CN107111070A - Optical conenctor - Google Patents
Optical conenctor Download PDFInfo
- Publication number
- CN107111070A CN107111070A CN201580071900.8A CN201580071900A CN107111070A CN 107111070 A CN107111070 A CN 107111070A CN 201580071900 A CN201580071900 A CN 201580071900A CN 107111070 A CN107111070 A CN 107111070A
- Authority
- CN
- China
- Prior art keywords
- housing body
- plug
- groove
- component
- optical conenctor
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Classifications
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/24—Coupling light guides
- G02B6/36—Mechanical coupling means
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/24—Coupling light guides
- G02B6/36—Mechanical coupling means
- G02B6/3604—Rotary joints allowing relative rotational movement between opposing fibre or fibre bundle ends
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/24—Coupling light guides
- G02B6/36—Mechanical coupling means
- G02B6/3608—Fibre wiring boards, i.e. where fibres are embedded or attached in a pattern on or to a substrate, e.g. flexible sheets
Abstract
The present invention relates to a kind of optical conenctor, it includes:Jack assemblies, it is used to be combined with substrate;Sheath portion, it is combined with the jack assemblies;Photodevice matrix, it is combined with the jack assemblies;And plug-assembly, it is inserted in the holding tank in jack assemblies formation, and is movably combined with the jack assemblies, and the sheath portion includes supporting member, the supporting member presses to the plug-assembly, so as to support the plug-assembly being connected with the photodevice matrix.
Description
Technical field
Optical conenctor (the OPTICAL of optical signal is transmitted the present invention relates to a kind of optical transmission cable using optical fiber etc.
CONNECTOR)。
Background technology
In recent years, with the development of IT technologies, electronic equipment just carrying out high performance, high speed, it is integrated, miniaturization and
Slimming.The species of electronic equipment for example has smart mobile phone, intelligent television phone, computer, tablet personal computer, display, number
Camera, video camera, MP3, game machine, navigation equipment etc..
For nearest electronic equipment, the great Rong to requiring high image quality, 3D presentation contents etc. between the terminal plate in equipment
Measure high speed data transfer technology, thus, signal attenuation, noise, EMI/EMC (electromagnetic compatibility/electromagnetic interference), Impedance
Matching (impedance matching), Cross Talk (crosstalk), Skew (skew), miniaturization of connection wiring etc., which become, asks greatly
Topic.
Generally, in the data transfer in equipment, distribution, the i.e. electric connector of copper base is used.But, copper wiring not only without
Method meets the demand of Large Volume Data high-speed transfer, but also no solution meets each of the trend of above-mentioned nearest electronic equipment
Plant technical problem.
In order to solve the above problems, light layout techniques are researched and developed recently.That is, for light distribution, believed with series connection light
Number line replaces the electrical signal line in parallel of tens channels, the high-speed transfer thus, it is possible to realize Large Volume Data, and can solve
Certainly noise, EMI/EMC, Impedance Matching, Cross Talk, Skew, connection wiring miniaturization etc. technical problem.
Generally, in order that optical signal line is connected with the terminal plate in equipment, the optics for possessing photoelectric converting function is used to connect
Connect device.Optical conenctor of the prior art, including be installed on equipment internal wiring plate jack assemblies and with socket link insert
Head assembly.In the optical conenctor of this prior art, due to be fixed on jack assemblies plug-assembly it is complicated, because
This has the problem of being difficult to miniaturization and low section (low profile).
The content of the invention
Invent problem to be solved
The present invention is proposed in view of the above problems, small-sized its object is to be realized by improved structure there is provided one kind
Change, the optical conenctor of low section.
The technical scheme solved the problems, such as
To solve the above problems, the present invention includes following feature.
The optical conenctor of the present invention may include:Jack assemblies, it is used to be combined with substrate;Sheath portion, itself and the socket group
Part is combined;Photodevice matrix, it is combined with the jack assemblies;Plug-assembly, it is inserted in forms in the jack assemblies
Holding tank, and be movably coupled to the jack assemblies.
In the optical conenctor of the present invention, the plug-assembly may include:Plug body, it is with can be from the phototube
The mode moved between the first position of part array separation and the second place being connected with the photodevice matrix is inserted in institute
State holding tank;And only component is hung, it protrudes to be formed from the plug body.
In the optical conenctor of the present invention, the sheath portion may include supporting member, and the supporting member is in a first direction
The plug-assembly is pressed, the plug-assembly that is connected with the photodevice matrix is thus supported, the first direction be from
Direction of the first position towards the second place.
In the optical conenctor of the present invention, the jack assemblies may include:Socket main body, it is formed with the holding tank;It is convex
Go out component, it is formed at the socket main body in the way of being protruded to the holding tank side;And only groove is hung, it is formed described
Protrude component.
In the optical conenctor of the present invention, described hang stops component as the plug-assembly is inserted in second place movement
Described hang stops groove, and the protrusion component, which can support to be inserted in, hangs the extension for stopping groove only component.
Invention effect
In accordance with the invention it is possible to realize following effect.
According to the present invention, optical signal can be transmitted in the state of plug-assembly is contained in jack assemblies inside, thus, it is possible to reality
Now miniaturization and low section, therefore, it is possible to improve the versatility in the electronic equipment for being applicable to minimize.
According to the present invention, plug-assembly by slide can be connected to photodevice matrix, so as to improve plug-assembly and
The easiness of connection operation between photodevice matrix.
