KR100854670B1 - Grip Device for Optical Fiber Cable - Google Patents

Abstract

Provided is an optical fiber cable grip device for gripping an optical fiber cable, which is used together with an optical connector for field assembly of the optical fiber cable.

The optical fiber cable grip device includes an apparatus body and cable grip means for gripping an optical fiber cable which is provided and entered in the apparatus body, wherein the optical fiber cable is connected and assembled to the other end of the cable body of the apparatus body. Is fixed to be used to connect the optical connector while gripping the optical fiber cable.

According to the present invention as described above, the optical fiber cable, in particular, the third cover portion (shell) not connected to the optical connector currently being used, as well as the secondary cover portion connected to the optical connector, the field assembly of the optical fiber cable As well as strengthening the structure, there is no need for outlet construction as only the secondary sheath is connected to the connector, which can improve the field assembly of the overall optical fiber cable.

Fiber optic cable, fiber connectors, fiber optic cable field assembly, fiber core

Description

Grip Device for Optical Fiber Cable

1 is an exploded perspective view showing a known optical connector

2 shows an optical fiber cable connection structure of an optical connector,

(a) is a structural diagram showing the internal connection structure of the connector

(b) is a cross-sectional view showing the inner fiber clamping structure of the optical fiber of the connector

Figure 3 is a photograph showing a field assembly state using a conventional optical connector

4 is a front view showing a state of use of the optical fiber cable grip device according to the present invention.

5 is a perspective view showing a state of use of the optical fiber cable grip device according to the invention

6 shows an optical fiber cable grip device according to the present invention,

(a) is a front perspective view

(b) rear perspective view

7 is a perspective view taken along the line 'A-A' of FIG. 6A

8 is a perspective view taken along the line 'B-B' of FIG. 6A

9 is a front view of FIG. 6A

10 is a structural diagram showing a grip state of the optical fiber cable in the optical fiber cable grip device of the present invention

Explanation of symbols on the main parts of the drawings

1 .... optical fiber cable grip device 10 .... device body

12,14 .... body 1, 2, 16 .... body connector

30 .... cable grip means 32 ... first grip part

32a .... Cable tertiary sheath entry groove 32b .... Toothed part

34 .. 2nd grip 34a .... Cable secondary sheath

34b .... cable secondary sheath crimp 35 .... elastic material

50 .... Fastening means 52 .... Hook means

54 .. Hook fastening groove 70 .... Connector fixing means

80 .... Connector support means

The present invention relates to an optical fiber cable gripping device which allows the optical fiber cable to be gripped while being used with an optical connector for field assembly of the optical fiber cable, and more particularly, to an optical fiber cable, in particular, to an optical connector that is not currently used. Grip not only the tertiary sheathing part (shell) but also the secondary sheathing part connected to the optical connector not only strengthens the on-site assembly structure of the optical fiber cable, but also the outlet site as only the secondary sheathing part is connected to the existing connector. The present invention relates to an optical fiber cable grip device that does not require construction and improves field assembly of the overall optical fiber cable.

Recently, as the spread of the optical fiber cable network advances, the field assembly work of the optical fiber cable is rapidly increasing. For example, modem lines used at home in the Internet communication are rapidly being replaced by lines using an optical fiber cable (optical communication).

By the way, the optical connector used in the field assembly work of an optical fiber cable is known.

For example, a known field-assembled optical connector may be formed by connecting a new optical fiber cable according to field conditions on the opposite side with the optical fiber cable pre-connected to the ferrule side in advance. Field assembly of the fiber optic cable with a contactor is performed.

Meanwhile, FIGS. 1 and 2 show conventionally known optical contactors.

That is, as shown in Figures 1 and 2, the known optical connector 100 is a housing 130 and the body is assembled with a connector body 110 and a ferrule (120) provided behind the body It consists of a boot (140) to be fitted in the, Wedge unit 150 for connecting the optical cable primary and secondary cover parts to the body. The housing into which the body is assembled is then connected with the adapter 160 shown in FIG. 3.

