiber cables can be attached. However, a plurality of optical fiber cables can be attached to such a cable assembly and attached or detached in units of assemblies. By doing so, it is possible to improve the efficiency of the attaching / detaching work from the apparatus and to prevent the cable from being damaged due to a mistake in human attaching / detaching work.

JP 2004-20962 A JP 2003-303642 A JP 2003-66245 A JP 2002-357553 A JP 2003-57490 A JP 2002-357552 A

  By the way, there are many cases where the installation location and space of the connection terminal are restricted by downsizing and characteristics of the device. For example, the connection terminals may be arranged in tandem on the apparatus wall surface, that is, in parallel along the direction of gravity. However, in Patent Document 6, a cable assembly applicable only to a device in which connection terminals are arranged in the horizontal direction is presented, and when connecting a plurality of cables to the connection terminals arranged in tandem on the device wall surface. Is not available.

  An object of the present invention is to provide a cable guide that facilitates cable connection to connection terminals arranged in parallel along the direction of gravity.

In order to achieve the above-described object, the cable guide according to the present invention guides the other end side of the cable connected to the connection terminal, one end of which is arranged side by side along the direction of gravity on the side of the apparatus, in the direction of gravity. An elongated main body member having a curved shape, a terminal side end holding member that is disposed at the connection terminal side end of the elongate main body member, and holds at least one of the plurality of cables connected to the connection terminal; A first other-end holding member that is disposed at an end opposite to the connection terminal side of the elongated body member and holds the cable held by the terminal-side end holding member in a state of being directed in the direction of gravity; A plurality of cables other than cables protruding from the outer peripheral side or inner peripheral side of the elongated main body member and held by the terminal side end holding member and the first other end side holding member. The outer periphery or curved shape of the member Possess a guide means for guiding along the inner periphery, said guiding means, said protruding from the first end side holding member near the elongated body member, held by the first end side holding member A second other-end holding member that grips a cable other than the cable to be directed in the direction of gravity, and protrudes from the center of the elongated body member on the same side as the second other-end holding member And a second guide member that guides the cable held by the second other-end holding member to the second other-end holding member, and the second guide member is connected to A hook-shaped portion into which a cable for guiding from the terminal to the second other-end-side holding member is inserted; It is formed along the curved shape .

  In addition, the first guide member is provided at a center portion of the elongated body member and guides the cable held by the terminal side end holding member to the first other end side holding member.

  Further, the first guide member is formed in a hook shape having a wide base portion that engages with the elongated body member.

  The elongated body member has a guide groove for guiding the cable held by the terminal side end holding member and the first other end side holding member along a curved shape.

  In addition, when the cable is an optical fiber cable, the elongated main body member is curved with a radius of curvature that is not smaller than the minimum bending radius of the cable arranged on the innermost side among the plurality of cables connected to the connection terminal. Is.

  According to the present invention, a guide means in which a part of a plurality of cables attached to a device in which connection terminals are arranged side by side along the direction of gravity on the side of the device is held by the main body member, and the rest protrudes from the main body member. Since it has a simple structure that is gripped by the cable, it is possible to facilitate the cable mounting work. In addition, it is possible to prevent damage from pulling during local bending due to external force being applied in the state of being connected to the device or removal of the cable from the device.

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

  FIG. 1 is an overall perspective view showing an embodiment of a cable guide 2 according to the present invention. The cable guide 2 in the present embodiment particularly holds a plurality of optical fiber cables connected to a device in which connection terminals are juxtaposed along the direction of gravity on the side surface of the device housing, and protects from external forces. It has a structure suitable for The cable guide 2 has a main body 4 having a curved and elongated shape, and a boot holder 6 is provided on the connection terminal side end of the main body 4 and a cord holder 8 is provided on the other end side. In the optical fiber cable, the boot portion is held by the boot holder 6 and the cord portion is held by the cord holder 8, and the cord portion positioned between the holders 6 and 8 is guided along the curved shape of the main body portion 4. Is done. That is, the cord extending from the plug portion of the optical fiber cable is guided from the boot holder 6 to the cord holder 8 along the curved shape of the main body 4 when connected to the apparatus with the cable guide 2 attached. Installed in a state of hanging in the direction of gravity. The main body portion 4 has a radius of curvature in which the optical fiber cable held in the most bent state by being arranged on the innermost side among the plurality of optical fiber cables connected to the connection terminals is not smaller than the minimum bending radius, that is, Curved with equal or larger radius of curvature.

