KR100322580B1 - Optical connector module - Google Patents

Abstract

An optical connector module for coupling at least one optical element for emitting and / or receiving an optical signal and at least one optical fiber for transmitting incident light is disclosed.

The optical connector module has a first holder in which an optical element is installed, a second holder supporting one end of the optical fiber and an electric wire, and an installation groove in which the first and second holders are installed so that the ends of the optical element and the optical fiber face each other. A grounding and at least one fixed electrode member for power supply provided in a main body, one holder of the first and second holders spaced apart from each other, and a first holder and a second holder installed in the main body so as to elastically protrude by a predetermined length. At least one power contact electrode member for contacting the fixed electrode member for power supply during installation of the main body is installed at a predetermined interval apart from the contact electrode member for power supply so as to elastically protrude relatively longer than the contact electrode member for power supply in the other holder. Including the contact electrode member for grounding which is connected to the fixed electrode member for grounding when the first and the second holder is installed, the grounding electrode members are connected first That provided so as to be characterized.

Description

Optical connector module

The present invention relates to an optical connector module, and more particularly, to an optical connector module for coupling an optical element and an optical fiber.

In general, the optical connector module is employed in at least one channel optical transmission module having an array structure so as to transmit light independently of each other, and optically couples the optical element and the optical fiber. The optical device has, for example, a linear array structure, and is a light emitting device that emits an optical signal and / or a light receiving device that receives an optical signal transmitted through an optical fiber and converts the optical signal into an electrical signal. Here, the optical transmission module is configured to include the optical connector module, optical element and optical fiber.

Since the optical connector module is provided to transmit only an optical signal, there is a problem that a separate power supply means is required to supply power for driving an optical element installed in the optical connector module.

The present invention has been made in view of the above, and an object thereof is to provide an optical connector module in which a power supply means is integrally provided to supply power for driving an optical device together with optical signal transmission.

1 is an exploded perspective view of an optical connector module according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 1. FIG.

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

10 ... optical connector module 20,40 ... 1st and 2nd holder

21 Optical element 30 Body

41 ... optical fiber 42 ... wire

61 ... guide groove 65 ... guide protrusion

71 ... engaging hook 75 ... joiner

101,102.Fixed electrode member for grounding and power

111,112 ... Contact electrode member for grounding and power

In order to achieve the above object, the present invention provides an optical connector module for coupling at least one optical element for emitting and / or receiving an optical signal and at least one optical fiber for transmitting incident light. 1 holder; A second holder supporting one end of the optical fiber and the wire; A main body having an installation groove in which the first and second holders are installed so that the ends of the optical element and the optical fiber face each other; A fixed electrode member for grounding and at least one power source provided in one holder of the first and second holders to be spaced apart from each other; At least one power contact electrode member installed in another holder to elastically protrude by a predetermined length and contacting the fixed electrode member for power when the first and second holders are installed in the main body; The other holder is installed to be spaced apart from the power contact electrode member for a predetermined interval so as to elastically protrude relatively longer than the contact electrode member for power supply, the ground for fixing when the first and second holder is installed in the main body And a grounding contact electrode member connected to an electrode member, wherein the grounding electrode members are electrically connected to each other.

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

1 is an exploded perspective view of an optical connector module according to an embodiment of the present invention.

Referring to the drawings, the optical connector module 10 according to the present invention comprises a first holder 20, at least one optical element 21 is installed, at least one optical fiber 41 and a plurality of wires 42 Power supply means provided in the second holder 40 to be installed, the main body 30 to which the first and second holders 20 and 40 are installed, and the first and second holders 20 and 40. It is configured to include. Here, the optical device, the first holder and the main body is an adapter 80, the second holder 40 is preferably an optical connector.

On the front surface 20a of the first holder 20, the optical elements 21 are arranged in, for example, an array so as to transmit and / or receive at least one optical signal. In addition, an electrical signal is input from the external device to the optical device 21 and / or electrically connected to each optical device 21 so that the electrical signal from the optical device 21 can be transmitted to the external device. The lid 23 is installed in the first holder 20. Here, the optical element 21 is a light emitting element that emits an optical signal from an input electrical signal and / or a light receiving element that receives and converts the optical signal into an electrical signal.

