JPH04134113U - Fiber optic cable tow end connector holder - Google Patents

Abstract

(57) [Summary] [Purpose] It is difficult for the connector holder to come off from the tow wire and the connector from the connector holder, resulting in good workability and improved storage efficiency of the connector. [Structure] A plurality of optical fiber cores (9) are arranged in the protective hose (8) connected to the end of the optical fiber cable (2), and each of the plurality of connector insertion grooves (25) on the outer periphery has a plurality of optical fiber cores (9). A rod-shaped optical fiber cable pulling end connector holder (in which a predetermined number of a plurality of connectors (18) connected to each end of the group is housed, and a pulling wire (7) is inserted into the pulling wire insertion hole (23)). twenty one)
, the connector holder is connected to the tow wire insertion hole (23).
(21) extends in the radial direction from the center of the connector holder (21) with curved groove side surfaces and opens at the outer periphery; A plurality of connector insertion grooves (25) are formed which extend radially in a substantially radial direction, have curved side surfaces of the grooves from the center to the outer periphery, and open at positions on the outer periphery at predetermined intervals along the circumferential direction.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This invention is an optical fiber cable used when pulling and laying optical fiber cables. This relates to a connector holder at the cable towing end.

0002

[Conventional technology]

Generally, optical fiber cables are pulled into a conduit using the so-called tip traction method. When installing optical fiber cables, the tape cores (optical fiber groups) within the optical fiber cable may shift and become disordered. Be careful not to move or damage the optical fiber itself. In addition to attaching a connector to the end, this connector is also attached to each predetermined number of connectors. Attach the connector holder to a specified number of optical fibers. It must be fixed to the tow end of the fiber cable. Therefore, conventional optical fiber cables with connectors configured as shown in Figure 5 were used. A pulled end is used. Next, the outline of this optical fiber cable pulling end will be explained.

0003 In the figure, numeral 1 is the optical fiber cable pulling end, and this optical fiber cable pulling end. The pulling end 1 is attached to a tension member 3 exposed from the optical fiber cable 2. Cover the sleeve 4 and secure it by caulking etc., and attach the sheath gripper to this sleeve 4. 5 are fixed together, and from the end of the optical fiber cable 2 to this sheath gripper 5, The peeled off outer sheath 6 is fixed. In addition, a coupler (not shown) is attached to the tip of the tension member 3 protruding from the sleeve 4. The tow line 7 is connected to the optical fiber cable via the The outside of the external sheath 6 of the bull 2 is covered with a flexible protective hose made of polyvinyl chloride, etc. 8, and connect the protective hose to the tow line 7 through a cap 13 to be described later. 8 and connect this protective hose 8 to the optical fiber cable 2, and connect this protective hose 8 to the optical fiber cable 2. An extra length storage section 10 is provided in the space of the hose 8 to accommodate the extra length of the optical fiber core 9. Furthermore, the inner space of the protective hose 8 is connected to a plurality of optical fibers attached to the tow line 7. A fiber protection plate 11 is arranged at intervals between the plurality of optical fiber protection plates 11. A predetermined number of connectors can be placed in the divided space by a plurality of connector holders 12. Multiple connectors (not shown) are connected to the tips of nine groups of optical fibers divided into ) is attached to each connector holder 12, 12, and the optical fiber core 9 is arranged and maintained. The end of the protective hose 8 is sealed with a cap 13, and the cap attached to the tip of the tow line 7 is sealed. The inut 14 is towed in the direction of the arrow shown in FIG.

0004 As shown in FIGS. 6 and 7, the connector holder 12 is made of rubber with a predetermined thickness. One traction line insertion groove 16 extending in the radial direction from the center of the cylinder 15, and the cylinder 1 5 and extending radially in the radial direction from the vicinity of the center of the cylinder 15 and along the circumferential direction of the cylinder 15. It consists of connector insertion grooves 17 formed at regular intervals. each connector Inside the insertion groove 17 is a connector attached to the tip of the optical fiber core 9. 18 are inserted in a predetermined number. Note that the connector holder 12 is attached to the towing line 7. After that, the connector 18 is attached to the column 15, and then the protective hose is attached to the column 15. 8 is fitted.