  2 is a front view of the cable guide 2 in the present embodiment, FIG. 3 is a right side view of the cable guide 2, FIG. 4 is a left side view of the cable guide 2, and FIG. 5 is the cable guide 2 shown in FIG. FIG. 6 is a bottom view showing only the cord holder 8, and the structure of the cable guide 2 will be described in more detail with reference to these drawings.

  The cable guide 2 in the present embodiment has a configuration for guiding four optical fiber cables. As is apparent from the shapes of the main body 4 and the holders 6 and 8, the lower two of the four optical fiber cables connected to the apparatus along the direction of gravity are held by these configurations. Then, the remaining two pieces positioned above are held by the cord holder 10 and the cord bundling member 12 protruding outward from the outer edge of the main body 4.

  First, the boot holder 6 provided at one end of the main body 4 is inserted with the respective optical fiber cables positioned at the lower two from the upper side and the lower side that are notched, and grips the boot portion. Therefore, the inner diameter A of the hollow portion that grips each boot portion of the boot holder 6 is designed to have a diameter that is substantially equal to the outer diameter of the boot portion and can hold the inserted boot portion without wobbling. The cord holder 8 provided at the other end of the main body 4 holds each optical fiber cable by inserting the cord portions of the respective lower two optical fiber cables. Accordingly, the inner width B of the cord holder 8 into which each optical fiber cable is inserted is approximately equal to the outer diameter of the cord, and is designed to have a diameter capable of locking the inserted cord.

  Further, the main body 4 is formed with a wall at the edge of the long side of the elongated shape and guides two optical fiber cables, so that a wall is also formed at the middle position of the long side. Guide grooves 14a and 14b for guiding the cord between the boot holder 6 and the cord holder 8 are formed by the wall. Further, the cord guided between the boot holder 6 and the cord holder 8 by the guide grooves 14a and 14b is hooked at the substantially central portion in the longitudinal direction of the main body portion 4 so as not to be removed from the guide grooves 14a and 14b. Shaped claws 16a and 16b are provided. Each claw 16a, 16b is a base portion of each claw 16a, 16b that engages with the main body portion 4 so that the contraction tube portion provided at the cord attachment port of the boot is not caught when the optical fiber cable is inserted. Is formed so that the claws 16a and 16b are closer to the plug side by forming it wider than the top. For the purpose of easy attachment, the boot holder 6 side only needs to be widened. In addition, the rectangular hole 18 formed in the main-body part 4 is a hole formed in the manufacturing process.

  Of the four optical fiber cables connected to the apparatus, the remaining two optical fiber cables that are not guided by the guide grooves 14a and 14b of the main body 4 are guided by the guide means including the cord holder 10 and the cord bundling member 12. Guided along the outer edge of part 4. The cord holder 10 protrudes outward from the vicinity of the portion where the cord holder 8 is disposed, and the cord portions of the optical fiber cables located in the upper two are inserted together to hold the remaining optical fiber cables. . The cord holder 8 holds the cords one by one, whereas the cord holder 10 holds the remaining optical fiber cables that are not held by the cord holder 8 together. The cord holder 10b of the cord holder 10 has a width corresponding to the number of cords to be held. It will be formed. The hook-shaped cord bundling member 12 is provided in a substantially central portion in the longitudinal direction of the main body portion 4 in the same direction as the cord holder 10, that is, projecting outward from the main body portion 4, and between the connection terminal and the cord holder 10. Guide along the main body 4 in a state where the positioned cords are bundled. The cord bundling member 12 has an extension member 12a extending outward from the outer edge of the main body portion 4, and a cord protection member 12b provided at the tip of the extension member 12a. The protection member 12b has claws 12c and 12d that protect the cord inserted on the plug side from being removed. The claw 12c forming the connection terminal side is made shorter than the claw 12d forming the opposite side. To put it simply, the tip of the cord bundling member 12 is cut obliquely along the outer edge of the main body 4 to improve the ease of insertion of the optical fiber cable. As described above, the lengths of the claws 12c and 12d are determined in consideration of the ease of guide mounting work and in consideration of prevention of cord removal after mounting.

