KR20000060199A - Optical connector - Google Patents

Abstract

PURPOSE: An optical connector is provided to ensure easy assembly and lower the production cost by comprising two parts or a holder and an adaptor to reduce part number than in the prior art. CONSTITUTION: One end of an optical fiber array(120) is inserted into a holder(110). The holder(110) is coupled to an adaptor(130), and has two latches(114) at both sides. The latches(114) assist the holder(110) to be fixed into the adaptor(130) without additional fastening means. In the adaptor(130), an optical device(142) is opposed to the leading end(111) of the holder(110). One end of an electrode(144) is inserted into the adaptor(130) to be connected to the optical device(142). The optical device(142) and the electrode(140) are integrally provided to the adaptor(130), so the optical connector can be composed of two parts or the holder(110) and the adaptor(130).

Description

Optical connector

The present invention relates to an optical connector, and more particularly, to an optical connector capable of coupling a light emitting element and an optical fiber.

In general, the optical connector is employed in the optical transmission module, in particular, a multi-channel optical transmission module having an array structure so as to transmit the light independently from each other to couple the optical element and the optical fiber to guide the light to proceed correctly. The optical device is a light emitting device having a linear array structure and irradiating laser light, or a light receiving device having an array structure for receiving light transmitted through the optical fiber.

One example of such an optical connector is shown in FIG.

Referring to the drawings, a plurality of optical fibers 3 are aligned and supported by the parole 10. The parole 10 includes a substrate 11 having a groove 11a recessed in a V shape so that each of the optical fibers 3 can be aligned, and a cover member 13 coupled to the substrate 11. Equipped. In addition, a plurality of optical elements 1 are provided at positions opposite to the ends of the aligned optical fibers 3, and the optical elements 1 employ light emitting elements 2, such as semiconductor lasers, as shown. In order to increase the light utilization rate, a microlens array 15 for focusing light is further provided between the light emitting element 2 and the optical fiber 3.

However, the conventional optical connector having the above configuration has difficulty in aligning the optical fibers 3 because each of the optical fibers 3 must be handled separately in order to align the plurality of optical fibers 3 with the grooves 11a. .

In addition, since the plurality of grooves 1a must be processed on the substrate 11 by machining, productivity is lowered, and the microlens array 15 must be installed, so that the number of parts is increased, the assembly labor and the high cost. There is a problem brought about.

2 is an optical connector proposed by the present applicant to solve the above problems, an adapter 30 having an optical element 21 and an electrode 23 installed thereon, and an optical fiber array 60 transmitting incident light. The holder 50 is installed, and the adapter 30 and the holder 50 is coupled to the housing 40 to align the installation position of the optical element 21 and the optical fiber array 60.

Here, the adapter 30 has a coupling portion 33 to which the optical element 21 is attached is fitted into the coupling groove 43 of the housing 40. The holder 50 is coupled to the housing 40 so that the latch 53 of the elastic piece 51 provided on both sides is coupled to the latch fixing groove 45 formed in the housing 40. In this process, the reference post 41 provided on one surface of the housing 40 is coupled to the reference hole 31 formed in the adapter 30 so as to face the reference post 41. The misalignment between the optical fiber arrays 60 is corrected.

By the way, in the case of the optical connector having the configuration as described above, the precision and reliability of the device is good, but because the three parts must be manufactured separately, the cost is high and can be a burden on the consumer.

Accordingly, the present invention has been made in view of the above point, and an object thereof is to provide an optical connector having a structural improvement such that the number of parts is reduced.

1 is a schematic exploded perspective view showing an example of a conventional optical connector employed in a multi-channel optical transmission module.

Figure 2 is an exploded perspective view showing the optical connector proposed by the applicant.

3 is a schematic exploded perspective view showing an optical connector according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

110.Holder 112.Elastic

114. Latch 120. Fiber array

130. Adapter 131. Guide part

132..Retaining groove 134..Retaining groove

142 Optical element 144 Electrode

The optical connector according to the present invention for achieving the above object is installed so that the optical fiber array for transmitting incident light on the front end surface, the holder having a latch; And a receiving groove having a guide portion for guiding the coupling of the holder and a fixing groove for fixing the latch, so that an optical element for emitting and / or receiving the incident light is opposite to an end surface of the holder so as to correspond to an end of the optical fiber array. Adapter is installed; characterized in that it comprises a.