In addition, the optical fiber cable 200 is a primary sheath having a tertiary sheath portion 210 corresponding to a cable sheath, a secondary sheath portion 220 and an optical core wire 240 (fiber, fiber) therein. It is composed of a portion (usually glass) 230, as shown in Fig. 3 is a structure that is protected by one outdoor line 250 by tying such optical fiber cables.

Therefore, as shown in FIG. 2A, the secondary sheath 220 and the primary sheath 230 of the optical fiber cable are connected as clamps 112 and 114 respectively provided inside the body of the optical connector 100. The inner core wire 240 is connected to the inner core wire 240 'pre-assembled to the ferrol 120 through a matching gel to the rear of the body to use a connector of an optical fiber cable. Assembly work is performed on site.

At this time, as shown in Figure 2b, the clamps 112 and 114 in the body is formed in the center in accordance with the diameter of the secondary coating and the primary coating portion therein, the leaf spring 113 on the outside In the divided state, as shown in FIG. 1, when the pressing plates 152 of the wedge unit 150 are inserted through the two holes H of the body, the plate spring is opened and the pressing plate is separated. It is clamped with elastic force so that the secondary and primary sheaths are secured to the optical connector.

However, in the conventional optical connector 100 as described above, since only the two-wave sheath 220 and the primary sheath 230 of the optical fiber cable 200 are clamped and fixed within the body, they correspond to the cable sheath. The tertiary coating could not be fixed.

For example, the field assembly of the conventional optical fiber cable is connected to the optical connector 100 only 250um primary sheath 230 and 900um secondary sheath 220, as shown in the photo in Figure 3 In order to protect the optical fiber cable 200 of the optical connector 100 and the optical fiber, a protective outlet 300 has to be used.

Therefore, since the conventional optical fiber cable assembly for the field assembly only clamps and assembles the secondary and primary coating parts, the assembly delay during the field assembly that requires the use of a separate outlet 300 and the use of separate parts and connections Several problems, such as the weakness of the state of solidarity.

SUMMARY OF THE INVENTION The present invention has been made to improve the above-mentioned conventional problems, and its first object is to securely grip the tertiary sheathing portion (the sheathing portion) of the optical fiber cable which is not connected to the optical connector. It is an object of the present invention to provide an optical fiber cable grip device that does not require outlet assembly as only a connector is connected, thereby improving field assembly of the overall optical fiber cable.

In addition, the second object of the present invention is to grip not only the tertiary sheath portion of the optical fiber cable but also the secondary sheathing portion connected to the optical connector at the same time, thereby making the field connection structure of the optical fiber cable very robust. It is to provide a cable grip device.

In addition, the third object of the present invention, as well as the grip of the tertiary and secondary sheath of the optical fiber cable, as well as the body of the optical connector can be fixedly connected to the field assembly workability through the optical connector connection of the entire optical fiber cable To provide an optical fiber cable grip device that improves the performance.

The present invention as a technical aspect for achieving the above object, the device body; And cable gripping means for gripping an optical fiber cable which is provided and entered in the apparatus body.
On the other side of the cable entry of the device body is to provide an optical fiber cable grip device configured to be used for connecting the optical connector while the optical connector is connected and fixed to the optical fiber cable is connected and fixed.

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Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

However, hereinafter, the components of the optical connector 100 and the components of the optical fiber cable 220 will be described with reference numerals described in the prior art as it is, the detailed description thereof will be simplified.

First, FIG. 4 schematically shows a state of use of the optical fiber cable creep device 1 according to the present invention.

That is, the optical fiber cable grip device 1 of the present invention can be used to grip the optical fiber cable, in particular the tertiary and secondary sheaths independently, and in addition can be used in connection with the optical contactor 100. As shown in FIG. 4, the body 110 of the optical connector 100 is fixedly connected to one side of the creep device, and the other side of the optical fiber cable 200 is connected to and gripped.

5 shows a state of use of the optical fiber cable grip device 1 according to the present invention.

That is, as shown in FIG. 5, the grip device 1 of the present invention has a secondary sheath 220 and a primary sheath of the optical fiber cable 200 on one side of the device body 10 as shown in FIG. 2B. A portion of the body 110 of the optical connector 100 clamping 230 is fixedly connected, and while the tertiary sheath 210 is entered and gripped on the other side of the device body 10, the secondary sheath 220 is also at the same time. Its feature is that it makes it possible to grip.