  Next, an example of a procedure for attaching two sets of two-core optical fiber cables to the cable guide 2 in the present embodiment will be described with reference to FIGS. Here, a case will be described as an example in which all four optical fiber cables are attached to the cable guide 2 and then attached in the procedure of connecting to the apparatus. However, since the plug side of the optical fiber cable that is not held by the boot holder 6 is fixed only after being connected to the connection terminal of the apparatus, the procedure for attaching the four optical fiber cables to the apparatus and then attaching them to the cable guide 2 You may make it perform attachment work. In other words, it can be said that the cable guide 2 according to the present embodiment can be mounted according to a procedure preferred by the worker.

  First, the cable guide 2 is arranged between the cords 20a and 20b of the two-core optical fiber cable 20 connected by the plug portion, and the cords 20a and 20b are respectively attached to the hollow portions of the inner diameter A of the boot holder 6. insert. Then, the cable guide 2 is appropriately moved to the plug side. Then, the cords 20a and 20b are moved to appropriate positions such as the contraction tubes 20c and 20d, and the cords 20a and 20b are inserted into the cord holder 8, respectively. Further, the boot holder 6 and the central portion of the cord holder 8 of each cord 20a, 20b are pushed in so as to be held by the claws 16a, 16b. Then, the cable guide 2 is moved to the plug side and pushed in until the boot is completely fixed by the boot holder 6. At this time, in the present embodiment, the base portions of the claws 16a and 16b are widened so that the claws 16a and 16b are closer to the plug. It is easy to sink under the claws 16a and 16b without coming into contact with the side surface forming the thickness of 16b, thereby improving the ease of mounting the boot and the cords 20a and 20b along the main body 4 with the cord holder 10 Can be guided to. FIG. 6 shows a state in which the two-core optical fiber cable 20 is attached to the cable guide 2.

  Subsequently, the remaining two-core optical fiber cable 22 is attached to the cable guide 2. First, the plug side of the two-core optical fiber cable 22 is held by hand and fixed to the position above the plug of the optical fiber cable 20. Then, the cords 22a and 22b are inserted from the insertion port 10a and are held by the cord holder 10. Subsequently, the cords 22 a and 22 b positioned between the position held by the cord holder 10 and the plug are pushed into the cord bundling member 12. At this time, since the claw 12c of the cord bundling member 12 located on the plug side is formed shorter than the claw 12d, the cords 22a and 22b can be easily pushed into the cord bundling member 12. FIG. 7 shows a state in which two pairs of optical fiber cables 20 and 22 are attached to the cable guide 2. As described above, the cable guide 2 according to the present embodiment can guide the cords 22a and 22b so as to draw a gentle arc without a load by providing the cord bundling member 12 without applying tension to the cords 22a and 22b. .

  After the optical fiber cables 20 and 22 are attached to the cable guide 2, in a state where they are connected to the apparatus, something is going to collide with the optical fiber cables 20 and 22 from the side in a direction approaching the side surface of the apparatus, for example, a person tries to collide. In this case, according to the structure of the cable guide 2 of the present embodiment, the cord holder 10 or the cord bundling member 12 comes into contact first, and the optical fiber cables 20 and 22 due to local bending due to external force being applied. Can be prevented from being damaged. According to the present embodiment, the optical fiber cables 20 and 22 can be protected from external force in this way. That is, since the minimum bending radius of the innermost cord 20a can be maintained, attenuation and breakage of the optical fiber can be prevented.

  In addition, since four optical fiber cables 20 and 22 can be removed from the apparatus at the same time, not only the installation work but also the removal work can be made more efficient. In addition, it is possible to prevent damage caused by pulling by an operator during removal.

  As described above, the cable guide 2 in the present embodiment is a cable guide that is suitable when the connection terminals of the optical fiber cable are arranged in parallel in the direction of gravity in the apparatus. In particular, in the present embodiment, two of the four optical fiber cables are reliably guided by the main body 4 and the remaining two are simply held by the cord holder 10 and the cord bundling member 12. The structure. The four main body members may be formed so as to be held in the same manner, but it is troublesome for the operator to insert all the four optical fiber cables into the boot holder 6 and the cord holder 8. Yes, it is difficult to install. Therefore, in the present embodiment, the four optical fiber cables to be attached are divided into two, and only the lower two are guided by the main body 4, and the remaining upper two are simply guided by the cord bundling member 12. As a result, the work of attaching the optical fiber cable becomes relatively simple. Further, as described above, even when an external force is applied, the minimum bending radius of the optical fiber cable can be maintained.

  In this embodiment, since a cable guide for an optical fiber cable is assumed, the bending state of the curved main body 4 depends on the minimum bending radius of the optical fiber cable, but the signal attenuation and strength For different cables, the main body 4 may be curved according to the characteristics of the cables.

