JP2016024254A - Optical cord protection tube - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an optical cord protection tube which can properly prevent a communication failure caused by bending.SOLUTION: A slit 4 which can take in and take out an optical connector 102 and a cord main body 101 is formed over the whole length. An engagement part 41a is arranged at one end part of the slit 4, and an engaged part 42a which is engaged with the engagement part 41a is arranged at the other end part. The engagement part 41a and the engaged part 42a are engaged with each other in a state that the optical connector 102 is accommodated in a connector protection part 2, thereby the optical connector 102 is gripped by the connector protection part 2. A recessed annular groove 31 extending to an entire circumferential direction is continuously formed at a cord protection part 3 over a longitudinal direction, and the cord protection part 3 is not bent smaller than a prescribed bending radius.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a protective tube for an optical cord that protects an optical cord, and particularly relates to a protective tube for an optical cord that prevents communication failure due to bending of the optical cord.

  An optical cord has an optical connector attached to the end portion of the cord body. For example, an IP (Internet Protocol) device is connected and wired with a large number of optical cords from the front of the device, and each optical cord is fixed. It is not in the state that can move freely by external force. For this reason, when connecting or wiring the optical cord directly from the front of the apparatus, the cord main body or the optical connector during information transmission may be bent and the line may be stopped.

  On the other hand, a cable protector is known in which a plurality of cables are accommodated in a cylindrical main body, and a part of the cables can be pulled out and inserted through a drawing cut provided in the main body (for example, a patent Reference 1). There is also known an optical connector case that regulates the bending of an optical cable near the optical connector while accommodating and protecting a portion where the optical connectors are connected (see, for example, Patent Document 2).

JP 2008-178251 A JP 2009-204718 A

  By the way, in the wiring work in the IP device or the like, it is preferable to protect each optical cord because the optical cords are connected or removed one by one. However, in the cable protector of Patent Document 1, a plurality of cables are accommodated together and a part of the cables is pulled out as necessary, so that the drawn cables cannot be protected. Further, the optical connector case of Patent Document 2 only regulates the bending of the optical cable near the optical connector and cannot protect the optical cable itself properly.

  Therefore, an object of the present invention is to provide a protective tube for an optical cord that can appropriately prevent communication failure due to bending.

  In order to solve the above-mentioned problems, the invention of claim 1 is an optical cord protection tube for protecting an optical cord having an optical connector attached to an end portion of a cord body, and is entirely tubular and has one end. The part is a connector protection part that accommodates one optical connector, and the other part is a cord protection part that accommodates one cord body, and the slit that allows the optical connector and the cord body to be taken in and out extends over the entire length. The engagement portion is provided at one end of the slit, and the engaged portion is provided at the other end to engage with the engagement portion. The optical connector is accommodated in the connector protection portion. When the mating portion and the engaged portion are engaged, the connector protection portion holds the optical connector, and the cord protection portion has a concave annular groove portion extending in the entire circumferential direction along the longitudinal direction. Continuously Vignetting, the code protection portion is adapted to not bend less than a predetermined bending radius, characterized in that.

  According to this invention, the optical connector is inserted and accommodated in the connector protection part via the slit, and the cord body is inserted and accommodated in the cord protection part, and the engagement part and the engaged part of the slit are engaged. To do. As a result, the connector protection unit holds the optical connector, and one optical cord protection tube is attached to one optical cord.

  According to a second aspect of the present invention, in the optical cord protection tube according to the first aspect, the connector protective portion and the cord protective portion are detachable.

  According to the first aspect of the present invention, the cord protector is provided with the annular groove portion continuously so that the cord protector does not bend smaller than a predetermined bending radius. Does not bend smaller than a predetermined bending radius. For this reason, it is possible to appropriately prevent communication failures such as disconnection and line stop due to the optical cord being bent suddenly (with a small bending radius). In addition, since one optical cord protection tube is attached to one optical cord, each optical cord can be reliably protected even when connection or removal is performed for each optical cord. In addition, since the optical cord is accommodated from the slit of the protective tube for the optical cord, it can be easily attached to and protected from the optical cord already wired in the IP device or the like.