[0005]

[Problem that the idea aims to solve]

However, in such a conventional connector holder 12, the traction wire 7 is not stretched. In this state, attach the connector holder 12 to the tow line 7, and insert the connector insertion groove. Since it is necessary to attach the connector 18 to the tow line insertion groove 16 and the connector 17, The traction wire insertion groove 17 is open on the outer periphery of the cylinder 15, and these traction wire insertion grooves 1 6 and the connector insertion groove 17 are linear grooves with flat side walls. Therefore, when attaching the connector holder 12 to the tow line 7 and inserting the connector, When attaching the connector to the groove 17, the connector holder 12 may easily come off from the tow line 7, or The connector 18 inserted into this groove can easily come out from the connector insertion groove 17. In addition, there is a problem in that the connector holder 12 and connector 18 do not fall off. Mounting of connector holder 12 and connector 18 while supporting connector holder 12 This method has the disadvantage that the work efficiency is poor since it is necessary to carry out the work of putting on clothes. In addition, as the number of cores in optical fiber cables has been increasing in recent years, There is a growing desire to improve the efficiency of connector storage in connector holders.

[0006] This invention was made in view of the above circumstances, and the connector holder is removed from the towing line. In addition, the connector does not easily come off from the connector holder, making it easy to work. On the fiber optic cable tow end, which can improve the storage efficiency of the connector The purpose is to provide a connector holder.

[0007]

[Means to solve the problem]

In order to achieve the above-mentioned object, the present invention provides a tension mechanism for optical fiber cables. a retainer connected to the end of the optical fiber cable via a pull line connected to the fiber optic cable; A plurality of holes are arranged inside the protection hose at intervals in the direction in which the protection hose extends, and In each of the plurality of connector insertion grooves provided, there is a connector inserted into the protective hose. Each end of a group of optical fibers divided into a fixed number of fibers is connected to multiple A predetermined number of connectors are stored, and the tow wire is inserted into the tow wire insertion hole formed in the center. In the connector holder at the pulling end of the rod-shaped optical fiber cable through which the wire is inserted, The wire is connected to the tow wire insertion hole and extends radially from the center of the connector holder. The groove side surfaces are curved from the center to the outer periphery, and the groove opens at the outer periphery. a wire insertion groove extending radially in a substantially radial direction from a portion near the center of the connector holder; A plurality of openings are opened at predetermined intervals along the circumferential direction of the connector holder. A connector insertion groove is formed.

[0008]

[Effect]

According to the above configuration, the outer peripheral side opening of the traction line insertion groove is fitted into the stretched traction line, Next, rotate the connector holder and insert the tow wire deep into the tow wire insertion groove. Fit the tow line insertion hole into Yukiko's tow line. Therefore, first insert the tow line into the tow line. After the holes are fitted, it becomes difficult for the connector holder to come off from the tow line. Next, insert multiple connectors connected to the tip of the optical fiber into each connector insertion groove. Insert the connectors one after another into each connector insertion groove, and then The fiber core is held by a connector holder. This allows the connector insertion groove to be inserted once. The connector and optical fiber are inserted into the connector holder, and the connector is attached to the connector holder. After the connector is inserted into the connector insertion groove, the optical fiber will not easily come off along with the connector. Ru.