Accordingly, the optical fiber cable grip device 1 of the present invention substantially solves various problems caused by the failure to bind the tertiary sheath 210 of the cable with only the optical connector 100. At least the tertiary sheath 210 is to be gripped inside the device body.

Next, the optical fiber cable grip device 1 of the present invention is a body 110 of the optical connector 100, that is, a tertiary in which the secondary sheath 220 and the inner core wire 240 of the optical fiber cable 200 are embedded. The optical connector body 110 for field-assembling the sheath 230 is fixedly interlocked.

However, since the optical fiber grip device 1 of the present invention grips and fixes the secondary and tertiary sheath portions 210 and 220 of the optical fiber cable at least inside the device body, the optical connector 100 is actually connected to the optical connector 100. Even if not connected, the assembly structure of the optical fiber cable will be firm.

Of course, it is preferably used as an optical fiber cable grip device for connecting the optical connector to the optical connector.

6A and 6B, the overall configuration of the optical fiber cable grip device 1 according to the present invention is shown in more detail in front and rear perspective views.

For example, as shown in FIGS. 6A and 6B, the optical fiber cable grip device 1 of the present invention is largely provided with a device body 10 and light provided in the device body 10 and entering to one side. It comprises a cable gripping means 30 for gripping the fiber cable 200.

On the other hand, in the optical fiber cable grip device 1 of the present invention, the device body 10 is connected to each other as the connecting body 16 and the first and second bodies 12 and 14 assembled by the fastening means 50. Consists of.

In this case, preferably, the first body 12 is integrally formed as a lower body, and the second body 14 is configured as two upper parts of the second body 14a and 14b, respectively. One body 14a of the body and the other body 14b and the first body of the first body and the second body may be independently assembled.

In this case, one side of the second body may be understood as an optical connector linkage fixing side, and the other side of the second body may be regarded as a cable entry side.

That is, in the device of the present invention, the first body functions as an integral lower body into which the optical fiber cable is gripped inward, and the two divided bodies 14a and 14b on one side and the other side of the second body are the first body. Covered and fastened to the function of the upper body (cover).

At this time, the first body 12 and one side and the other side second body 14a, 14b are connected to the connecting body 16 in the longitudinal direction thereof to enable the first body fastening of the second body, and the body They are separated from each other so that they are not inconvenient when used in actual field.

However, since the first and second bodies 12 and 14 of the present invention are actually provided as injection moldings, the connecting body 16 is in the form of a thin integral plate, film or integral with the bodies. It can be provided in various forms such as a cylindrical shape and plastics having strength to compensate for repeated opening and closing of the bodies and other materials, for example.

In this case, once the first and second bodies are fastened, the connection body may not be disassembled unless a separate repair operation is required, and thus the connecting body may be sufficiently used as a known structure.

Next, as illustrated in FIGS. 5 and 6A, when the bodies are fastened and assembled to one side of the first body 12 and one side body 14a of the second body, the body of the optical connector 100 cooperates with each other. Connector fixing means 70 for fixing the 110 may be provided.

At this time, the connector fixing means 70 is formed of arc-shaped fixing surfaces 70a and 70b that are fitted to the first body and the second one-side body 14a by the body 110 of the optical connector when the body is assembled and compressed. do.

Of course, the fixing surfaces, for example, if the optical connector body 110 is square, it is natural that it is possible to form a square.

Accordingly, when the second one side body 14a is rotated around the connecting body 16 to the first body 12 and assembled through the fastening means, the body 110 of the connector may be a circle between the first and second bodies. It is crimped and fixed between arc-shaped fixing surfaces 70a and 70b.

At this time, although not indicated by a separate sign, it is more preferable that the fixing surface is formed with grooves into which the stepping stones formed on the outer peripheral surface of the optical connector body 110 is inserted.

Therefore, when the body 110 portion of the optical connector 100 is fixed to the grip device 1 of the present invention, the first and second grips of the device of the present invention are firmly held therebetween unless they are disassembled.

