KR20120106616A - Multi-core optical connector - Google Patents

Abstract

PURPOSE: A multi-core optical connector is provided to prevent the movement of a sleeve without using a sleeve holder and easily remove terminus inserted into a receptacle insert body. CONSTITUTION: A plug insert body(200) and a receptacle insert body(100) are formed with a matching structure in a multiple core connector. Terminuses(34,34a) are inserted into the plug insert body and the receptacle insert body. A plug body(202) and a receptacle body(102) surround the plug insert body and the receptacle insert body. The multi-core optical connector is formed by combining the plug body with the receptacle body. The receptacle body is composed of a front body, a middle body, and a rear body.

Description

Multi-core optical connector

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-core optical connector for use in connecting multi-core cables in optical communications, and more particularly, to a multi-core optical connector having a receptacle insert body for connecting optical paths for optical communications mainly used in special fields such as military applications. .

MIL Multi-core Optical Connector is mainly used in military equipment such as aircraft, ships, and special environment for transmitting control information and security data of sensitive equipment that requires minimization, light weight, precision, accuracy and stability. Connector for optical network systems. Here, the MIL multi-core optical connector conforms to the MIL-STD standard, and refers to connecting a light path made of a multi-core cable such as 4-core, 8-core, 18-core, and 31-core with one connector.

In general, in the case of a single-core optical connector, as a connecting part for connecting one optical path, it is composed of a housing and a sleeve according to the ferrule diameter. On the other hand, in the case of a multi-core optical connector, it is a connecting part for connecting a light path made of a multi-core cable with one connector, and is mainly composed of a plug body and an insert body of a receptacle. Several ferrules are connected.

On the other hand, the multi-core optical connector is composed of the internal matching structure of the plug insert body and the insert body of the receptacle. Accordingly, the plugs and receptacles are precisely manufactured by using an alignment technique for minimizing the loss occurring during connection, that is, insertion loss and reflection loss of the optical connector. In addition, it has an internal structure including a sleeve in the receptacle insert body in order to increase the accuracy according to the ferrule spacing and the connection position when connecting.

1 is a cross-sectional view showing a conventional receptacle insert body 50. Referring to FIG. 1, a conventional receptacle insert body 50 is composed of one body 2 and has a plurality of through holes 4 into which a terminus 14 is inserted. The sleeve 6 is embedded in the sleeve holder 8, and a latch 10 is formed at one end of the sleeve holder 8 to be coupled to the terminus 14. That is, the terminus 14 is inserted into the through hole 4 in a state of being coupled with the sleeve holder 8 in which the sleeve 6 is embedded. The terminus 14 inserted into the through hole 4 is fixed to the body 2 by an internal protrusion 12 disposed in the through hole 4.

As described above, the terminus 14 is conventionally inserted in the insert body 50 made of one body 2 in a state of being engaged with the sleeve holder 8 in which the sleeve 6 is embedded. Therefore, a special tool was used to remove the termination 14 inserted into the receptacle insert body 50. Moreover, since it cannot be removed after the termination 14 and the sleeve holder 8 are combined, maintenance was difficult when an abnormality occurred in the optical path. In other words, since the conventional receptacle insert body 50 is composed of one body, even if an abnormality occurs in only one ferrule, the entire receptacle insert body 50 has to be replaced or a special tool must be used.

Therefore, the problem to be solved by the present invention is to easily remove the terminal inserted into the receptacle insert body, to prevent the flow of the sleeve without using the sleeve holder, easy to maintain even if only one ferrule occurs To provide a multi-core optical connector.

In the multi-core optical connector of the present invention for solving the above problems, the plug insert body and the receptacle insert body, each of which is inserted into the terminator, forms a matching structure therein, and a plug body and a receptacle body surrounding each outside are coupled to each other. In the optical connector, the receptacle insert body is formed by sequentially combining three parts of the front body, the middle body and the rear body.

The front body and the middle body may further include a ceramic sleeve inserted from the front body over the middle body, and the front body, the middle body and the rear body may be fixed by fixing bolts.

In the present invention, a protrusion for fixing the ceramic sleeve is formed on the front body, and an O-ring for improving the sealing force of the middle body and the rear body may be further installed between the middle body and the rear body.

According to the multi-core optical connector of the present invention, since the receptacle insert body is made of three parts, the receptacle insert body is easy to separate and assemble, and the protrusion is fixed to the receptacle insert body instead of the sleeve holder. Since the terminated termination can be easily removed, it is possible to provide a multi-core optical connector that can be maintained even if one ferrule fails.