  In the present embodiment, the function as a cable guide can be achieved without protecting all the optical fiber cables with an equivalent structure, more specifically, without guiding all the optical fiber cables with the main body 4. It is characterized in that it is formed with a configuration that can easily attach the cable without damaging the cable. For this reason, in this Embodiment, it comprised so that the code holder 10 and the cord bundling member 12 might protrude from the main-body part 4 toward the outer side. However, if the convenience of the attachment work is sacrificed somewhat, the cord holder 10 and the cord bundling member 12 are projected inward from the main body 4 to guide the cable located inside in a suspended state. You may comprise. If comprised in this way, since it will receive external force in the main-body part 4 with relatively strong strength instead of the member 10 and 12 which carried out protrusion, it will become a structure stronger against the impact from the outside.

  In the present embodiment, two sets of two-core optical fiber cables, that is, the cable guide 2 that guides four optical fiber cables have been described as an example. That is, it was made to guide two half. However, it is not necessarily required that the main body 4 guide half or a plurality of optical fiber cables, and one or three optical fiber cables may be guided. That is, it is sufficient that at least one cable to be guided by the main body unit 4 exists. Similarly, it is sufficient that at least one cable is held by the guide means (code holder 10 and cord bundling member 12) which is formed by protruding from the main body 4 and manually formed.

It is the whole perspective view showing one embodiment of cable guide 2 concerning the present invention. It is a front view of the cable guide in this Embodiment. It is a right view of the cable guide in this Embodiment. It is a left view of the cable guide in this Embodiment. It is a principal part bottom view of the cord holder of the cable guide shown in FIG. It is the perspective view which showed the cable guide of the state in which two optical fiber cables were inserted in this Embodiment. It is the perspective view which showed the cable guide of the state in which four optical fiber cables were inserted in this Embodiment.

Explanation of symbols

  2 Cable guide, 4 body portion, 6 boot holder, 8, 10 cord holder, 10a insertion port, 10b cord holding portion, 12 cord bundling member, 12a extension member, 12b protection member, 12c, 12d, 16a, 16b claw, 14a , 14b Guide groove, 18 rectangular hole, 20, 22 Optical fiber cable, 20a, 20b, 22a, 22b Cord, 20c.

Claims (5)

An elongated main body member having a curved shape that guides the other end side of the cable connected in the gravity direction to the connection terminal that is arranged side by side along the gravity direction on the side surface of the device;
A terminal-side end holding member that is disposed at the connection terminal side end of the elongated body member and holds at least one of the plurality of cables connected to the connection terminal;
A first other-end holding member that is disposed at an end opposite to the connection terminal side of the elongated body member and holds the cable held by the terminal-side end holding member in a state of being directed in the direction of gravity; ,
A plurality of cables other than cables protruding from the outer peripheral side or the inner peripheral side of the elongated main body member and held by the terminal side end holding member and the first other end side holding member are collected together. Guiding means for guiding along the outer periphery or inner periphery of the curved shape of
I have a,
The guiding means includes
A second one that protrudes from the vicinity of the first other-end holding member of the elongated main body member and holds a cable other than the cable held by the first other-end holding member in a state of being directed in the direction of gravity. The other end side holding member,
A cable protruding from the central portion of the elongated body member on the same side as the second other-end holding member and gripped by the second other-end holding member is connected to the second other-end holding member. A second guiding member for guiding;
Have
The second guide member has a hook-shaped portion into which a cable for guiding from the connection terminal to the second other end side holding member is inserted, and forms the insertion port for the plurality of cables. The cable guide according to claim 1, wherein a tip of the shape portion is formed along a curved shape of the elongated body member .   The first guide member, which is disposed in a central portion of the elongated body member and guides the cable held by the terminal side end holding member to the first other end side holding member. The cable guide according to 1.   3. The cable guide according to claim 2, wherein the first guide member is formed in a hook shape having a wide base portion that engages with the elongated body member.   The said elongate main body member has a guide groove which guides the cable hold | maintained by the said terminal side end holding member and the said 1st other end side holding member along a curve shape. Cable guide.   When the cable is an optical fiber cable, the elongated main body member is bent at a curvature radius that is not smaller than the minimum bending radius of the cable arranged on the innermost side among the plurality of cables connected to the connection terminal. The cable guide according to claim 1, wherein the cable guide is characterized in that:

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