  According to the invention of claim 2, since the connector protection part and the cord protection part are detachable, the connector protection part and the cord protection part are sequentially turned on and off according to the connection object of the optical cord, the work environment, and the like. By attaching and detaching to the cord, easy and proper work becomes possible. Furthermore, only one of the connector protector or the cord protector can be attached to the optical cord according to the connection object of the optical cord, the work environment, the necessity for protection, and the like.

They are the top view (a) and horizontal sectional view (b) which show the protection tube for optical cords concerning Embodiment 1 of this invention. It is a figure which shows the state which bent the protection tube for optical cords of FIG. It is a vertical sectional view of the protective tube for optical cords of FIG. It is a horizontal sectional view of the protection tube for optical cords concerning Embodiment 2 of this invention.

  The present invention will be described below based on the illustrated embodiments.

(Embodiment 1)
FIG. 1 is a plan view (a) and a horizontal sectional view (b) showing a protective tube 1 for optical cords according to this embodiment. The optical cord protection tube 1 is a tube for protecting the optical cord 100 in which the optical connector 102 is attached to the end portion of the cord main body 101. Here, the cord main body 101 is a cord in which an optical fiber is built in, and the optical connector 102 is detachable from a device such as an IP device and has a substantially square cross-sectional shape.

  The optical code protective tube 1 is made of a material that is lightweight, flexible, elastic, and electrically insulating (for example, a silicon / plastic material), and has a tubular shape and a long cylindrical shape as a whole. One end portion is a connector protection portion 2 that accommodates one optical connector 102, and the other portion is a cord protection portion 3 that accommodates one cord main body 101.

  The connector protection part 2 is a cylinder having a substantially square cross-sectional shape, covers the periphery of the optical connector 102 accommodated, and is formed so that the optical connector 102 can be gripped as described later. The length of the connector protection unit 2 is such that the optical code protection tube 1 is in the state where the optical cord 102 and the base 101a on the optical connector 102 side of the optical cord 102 are accommodated and gripped. It is set so that it cannot be easily removed from 100. The cord protection part 3 is formed so as to be connected from one end of the connector protection part 2.

  The cord protector 3 has a cylindrical shape with a substantially circular cross section, and is provided with a concave annular groove 31 extending in the entire circumferential direction continuously along the longitudinal direction. That is, the large-diameter cylindrical main part 32 and the small-diameter cylindrical annular groove part 31 are alternately and continuously formed, and the entire cord protection part 3 has a bellows shape. The outer diameter of the main portion 32 is set to be approximately the same as the length of one side of the connector protection portion 2, and the inner diameter of the annular groove portion 31 is set slightly larger than the outer diameter of the cord main body 101.

  And the main part 32 and the annular groove part 31 are formed so that the code | cord protection part 3 may not bend smaller than a predetermined bending radius. That is, when the cord protection part 3 is bent, as shown in FIG. 2, the inner ring side of the main part 32 and the annular groove part 31 contracts and the outer ring side expands, but if it is bent to a predetermined bending radius, the limit of contraction and extension Thus, the main portion 32 and the annular groove portion 31 are formed so as not to be bent to a bending radius smaller than the bending radius.

  Here, since the cord main body 101 accommodated in the cord protecting portion 3 is positioned concentrically with the cord protecting portion 3 by the annular groove portion 31, the cord body 101 is bent with a bending radius substantially the same as the bending radius of the cord protecting portion 3. The predetermined bending radius is set to a minimum / lower limit bending radius that does not cause a communication failure such as disconnection or line stop even if the cord body 101 is bent.

  As described above, the large-diameter cylindrical main portion 32 and the small-diameter cylindrical annular groove portions 31 are alternately and continuously formed, so that the cord protecting portion 3 can be bent in an arbitrary direction at an arbitrary position. (Becomes freely deformable) and bends smaller than a predetermined bend radius are regulated. Further, in this embodiment, the length of the cord protection unit 3 is set to a length sufficient to protect a portion where the cord body 101 may be bent suddenly during wiring or the like.