1 is a cross-sectional view of a conventional receptacle insert body.
2 is an exploded perspective view of an assembly of a multicore optical connector according to the present invention.
3A is a perspective view showing a receptacle insert body according to the present invention.
FIG. 3B is an exploded perspective view showing each component before assembling the receptacle insert body of FIG. 3A.
3C is a cross-sectional view taken along line 3C-3C of FIG. 3B.
Figure 4a is a perspective view of the plug insert body and the receptacle insert body in accordance with the present invention.
4B is a cross-sectional view taken along line 4B-4B of FIG. 4A.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The embodiments of the present invention are provided to enable those skilled in the art to more fully understand the present invention.

In the embodiment of the present invention, since the receptacle insert body is made of three parts, and a protrusion is formed inside the receptacle insert body to replace the sleeve holder function, maintenance is possible even if an abnormality occurs in one ferrule. We will present a multi-core optical connector. The multi-core optical connector of the present invention connects optical paths made of multi-core cables such as 4-core, 8-core, 18-core, and 31-core with one connector, and includes an insert body of a plug and a receptacle. ), And several ferrules are connected at both ends thereof.

2 is an exploded perspective view of an assembly of a multicore optical connector according to the present invention.

As shown in FIG. 2, the multi-core optical connector of the present invention includes a plug insert body 200 and a receptacle insert body 100 into which the terminators 34 and 34a are inserted, respectively, a plug insert body 200 and a receptacle insert. The body 100 forms a mating structure therein, and the plug body 202 and the receptacle body 102 which respectively surround the outside thereof are coupled to each other. The multicore optical connector of the present invention is characterized in that the receptacle insert body 100 is separated into three parts. Hereinafter, the receptacle insert body 100 will be described in detail.

3A-3C show a receptacle insert body 100 according to the present invention. Specifically, FIG. 3A is a perspective view of the receptacle insert body 100 according to the present invention, FIG. 3B is an exploded perspective view showing each component before assembling the receptacle insert body 100 of FIG. 3A, and FIG. 3C is 3C of FIG. 3B. Sectional view taken along the -3C line.

3A to 3C, the receptacle insert body 100 of the present invention is largely divided into three parts of the front body 24, the middle body 28, and the rear body 32. And are coupled to each other by fixing bolts 22. At this time, the front body 24 is added to the function of the conventional sleeve holder 8 (see Fig. 1), the middle body 28 facilitates the removal of the terminal 34, the rear body 32 It includes a plurality of insertion holes 42 for receiving the termination 34. On the other hand, the insertion hole 42 of the rear body 32 is formed to be connected to each other also in the middle body 28 and the front body 24 to form one insertion hole 42. In addition, the front body 24, the middle body 28, the rear body 32 is bored bolt hole 40 is fitted with a fixing bolt 22 to be coupled to each part.

Between the front body 24 and the middle body 28 is added a ceramic sleeve 26 for aligning the optical axis. Specifically, the sleeve 26 surrounds the front end 24 inserted into the front body 24 and the middle body 28 and is positioned over the front body 24 and the middle body 28. The O-ring 30 may be mounted between the middle body 28 and the rear body 32 to maintain the sealing force between the middle body 28 and the rear body 32. Terminus 34 is inserted into the insert body 100 of the present invention through the rear body (32). Here, the termus 34 is a component inserted into the receptacle insert body, and is composed of detailed components such as a ceramic ferrule, a flange, a spring clip, and an o-ring.

A protrusion 36 is formed inside the front body 24, and the ceramic sleeve 26 inserted therein is fixed by the protrusion 36. Accordingly, the movement of the sleeve can be prevented in the receptacle insert body of the present invention without using a sleeve holder for fixing the sleeve. Therefore, unlike the conventional receptacle insert body using the sleeve holder, the coupling and disconnection of the sleeve and the terminator is easy, so that the maintenance of the receptacle insert body in the event of an optical path becomes easy.

The middle body 28 is inserted with a ceramic sleeve 26 for aligning the optical axis of the ceramic ferrule of the terminator 34. That is, the ceramic sleeve 26 is inserted into the middle body 28 and is fixed by the protrusion 36 formed on the front body 24 coupled to one side of the middle body 28. In other words, the ceramic sleeve 26 is located over the front body 24 and the middle body 28. In addition, the terminus 34 inserted into the rear body 32 coupled to the other side of the middle body 28 is fitted to the ceramic sleeve 26 to be aligned. Accordingly, even if a problem occurs in one terminal 34, the ceramic sleeve 26 can be easily removed by separating the middle body 28, thereby allowing the replacement and repair of the terminal 34.