Hereinafter, an optical connector according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 3, an optical connector according to an exemplary embodiment of the present invention includes a holder 110 in which an optical fiber array 120 for transmitting incident light is installed, and an adapter in which the holder 110 is coupled and an optical element 142 is installed. 130 is provided.

The optical fiber array 120 is immersed in the holder 110, and in particular, one end 121 of the optical fiber array 120 corresponds to a front end surface corresponding to the adapter 130 of the holder 110. 111) is installed to be exposed. The optical fiber array 120 may be fixed by an adhesive or the like by forming a hole in the holder (110). The holder 110 is coupled to the adapter 130, and has a latch 114 is installed on both sides so as to be fixed without a separate fastening means when coupled. The latch 114 is formed on an elastic piece 112 that is elastically displaceable around a portion where the optical fiber array 120 of the holder 110 is installed. The holder 110 is made of a general plastic injection molding.

The adapter 130 has an accommodating groove 132 to which the holder 110 is coupled and received, and a fixing groove 134 for fixing the latch 114. The receiving groove 132 is formed to be immersed from the upper surface 130b of the adapter 130. Specifically, the receiving groove 132 has a structure of a groove immersed from one end surface 130a of the adapter 130 and a part of the upper surface 130b is opened.

The fixing groove 134 is provided at both sides of the adapter 130, that is, the guide part 131 so as to correspond to the latch 114. Therefore, when the holder 110 is coupled to the adapter 130, the elastic piece 112 is in contact with the guide portion 131 of the receiving groove 132 and elastically displaced inward, the latch 114 is When positioned in the fixing groove 134 is restored so that the latch 114 is caught in the fixing groove 134. Accordingly, the holder 110 is coupled to and fixed to the adapter 130 so as not to be separated. Here, when the elastic piece 112 is artificially elastically displaced inward, the engagement of the latch 114 to the fixing groove 134 is released.

On the other hand, the optical element 142 is installed in the adapter 130 to face the front end surface 111 of the holder 110. Specifically, the optical device 142 is provided to be exposed to the inner side surface 130C of the receiving groove 132 facing the front end surface 111 of the holder 110. In addition, the adapter 130 is immersed in the electrode 144 to be connected to the optical device 142. In this case, the optical device 142 receives a light emitting device and / or incident light that can emit light by a driving power applied through the electrode 144, converts the incident light into an electrical signal, and transmits the light through the electrode 144. It is composed of elements and has an array form suitable for multichannel signal transmission. The optical device 142 may be integrated into the adapter 130 by an insert mold or an insulating adhesive. In addition, the optical device 142 may be connected to the electrode 144 by an adhesive, a wire, or a thin film lamination.

As such, by providing the optical device 142 and the electrode 140 integrally with the adapter 130, the optical connector according to the embodiment of the present invention is composed of two parts, the holder 110 and the adapter 130. . Therefore, the number of parts can be reduced as compared with the prior art, thereby reducing the manufacturing cost and making it easier to assemble.

In addition, since the optical connector according to the embodiment of the present invention can be manufactured in a small size at a low cost, it is useful to be employed in a device having a small size, such as a notebook PC, and a large-capacity high-speed transmission at a stop distance Can be used.

The optical connector according to the present invention as described above has a simple structure having an electrode and an optical element formed integrally with a holder, and a holder in which an optical fiber is installed, thereby reducing components as compared with the related art.

Therefore, it is possible to reduce the manufacturing cost of the product, there is an advantage that the assembly can be performed simply.

Claims (1)

A holder having an optical fiber array for transmitting incident light on the distal end surface, the holder having a latch; And a receiving groove having a guide portion for guiding the coupling of the holder and a fixing groove for fixing the latch, so that an optical element for emitting and / or receiving the incident light is opposite to an end surface of the holder so as to correspond to an end of the optical fiber array. The adapter is installed; optical connector comprising a.