  On the other hand, as shown in FIG. 1, the protective tube 1 for optical cords is formed with slits (cutting lines) 4 through which the optical connector 102 and the cord main body 101 can be inserted and removed, as shown in FIG. An engaging portion 41a is provided at one end of the slit 4, and an engaged portion 42a that engages and fits with the engaging portion 41a is provided at the other end.

  That is, the optical code protection tube 1 is cut to form the slits 4 so that the cut ends 41 and 42 overlap in the thickness direction. A convex engaging portion 41 a is formed at one end 41 over the entire length of the optical cord protection tube 1, and a concave engaging portion 42 a is formed at the other end 42 of the optical cord protection tube 1. It is formed over the entire length. Then, the engaging portion 41a is pushed into the engaged portion 42a side, and the engaging portion 41a and the engaged portion 42a are engaged and fitted, whereby the slit 4 is closed, and the engaging portion 41a and the engaged portion 42a are engaged. The slit 4 is opened by releasing the engagement portion 42a and releasing the engagement / fitting.

  Further, when the optical connector 102 is accommodated in the connector protection part 2, the connector protection part 2 grips the optical connector 102 by engaging the engaging part 41 a and the engaged part 42 a. That is, as shown in FIG. 1B, when the optical connector 102 is accommodated in the connector protection part 2 and the engaging part 41a and the engaged part 42a are engaged, the connector protective part 2 is lighted at a predetermined pressure. The shape of the connector protection unit 2 is set so as to wrap around the entire circumference of the connector 102 and hold the optical connector 102. By holding the optical connector 102 in this way, the connector protection section 2 attaches the optical cord protection tube 1 to the optical cord 100, so that the optical cord protection tube 1 is not easily removed. (Predetermined pressure) is set.

  Next, the operation and usage method of the optical cord protection tube 1 having such a configuration will be described.

  In order to attach the optical cord protection tube 1 to the optical cord 100, first, in the state where the slit 4 is opened as described above, the optical connector 102 is pushed into the connector protection portion 2 from the slit 4 and accommodated. The cord body 101 is pushed into the cord protector 3 and accommodated. Next, the engaging portion 41a and the engaged portion 42a are engaged and fitted over the entire length, and the slit 4 is closed. As a result, the connector protection unit 2 holds the optical connector 102 and the optical code protection tube 1 is attached to the optical cord 100. Such attachment may be performed in a state where the optical cord 100 is disposed in the IP device or the like, or may be performed in a state where the optical cord 100 is not disposed.

  When the cord main body 101 of the optical cord 100 is bent with the optical cord protection tube 1 attached in this manner, the cord protection portion 3 is also bent following this. Alternatively, when the cord protection unit 3 is bent, the cord main body 101 in the cord protection unit 3 is also bent following this. At this time, even if an attempt is made to bend smaller than a predetermined bending radius, the cord main body 101 does not bend less than a predetermined bending radius because the cord protecting portion 3 does not bend as described above.

  As described above, according to this optical cord protection tube 1, the annular groove portion 31 is continuously provided in the cord protection portion 3, and the cord protection portion 3 is prevented from being bent smaller than a predetermined bending radius. The cord main body 101 accommodated in the cord protector 3 does not bend less than a predetermined bending radius. For this reason, it becomes possible to appropriately prevent communication failures such as disconnection and line stop due to the optical cord 100 being bent suddenly (with a small bending radius).

  In addition, since one optical cord protection tube 1 is attached to one optical cord 100, each optical cord 1 can be reliably protected even when the optical cord 100 is connected or disconnected. it can. Moreover, since the optical cord 100 is accommodated from the slit 4 of the protective tube for optical cord 1, the optical cord 100 already wired to the IP device or the like can be removed from the IP device or the like (without stopping the line). ) Easy to install and protect.

(Embodiment 2)
FIG. 4 is a horizontal sectional view showing the protective tube 10 for optical cords according to this embodiment.