In the case of a conventional receptacle insert body (see FIG. 1), since the terminal is inserted in the form of a sleeve holder, a special tool has to be used to repair and replace the sleeve holder in the insert body. Therefore, it was difficult to reuse because of the problem that the ceramic sleeve is broken in the sleeve holder or the portion of the brace 10 of the sleeve holder connected to the terminator is bent. However, in the present invention, the receptacle insert body 100 is divided into three parts, the front body, the middle body and the rear body, the front body 24 can be fixed to the receptacle insert body 100 without using a sleeve holder. Since the protrusion 36 is formed, the ceramic sleeve is not broken when the middle body 28 is removed and the termus is replaced, thereby enabling reuse. In addition, in the rear body portion 32, it is possible to check and repair the terminal ferrule end face.

In other words, in the conventional receptacle insert body, when one problem occurs, one set consisting of the terminator, the sleeve and the sleeve holder must be replaced with a new part, but the receptacle insert body of the present invention has the middle body separated. Individual parts can be replaced and the ferrule cross-section can be checked and inspected to determine whether it can be reused without replacing the whole.

The rear body 32 is coupled to the middle body 28 by fastening bolts 22 inserted from the front body 24. In addition, one surface of the rear body 32 is provided with a groove 38 into which the O-ring 30 can enter, so that the O-ring 30 is interposed between the rear body 32 and the middle body 28. As a result, the sealing force can be increased. In addition, the terminals 34 inserted from the other side of the rear body 32 are aligned by the ceramic sleeve 26 located in the middle body 28.

As described above, the receptacle insert body 100 of the present invention is composed of three parts, the front body 24, the middle body 28 and the rear body 32, fixed through the bolt hole 40 formed in each The bolts 22 are coupled to each other. Therefore, since the fixing bolt 22 can be easily combined or removed, it is easy to process during manufacturing. Thus, even if a problem occurs in one terminal 34, one terminal 34 can be replaced or repaired without having to replace the entire receptacle insert body.

4A is a perspective view of the plug insert body 200 and the receptacle insert body 100 according to the present invention. FIG. 4B is a cross-sectional view taken along the line 4B-4B of FIG. 4A.

4A and 4B, when the plug insert body 200 and the receptacle insert body 100 are coupled to each other, the terminal 34a inserted from the plug insert body 200 and the receptacle insert body 100 are inserted into the plug insert body 200. Terminus 34 connects in ceramic sleeve 26. The ceramic sleeve 26 is provided inside the receptacle insert body 100 separately from the terminator 34. At this time, the receptacle insert body 100 is separated into three parts, the front body 24, the middle body 28, the rear body 32, the sleeve 26 from the front body 24 to the middle body 28 Located across.

Therefore, when the front body 24 and the middle body 28 of the receptacle insert body 100 is separated, it is possible to check the cross section of the ferrule embedded in the terminus 34. Accordingly, even if an abnormality occurs in only one ferrule, by removing the receptacle insert body 100 and removing the ceramic sleeve 26 installed therein, one ferrule can be replaced or repaired, thereby facilitating maintenance.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It is possible.

22; Fixing bolt 24; Front body
26; Ceramic sleeve 28; Middle body
30; O-ring 32; Rear body
34, 34a; Termus 40; Bolt hole
100; Receptacle insert body 200; Plug insert body
102; Receptacle body 202; Plug body

Claims (5)

In the multi-core optical connector formed by coupling the plug insert body and the receptacle insert body into which the terminators are inserted, respectively, and the plug body and the receptacle body surrounding each outside are combined with each other,
The receptacle insert body is a multi-core optical connector is formed by sequentially combining the three parts of the front body, the middle body and the rear body. The multicore optical connector of claim 1, wherein the front body and the middle body further comprise ceramic sleeves inserted from the front body over the middle body. The multicore optical connector of claim 1, wherein the front body, the middle body and the rear body are fixed by fixing bolts. The multi-core optical connector according to claim 2, wherein the front body is provided with a projection for fixing the ceramic sleeve. The multi-core optical connector of claim 1, further comprising an O-ring between the middle body and the rear body to improve the sealing force of the middle body and the rear body.

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