Next, as shown in Figure 5 and 6, the first body 12 of the present invention is further provided with a connector support means 80 for supporting the optical connector body 110 is fixed to the connector fixing means.

That is, the optical connector support means 80 has an upper support surface formed in an arc shape, and as shown in FIGS. 1 and 5, supports the body 110 of the optical connector 100.

At this time, as shown in FIG. 5, the secondary coating 220 of the optical fiber cable 200 is elongated and directly connected to the body 110 of the optical connector 100 fixedly connected inside the device body. Will be.

As a result, the optical fiber cable gripping apparatus 1 of the present invention grips the tertiary sheath of the optical fiber cable, grips the secondary sheath of the tip end in the device body, and the secondary sheath is elongated to form an optical connector. The first and second sheaths of the front end of the body are clamped and fixed again. The optical fiber cable as well as the connection of the optical connector are closely connected. It is easy and certain.

6A and 7 show the fastening means 50 which determines the grip force substantially and influences the holding state in the optical fiber cable grip device 1 of the present invention.

That is, as shown in Figure 6a and 7, in the grip device of the present invention the fastening means 50 and the hook means 52 which are provided on the first and second body 12, 14 of the device body, respectively; It is composed of a hook fastening groove 54 is a structure that the hook means is inserted into the hook fastening groove when the assembly of the body rotation.

At this time, as shown in Figure 7, the hook means of the fastening means in detail, the hook means 52 is provided on both sides of the second one side and the other body 12, 14a, 14b before and after respectively. It consists of the 1st hook 52a and the 2nd hook 52b which were made.

In addition, the hook fastening groove 54 is also composed of first and second hook fastening grooves 54a and 54b integrally formed on both sides of the first body 12 so that the first and second hooks are fastened. It is mutually fastened.

That is, as shown in Fig. 7, the upper jaw 52'a portion of the first hook 52a is supported by the support jaw 54'a of the first hook fastening groove 54a on the first body side. While the fastening state of the bodies on the opposite side of the connector is maintained firmly.

next. When the first and second bodies are fastened, the upper bent end 52'b of the second hook 52b is caught by the inner supporting jaw 54'b of the second hook fastening groove 54b.

On the other hand, as shown in Fig. 5, in the optical fiber cable grip device 1 of the present invention, when the secondary and tertiary sheaths of the optical fiber cable enter the first body, only the other body 14b of the second body is hooked. The secondary and tertiary sheaths of the cable by inserting them into the fastening grooves, and while holding the assembled first and second bodies 12 and 14b, from the tertiary sheath to the side opposite the cable entry side to one side of the grip device. When the exposed second cover part and the first cover part are inserted into the optical connector 100 operated by the wedge unit, and the optical connector main body 110 is placed on the fixing means 70 as shown in FIG. 5, the second open side is opened. The body 14a is fastened by covering it on the first body 12.

8 and 10 show substantially optical fiber cable grip means 30 which enable the grip of cable secondary and tertiary sheaths in the optical fiber cable grip device of the present invention.

That is, as shown in FIGS. 8 and 9, the cable grip means 30 of the optical fiber cable grip device 1 according to the present invention grips the tertiary sheath 210 of the optical fiber cable 200. And a second grip portion 34 which grips the first sheath portion 32 and / or the secondary sheath 220 of the optical fiber cable 200.

In this case, the first grip part 32 is characterized in that to grip the third sheath 210 that is not fixed to the optical connector 100 in the optical fiber cable 200.

For example, as shown in FIGS. 5 and 8, the first grip part 32 includes a tertiary sheath 210 of the optical fiber cable 200 on the first body 12 of the device body 10. It consists of the cable seating entrance part 32a formed concave so that it might enter, and the tooth part 32b provided in the side wall of the said cable entrance part 32a, and crimping | fixing and fixing a tertiary coating part.

At this time, Preferably, the toothed portion 32b of the first grip part is preferably formed at least perpendicular to the entry direction of the optical fiber cable tertiary sheath 210.