The second holder 40 supports one end of the optical fiber 41, the front end (40a) of the end 41a of the optical fiber 41 is arranged in an array, for example corresponding to the arrangement of the optical element 21 do. Here, as shown in the optical fiber 41, the optical fiber bundle formed in a band shape may be employed. At this time, the optical fiber 41 is preferably a plastic optical fiber. Since the diameter of the plastic optical fiber is relatively large, for example, about 0.5 to 1.0 mm, the second holder 40 can be manufactured and used by injection molding, thereby making it possible to construct an inexpensive optical connector module 10. .

In addition, the second holder 40 supports one end of the wire 42. One end of the wire 42 is electrically connected to the power supply means. The wire 42 is a passage through which the optical connector module 10 receives an electrical signal, in particular, power and / or power from an external device, together with an optical signal transmission through the optical fiber 41.

The main body 30 is provided with an installation groove 31 in which the first and second holders 20 and 40 are installed so that the optical element 21 and the end portion 41a of the optical fiber 41 face each other. At this time, the installation groove 31 is preferably formed through. The first and second holders 20 and 40 are installed in the main body 30 by placing the front surfaces 20a and 40a so as to face each other and then inserting them from both sides of the installation groove 31.

The power supply means for grounding and at least one power supply fixed electrode member 101 and 102 provided to be spaced apart from each other, the grounding and at least one power supply contact is installed in the other holder to elastically protrude by a predetermined length Formula electrode members 111 and 112 are included.

The fixed electrode members 101 and 102 may be provided on the front surface 20a of the first holder 20 so as to be spaced apart from each other by a predetermined interval, each of the leads 105 installed in the first holder 20. And is electrically connected to 106.

The contact electrode members 111 and 112 are installed in the second holder 40 to be spaced apart from each other by a predetermined interval corresponding to the fixed electrode members 101 and 102, and are respectively provided by the elastic bias means. The elastically protrudes from the front surface 40a in the protrusion direction A by this much. Here, each of the elastic biasing means may include an elastic spring 85 as shown in FIG. 2, and the elastic spring 85 has the contact electrode member 111 inside the second holder 40. It is installed in the receiving groove (87) corresponding to each of the (112) to elastically bias the contact electrode member 111, 112 in the protruding direction (A).

On the other hand, the grounding contact electrode member 111 is preferably provided to protrude in the protruding direction (A) relatively longer than the power contact electrode member (112). The fixed electrode members 101 and 102 may be provided in the second holder 40, and the contact electrode members 111 and 112 may be installed in the first holder 20. In this case, the contact electrode members 111 and 112 are electrically connected to the leads 105 and 106, respectively.

When the power supply means is provided as described above, when the first and second holders 20 and 40 are installed in the main body 30, the contact electrode member 112 for power may be the fixed electrode member for power. 102 is electrically connected to the ground contact electrode member 111 is electrically connected to the ground fixed electrode member 101. In this case, since the grounding contact electrode member 111 protrudes relatively further than the power contacting electrode member 112, the grounding electrode members 101 and 111 are electrically connected first, which will be described later. As described above, the risk of destruction of the optical device due to electric surge, electric shock, or the like can be prevented in advance.

On the other hand, the optical connector module 10 according to the present invention is at least one holder to be inserted into the main body 30, preferably, the second holder 40 to guide the optical element 21 and the optical fiber 41 correctly It is preferred to further comprise a guide means 60 to be aligned. To this end, the guide means 60, for example, from the one side of the main body 30, the guide groove 61 formed in the insertion direction of the second holder 40 and the guide groove 61 can be slidable. It may include a guide protrusion (65) formed on the upper surface of the body 40b of the second holder 40 to be fitted. Here, the guide means 60 may be provided in the main body 30 and the first holder or both the main body 30 and the first and second holders 20 and 40.

The guide means 60 as described above guides the second holder 40 slidingly inserted into the main body 30. At this time, the depth of the guide groove 61 and the position of the guide protrusion 65 is the optical element 21 and the optical fiber 41 when the installation of the first and second holder 20, 40 in the installation groove 31 is completed. ) Is determined in consideration of the required separation distance of the end 41a.

Meanwhile, when the insertion of the second holder 40 is completed, that is, the main holder 30 is detachably attached to the second holder 40 at a position where the guide protrusion 65 is caught by the end 61a of the guide groove 61. Both sides of the second holder 40 is provided with an elastically deformable locking hook 71 so as to be coupled to, and the main body 30 has a coupling hole in which the locking hook 71 is elastically engaged in the position ( It is preferred to have 75). Here, the first holder 40 may be provided to be detachably installed in the main body 30.