[0009]

【Example】

An embodiment of the present invention will be described below with reference to FIGS. 1 and 2. Note that this example In the figure, the same parts as in the conventional example are denoted by the same reference numerals, and detailed explanation thereof will be omitted. In FIG. 1, reference numeral 21 indicates a connector holder, and this connector holder 21 is At the center of the cylinder 22 made of rubber with a predetermined thickness, there is a rod extending in the axial direction of the cylinder 22. A traction line insertion hole 23 passing through the cylinder 22, and a circular hole communicating with this traction line insertion hole 23. The groove extends in the radial direction from the center of the column 22, and the groove side walls are curved and spiral on the outer periphery. One traction line insertion groove 24 formed to open in the vicinity of the center of the cylinder 22 The traction line is inserted along the circumferential direction of the cylinder 22 and extends radially from the radial direction. The traction line is inserted at certain intervals including the groove 24 (in this example, the circumference is divided into four equal parts). Similar to the entry groove 24, the groove side wall is formed into a curved surface and opens in a spiral shape at the outer periphery. A plurality of (three in this embodiment) connector insertion grooves 25 are formed. Ru. The inner diameter of the traction wire insertion hole 23 is approximately the same as the outer diameter of the traction wire 7. The groove width of the traction line insertion groove 23 is set to be slightly smaller than the inner diameter of the traction line insertion hole 23. There is.

0010 Thus, the traction wire insertion hole 23 is fitted with the traction wire 7, and the plurality of connector insertion grooves 2 A connector 18 is inserted into 5. In this case, insert the tow line into the stretched tow line 7. Fit the outer opening of the groove 24, and then connect the tow line while rotating the connector holder 21. Insert the tow line 7 deep into the insertion groove 24 and insert the tow line 7 into the tow line insertion hole 23. mate. Therefore, once the traction line insertion hole 23 is fitted into the traction line 7, The connector holder 21 becomes difficult to come off from the lead wire 7. However, connect to traction line 7. It is possible to attach and detach the data holder 21. Next, a plurality of connectors connected to the tip of the optical fiber core wire 9 are inserted into each connector insertion groove 25. A plurality of connectors are inserted into each connector insertion groove 25 by sequentially inserting the connectors 18. 18 is attached, and the optical fiber core wire is held by the connector holder 21. Therefore, Once the optical fiber core wire 9 is inserted into the connector insertion groove 25 along with the connector 18, After the connector 18 is attached to the connector holder 21, it is inserted from the connector insertion groove 25. The optical fiber core 9 becomes difficult to come off together with the connector 18. However, the connector insertion groove It is possible to attach and detach the optical fiber core 9 along with the connector 18 to and from the connector 25. After this, the protective hose 8 is fitted to the cylinder 22.

[0011] In addition, in the embodiment, the traction wire insertion groove 24 and the connector insertion groove 25 are Although the outer periphery of the cylinder 22 of the connector holder 21 is formed in a spiral shape, Without being limited to this, the traction line insertion groove 16 and the core of the conventional example shown in FIGS. 6 and 7. Each side of the connector insertion groove 17 is formed into an arcuate surface (curved surface) as shown in FIG. As a body, a traction wire insertion groove 33 consisting of a curved groove is provided in the cylinder 32 of the connector holder 31. The connector insertion groove 34 is shaped like a windmill when viewed from the end surface side of the connector holder 31. It may be formed into In this embodiment, the traction line insertion groove 33 is inserted into the traction line 7. To insert the tow line 7 into the tow line insertion groove 33 while rotating the cylinder 32, After inserting the traction wire 7 into the traction wire insertion hole 23, insert the connector into each connector insertion groove 34. 18 may be inserted in sequence. In this way, the traction line insertion groove 33 becomes a curved groove. This makes it difficult for the connector holder 31 to come off from the tow line 7, and also prevents the connector holder 31 from coming off. Since the connector insertion groove 34 is a curved groove, the connector can be inserted from this connector insertion groove 34. 18 becomes difficult to come off. However, it is possible to attach and detach the connector holder 31 to the tow line 7. In addition, the connector 18 can be attached to and detached from the connector insertion groove 34. . In addition, the connector insertion groove may also be linear (in the pulling direction) as in the conventional example. . In this case, form the tow line insertion groove so that it fits between the adjacent connector storage grooves. do. Also, the connector insertion groove is not formed by cutting from both end faces of the connector holder. Instead, it can be formed into a long hole-shaped connector storage section. In this way, the collection Delivery work becomes easier. Note that the connector insertion grooves can be arranged in multiple rows instead of in one row in the radial direction. In short, the connector storage shape can be chosen arbitrarily, and the aim is to increase the number of connectors that can be stored.