  In this embodiment, the configuration is different from that of the first embodiment in that the connector protection unit 2 and the cord protection unit 3 are detachable, and the same reference numerals are given to the configurations equivalent to those of the first embodiment. Thus, the description is omitted.

  In this embodiment, a locking portion 21 directed inward over the entire circumference is formed at one end of the tubular connector protection portion 2. Further, a locked portion 33 is formed on the free end portion of the annular groove portion 31 located at the end of the cord protection portion 3 so as to face outward over the entire circumference. When the cord main body 101 is accommodated in the cord protection portion 3 and the optical connector 102 is accommodated in the connector protection portion 2, the locking portion 21 is covered with the locking portion 21 so as to cover the locked portion 33. The locking part 33 is locked. Thus, the optical code protection tube 10 is attached to the optical cord 100 in a state where the connector protection unit 2 and the cord protection unit 3 are connected. Moreover, the connector protection part 2 and the cord protection part 3 are separated by removing the locking part 21 from the locked part 33 and releasing the locking between the locking part 21 and the locked part 33. It is.

  As described above, according to this embodiment, since the connector protection unit 2 and the cord protection unit 3 are detachable, the connector protection unit according to the connection target (IP device or the like) of the optical cord 100 or the work environment. 2 and the cord protector 3 can be attached to and detached from the optical cord 100 separately and sequentially. Thereby, an easy and proper operation is possible. Furthermore, only one of the connector protection unit 2 or the cord protection unit 3 can be attached to the optical cord 100 according to the connection target of the optical cord 100, the work environment, the necessity for protection, and the like.

  Although the embodiment of the present invention has been described above, the specific configuration is not limited to the above embodiment, and even if there is a design change or the like without departing from the gist of the present invention, Included in the invention. For example, in the first embodiment, the connector protection part 2 and the main part 32 of the cord protection part 3 may have the same shape. That is, the entire optical cord protection tube 1 is configured such that the main portions 32 and the annular groove portions 31 are alternately and continuously formed, and the main portion 32 located at the end is used as the connector protection portion 2. Also good. At this time, the main portion 32 has a shape that can hold and accommodate the optical connector 102. Further, a long tube in which the main portion 32 and the annular groove portion 31 are alternately and continuously formed is manufactured, and the tube is cut into a desired arbitrary length, so that the protective tube 1 for the optical cord having a desired length is obtained. May be formed.

  Moreover, although the engaging part 41a and the to-be-engaged part 42a are formed over the full length of the protection tube 1 for optical cords, you may provide only in one part. For example, the annular groove portion 31 may not be provided with the engaging portion 41a and the engaged portion 42a.

  On the other hand, in Embodiment 2, the connector protector 2 is attached after the cord protector 3 is attached first, but the cord protector 3 may be attached after the connector protector 2 is attached first. That is, the end portion (locking portion 21) of the connector protection portion 2 may be covered and locked by the end portion (locked portion 33) of the annular groove portion 31 of the cord protection portion 3.

DESCRIPTION OF SYMBOLS 1, 10 Optical code protection tube 2 Connector protection part 21 Locking part 3 Code protection part 31 Annular groove part 32 Main part 33 Locked part 4 Slit 41a Engagement part 42a Engagement part 100 Optical code 101 Code main body 102 Light connector

Claims (2)

An optical cord protection tube for protecting an optical cord having an optical connector attached to the end of the cord body,
The whole is tube-shaped, one end is a connector protection part that houses one optical connector, and the other part is a cord protection part that houses one cord body,
A slit through which the optical connector and the cord main body can be taken in and out is formed over the entire length, an engagement portion is provided at one end of the slit, and an engaged portion that engages with the engagement portion is provided at the other end. The engagement portion and the engaged portion are engaged in a state where the optical connector is accommodated in the connector protection portion, so that the connector protection portion holds the optical connector,
A concave annular groove portion extending in the entire circumferential direction is continuously provided in the cord protection portion along the longitudinal direction so that the cord protection portion does not bend smaller than a predetermined bending radius.
A protective tube for optical cords. The connector protection part and the cord protection part are detachable.
The protective tube for optical cords according to claim 1, wherein

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