As a result, the grip device 1 of the present invention grips the cable outer part of the third sheath sheath 210 which cannot be fixed by the existing optical connector alone in the optical fiber cable 200, and thus, the existing outlet (300 in FIG. 3 photo). ), Which will facilitate field assembly of the actual optical fiber cable.

Next, the second grip portion 34 includes a cable secondary sheath receiving portion 34a formed in the first body 12 of the device body and the other body 14b of the second body 14 of the device body. It comprises a cable secondary coating crimping portion (34b) integrally provided at.

Therefore, when the hook means of the fastening means of the body is fastened to the fastening groove and assembled, the secondary sheath 220 of the optical fiber cable 200 is pressed and gripd at the same time.

As a result, the secondary sheath of the optical fiber cable 200 is a secondary grip which is fixed by the inner clamping block (112 of FIG. 2A) of the optical connector 100 fixedly connected to the grip device while being crimped and gripped by the grip device of the present invention. It has a fixed structure, which solidifies the assembly structure of the entire optical fiber cable.

At this time, as shown in Figs. 8 and 9, the secondary coating accommodating portion 34a, which grips the secondary coating in cooperation with the secondary coating crimping portion, has a round projection 34a 'on both sides and an inner side thereof. It is comprised by the accommodating groove part 34 "a which is recessedly dug and inserts and accommodates a cable secondary coating part.

In addition, the secondary covering crimping portion 34b is a round portion 34b 'where the projections of the covering accommodating portion are in close contact with each other, and the cable pressing protrusion 34b compresses the secondary covering portion inserted into the receiving groove of the secondary covering crimping portion. ").

Therefore, as shown in FIGS. 9 and 10, when the secondary sheath 220 is inserted into the receiving groove 34'b of the secondary sheath receiving portion 34a, the projections 34'a on both sides thereof. Do not over compress while supporting.

At the same time, the rounded portion 34'b of the secondary coated pressing portion 34b is supported by the protrusion, and the pressing protrusion 34''b compresses and grips the upper portion of the secondary coating 220 so as not to be excessive by a constant force. Let's do it.

At this time, as shown in Figs. 9 and 10, the grip groove 34'a of the secondary coating receiving portion 34a and the pressing protrusion 34'a of the secondary coating pressing portion 34a, respectively, are gripped. It is preferable that an elastic material (35a) (35b), for example, a rubber plate is provided to cushion the impact so as to prevent damage of the optical fiber cable secondary sheath 220 portion.

Accordingly, the optical fiber cable grip device 1 of the present invention can be used to grip at least the tertiary sheath 210 and the secondary sheath 220 of the optical fiber cable, and furthermore, the body of the optical connector 100 ( It can be used as shown in Figure 4 for the optical connector connection by fixing the 110.

As described above, according to the optical fiber cable grip device of the present invention, it is necessary to firmly grip the tertiary sheathing part (the sheathing part) of the optical fiber cable which is not connected to the optical connector, so that the outlet assembly is required because only the secondary sheathing part is connected. This provides an excellent effect to improve field assembly of the overall fiber optic cable.

At the same time, the third outer sheath of the optical fiber cable as well as the secondary sheath directly connected to the optical connector are firmly gripped, thereby providing other excellent effects such as very strong field connection structure of the optical fiber cable. It is.

Finally, the grip of the tertiary and secondary sheaths of the fiber optic cable, as well as the body of the fiber connector, can be fixedly interlocked, which is another superior effect of improving field assembly workability through the fiber optic connector connection of the entire fiber optic cable. To provide.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

Claims (19)