0012

[Effect of the idea]

According to the present invention, a tow line connected to a tension member of an optical fiber cable The protective hose is connected to the end of the optical fiber cable through the protective hose. A plurality of connectors are arranged at intervals in the direction in which the base extends, and are provided on the outer periphery. A predetermined number of hoses stored in the protective hose are placed in each of the hose insertion grooves. A predetermined number of multiple connectors each connected to each end of a group of optical fibers. A rod-shaped light in which the towing line is inserted into a towing line insertion hole formed in the center. In the connector holder at the fiber cable pulling end, The wire is connected to the tow wire insertion hole and extends radially from the center of the connector holder. The groove side surfaces are curved from the center to the outer periphery, and the groove opens at the outer periphery. a wire insertion groove extending radially in a substantially radial direction from a portion near the center of the connector holder; A plurality of openings are opened at predetermined intervals along the circumferential direction of the connector holder. Since the connector insertion groove is formed, Once the tow line insertion hole is fitted to the tow line, attach the connector holder to the tow line. Although it is possible to attach and detach the connector holder, it becomes difficult to remove the connector holder from the tow line, and Once the optical fiber is inserted into the connector insertion groove together with the connector, the connector holder is inserted. After the connector is attached to the connector, the connector cannot be inserted into or removed from the connector insertion groove. Although possible, the connector and optical fiber core wire do not come off from the connector insertion groove. This improves work efficiency, and the length of the connector storage groove is longer than before. This improves connector storage efficiency.

[Brief explanation of drawings]

FIG. 1 is a perspective view of a connector holder showing an embodiment of the present invention.

FIG. 2 is a sectional view of a connector holder showing an embodiment of the present invention.

FIG. 3 is a plan view showing another embodiment of the present invention.

FIG. 4 is a sectional view showing another embodiment of the present invention.

FIG. 5 is a longitudinal sectional view showing an example of a conventional optical fiber cable pulling end.

FIG. 6 is a sectional view of a conventional connector holder at the pulling end of an optical fiber cable.

FIG. 7 is a perspective view of a conventional connector holder at the pulling end of an optical fiber cable.

[Explanation of symbols]

2 Optical fiber cable 3 Tension member 7 Traction line 8 Protective hose 9 Optical fiber core wire 18 Connector 21, 31 Connector holder 23 Traction line insertion hole 24, 33 Traction line insertion groove 25, 34 Connector insertion groove

Claims (1)

[Scope of utility model registration request] Claim 1: Inside a protective hose (8) connected to the end of the optical fiber cable (2) via a traction line (7) connected to a tension member (3) of the optical fiber cable (2). A plurality of connector insertion grooves (25, 34) are arranged at intervals in the direction in which the protective hose (8) extends, and are housed in the protective hose (8), respectively. A predetermined number of connectors (18), each of which is connected to each end of a group of optical fiber cores (9) divided into a predetermined number, are stored in the pull wire insertion hole (23) formed in the center. In the connector holder (21, 31) at the pulling end of the rod-shaped optical fiber cable through which the pulling wire (7) is inserted, the pulling wire insertion hole (2) is inserted.
A traction wire insertion groove (24, 3
3) and a connector holder (21, 31) extending radially in a substantially radial direction from a portion near the center of the connector holder (21, 31).
1. A connector holder for a pulling end of an optical fiber cable, characterized in that a plurality of connector insertion grooves (25, 34) are formed on the outer periphery at predetermined intervals along the circumferential direction of the optical fiber cable.