The optical connector module 10 as described above may be employed for signal transmission between a plurality of devices. In this case, the arrangement of the optical connector module 10 and the plurality of leads 23 and / or 105 and 106 provided therein for input and output of an electrical signal is compatible with a connecting structure for transmitting an electrical signal between conventional devices. It is preferable to provide.

In this case, the adapter 80 including the optical element 21, the first holder 20, and the main body 30, which is suitably provided for the number of pins of the input / output port of a predetermined device, may be used to input and output devices. And / or a pair of the second holders 40, i.e., optical connectors 40, respectively fitted to the output ports and coupled to both ends of the optical fiber 41, the electric wire 42, the optical fiber 41 and the electric wire 42. An optical connector cable (not shown) may be coupled to the adapter 80 to replace an electrical connector cable.

In this case, the adapter 80 and the optical connector cable may be variously modified to enable one-way communication or two-way communication, and may be variously modified to correspond to the number of channels of a signal to be transmitted.

On the other hand, the second holder 40 is detachable to the main body 30, the installation of the first and second holder 20, 40 in the main body 30, that is, the adapter 80 and the optical connector 40 ) Is provided so that the grounding electrode members 101 and 111 are connected first, when the adapter 80 and the optical connector cable are installed in a predetermined device, the adapter is connected to the input and / or output ports of the plurality of devices. It is preferable to slide the optical connector 40 into the adapter 80 after inserting each of the (80). In this case, the grounding electrode members 101 and 111 are connected first, and the power electrode members 102 and 112 are connected later, thereby minimizing the breakdown of the optical device due to electric surge and electric shock. Can be. Here, the one adapter 80 is inserted into one device while the optical connector 40 positioned at one end of the optical connector cable is coupled, and the other adapter 80 is inserted into the other device, and then the optical fiber is inserted into the adapter 80. It is also possible to insert the optical connector 40 located at the other end of the connector cable.

As described above, when the optical connector module 10 according to the present invention is adopted for signal transmission between devices, an electrical signal output from one device is converted into an optical signal and transmitted, and the transmitted optical signal is converted into an electrical signal and the other device It is input to the, it is possible to high-speed transmission of the information signal. In addition, as described above, a power for driving the optical device 21 may be supplied together.

Here, although the optical connector module 10 according to the present invention has been described and illustrated as having a power supply means for driving the optical element 21, the fixed electrode members 101, 102 and contact electrode members The 111 and 112 may be provided to supply an electrical signal of at least one channel, or may be provided to supply a plurality of power sources.

The optical connector module according to the present invention as described above can supply power for driving an electrical signal and / or an optical element together with the optical signal transmission, and in particular, since the grounding electrode members are first connected to each other, Power can be supplied safely.

Claims (3)

An optical connector module for coupling at least one optical element for emitting and / or receiving an optical signal and at least one optical fiber for transmitting incident light, the optical connector module comprising: A first holder in which the optical element is installed; A second holder supporting one end of the optical fiber and the wire; A main body having an installation groove in which the first and second holders are installed so that the ends of the optical element and the optical fiber face each other; A fixed electrode member for grounding and at least one power source provided in one holder of the first and second holders to be spaced apart from each other; At least one power contact electrode member installed in another holder to elastically protrude by a predetermined length and contacting the fixed electrode member for power when the first and second holders are installed in the main body; The other holder is installed to be spaced apart from the power contact electrode member for a predetermined interval so as to elastically protrude relatively longer than the contact electrode member for power supply, the ground for fixing when the first and second holder is installed in the main body And a grounding contact electrode member connected to an electrode member, wherein the grounding electrode members are electrically connected to each other. The guide groove of claim 1, further comprising: a guide groove provided at one side of the at least one holder and the main body in a direction in which the holder is inserted; It is further provided with a guide protrusion provided on the other side to be slidably fitted in the guide groove, The optical connector module to guide the holder so that the optical element and the optical fiber are correctly aligned. According to claim 1 or 2, Hanging hooks and elastically deformable to the at least one holder and; And a coupling hole formed in the main body and the engaging hook elastically slidingly coupled to the installation groove when the holder is installed, wherein the holder is detachably installed to the main body. Connector module.