Device body 10; And, Cable gripping means (30) for gripping an optical fiber cable (200) provided in the apparatus body (10) and entered; Including, On the other side of the cable entry of the device body 10, the optical connector 100 to which the optical fiber cable 200 is connected and assembled is fixedly connected to be used for connecting the optical connector while gripping the optical fiber cable. Cable grip. delete The optical fiber according to claim 1, wherein the device body (10) is composed of first and second bodies (12) (14) which are connected to each other as a connecting body (16) and assembled by fastening means (50). Cable grip. 4. The body as claimed in claim 3, wherein the first body 12 is integrally formed as a lower body, and the second body 14 is composed of two divisions 14a and 14b as an upper body, respectively assembled by fastening means. An optical fiber cable grip device, characterized in that configured. 5. The optical connector 100 is fixedly coupled to each other when the one side body 14a and the first body 12 of the second body are fastened and assembled, and the other body 14b and the first body of the second body are connected to each other. The optical fiber cable 200 entered during the fastening assembly of the body 12 is gripped, and one side and the other body of the second body are configured to be fastened and assembled with the first body independently through the fastening means. Cable grip. The method of claim 4 or 5, wherein the fastening means 50 is composed of a hook means 52 and a hook fastening groove 54 provided on one body and the other body of the first body and the second body, respectively. An optical fiber cable grip device. The hook means (52) of the fastening means is composed of a first hook (52a) and a second hook (52b) provided in one side and the other body (14a, 14b) of the second body, respectively. The hook fastening grooves 54 are provided in the first body 12 at positions corresponding to the first and second hooks, respectively, and the first and second hook fastening grooves 54a to which the first and second hooks are inserted and fastened. Optical fiber cable grip device, characterized in that consisting of (54b). The method according to claim 5, wherein the first body (12) and one side body (14a) of the second body includes an optical connector fixing means 70 for fixing the optical connector 100 in cooperation with each other when the assembly of the body An optical fiber cable grip device, characterized in that. The method of claim 8, wherein the optical connector fixing means 70 is integrally provided in the first body and the second one side body (14a) so that the body 110 of the optical connector of the first body and the second one side body An optical fiber cable grip device, comprising an optical connector fixing surface (70a) (70b) that is fitted in the assembly and is fixed in compression and formed in correspondence with the shape of the optical connector body. The optical fiber cable grip of claim 4 or 8, wherein the first body 12 is further provided with connector support means 80 for supporting the optical connector body 110 fixedly connected to the body. Device. 2. The optical fiber cable grip device according to claim 1, wherein the cable grip means (30) comprise a first grip portion (32) for gripping a tertiary sheath (210) of the optical fiber cable (200). 2. The optical fiber cable grip device according to claim 1, wherein the cable grip means (30) comprise a second grip portion (34) for gripping a secondary sheath (220) of the optical fiber cable (200). The cable gripping means (30) of claim 1, wherein the cable gripping means (30) comprises: a first gripping portion (32) for gripping a tertiary sheath (210) of the optical fiber cable (200) and a secondary sheath of the optical fiber cable (200). And a second grip portion (34) for gripping (220). 14. The cable according to claim 11 or 13, wherein the first grip portion (32) is formed in the first body (12) of the device body in such a way that the tertiary sheath (210) of the optical fiber cable (200) is concave to enter and settle. And an inlet seating portion (32a) and a tooth portion (32b) provided on the side wall of the cable inlet seating portion (32a) to press-fix the tertiary sheathing portion. The method of claim 12 or 13, wherein the second grip portion 34, The cable secondary sheath receiving portion 34a formed on the first body 12 of the device body, and the cable secondary sheathing compression portion 34b integrally provided on the other body 14b of the second body of the device body. And an optical fiber cable grip device configured to grip the cable secondary sheath in cooperation with each other during assembly of the bodies. 16. The secondary sheath receiving portion 34a, which cooperates with the secondary sheath crimp to grip the secondary sheath of the optical fiber cable, is recessed inwardly with the round protrusions 34a 'on both sides thereof. An optical fiber cable grip device, comprising a receiving groove portion (34 "a) into which the secondary sheath of the optical fiber cable is inserted. 17. The secondary sheathing portion 34b of claim 16, wherein the secondary sheathing portion 34b is a round portion 34b 'that is tightly supported by a round protrusion of the secondary sheathing portion and a secondary sheath inserted into the receiving groove portion of the secondary sheathing portion. And a cable secondary sheathing crimping protrusion (34b ") formed to protrude from the center of the round portion to crimp a portion thereof. 18. The method of claim 17, wherein the receiving groove portion of the secondary coating receiving portion and the pressing projection of the secondary coating pressing portion are each further provided with elastic materials 35a and 35b which come in contact with the cable secondary coating to enable buffer compression. An optical fiber cable grip device. delete

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