According to the present invention, supporting member presses and is supported to the plug-assembly for being connected to photodevice matrix, thus prevents
Because of external force for vibrating, rock etc. etc. deviation occurs for optical alignment between plug-assembly and photodevice matrix, so as to
Enough improve the stability of the transmission performance of optical signal.
Brief description of the drawings
Fig. 1 is the combination stereogram of the optical conenctor of the present invention.
Fig. 2 is the three-dimensional exploded view of the optical conenctor of the present invention.
Fig. 3 is the top view of the optical conenctor of the present invention.
Fig. 4 and Fig. 5 are the side schematic sectional views that the optical conenctor of the present invention is represented on the basis of Fig. 3 I-I lines.
Fig. 6 is the jack assemblies and the three-dimensional exploded view of plug-assembly of the optical conenctor of the present invention.
Fig. 7 is the state that is separated from jack assemblies of plug-assembly in the optical conenctor of the present invention on the basis of Fig. 3 I-I lines
The side schematic sectional view of expression.
Fig. 8 is the three-dimensional exploded view of the plug-assembly of the optical conenctor of the present invention.
Fig. 9 is the stereogram of the sheath portion of the optical conenctor of the present invention.
Figure 10 is the enlarged drawing of Fig. 9 of the optical conenctor of the present invention II part.
Figure 11 be supporting member in the optical conenctor of the present invention to the state that is pressed of support plug-assembly with Fig. 3 I-
The side schematic sectional view represented on the basis of I lines.
Figure 12 is the top view of state that the open and close member in the optical conenctor for represent the present invention is closed to insertion groove.
Figure 13-Figure 15 is the side for illustrating the action relationships of the fixing component in the optical conenctor of first embodiment of the invention
View.
Figure 16 be amplify first embodiment of the invention optical conenctor in fixing component side view.
Figure 17 is the combination stereogram of the optical conenctor of second embodiment of the invention.
Figure 18 is the three-dimensional exploded view of the optical conenctor of second embodiment of the invention.
Figure 19 is the top view of the optical conenctor of second embodiment of the invention.
Figure 20 and Figure 21 are action relationships, the amplification of the fixing component in the optical conenctor for second embodiment of the invention
The top view of Figure 19 III part.
Figure 22 be amplify second embodiment of the invention optical conenctor in fixing component side view.
Embodiment
Hereinafter, the embodiment for the optical conenctor that present invention will be described in detail with reference to the accompanying.
Reference picture 1- Fig. 5, optical conenctor 1 of the invention is used in electronic equipment or transmitted between electronic equipment optical signal
Situation.For example, the optical conenctor 1 of the present invention can be applied to TV etc. display equipment, USB line, HDMI (fine definition
Multimedia interface, High Definition Multimedia Interface) etc..
The optical conenctor 1 of the present invention, including:Jack assemblies 2, it is used to be combined with substrate (not shown);Photoelectric device battle array
Row 3, it is combined with the jack assemblies 2;Plug-assembly 4, it is movably coupled to the jack assemblies 2;And outer cover
Portion 5, it is combined with the jack assemblies 2.
The jack assemblies 2 include the holding tank 21 for being used to accommodate the plug-assembly 4.The plug-assembly 4 can be with
The mode that can be moved between one position P1 (being shown in Fig. 4) and second place P2 (being shown in Fig. 5) is inserted in the receiving
Groove 21.If the plug-assembly 4 is located at the first position P1, separated from the photodevice matrix 3.If the plug group
Part 4 is located at second place P2, then is connected with the photodevice matrix 3.
The sheath portion 5 includes the supporting member 51 for being used to support the plug-assembly 4.The supporting member 51 is towards first party
The plug-assembly 4 is pressed to (the FD direction of arrow).The first direction (the FD direction of arrow) is, from described
One position P1 is towards the direction of the second place P2.Thus, the supporting member 51 is used to support and the phase of photodevice matrix 3
The plug-assembly 4 of connection.
Therefore, optical conenctor 1 of the invention results in following action effect.
First, according to the optical conenctor 1 of the present invention, jack assemblies 2 are contained in via the holding tank 21 in plug-assembly 4
Optical signal is transmitted in the state of inside.Therefore, optical conenctor 1 of the invention can realize miniaturization and low section, so that
The versatility in the electronic equipment for being equally applicable to minimize can be improved.
Second, according to the optical conenctor 1 of the present invention, the plug-assembly 4 is in the state of holding tank 21 is inserted in by cunning
Kinetic energy is enough to be connected with photodevice matrix 3.Therefore, optical conenctor 1 of the invention can improve the easiness of connection operation.
3rd, according to the optical conenctor 1 of the present invention, 51 pairs of the supporting member is connected to inserting for the photodevice matrix 3
Head assembly 4 presses and is supported.Thus, optical conenctor 1 of the invention can prevent from being connected to the photodevice matrix 3
The phenomenon that is moved because of external force for vibrating, rock etc. etc. of plug-assembly 4.Therefore, optical conenctor 1 of the invention can
Prevent optical alignment between plug-assembly 4 and photodevice matrix 3 from occurring showing for deviation because of external force for vibrating, rock etc. etc.
As so as to improve the stability of optical signal transmission performance.
Hereinafter, the jack assemblies 2, the photodevice matrix 3, the jack assemblies 4 and sheath portion 5 are entered referring to the drawings
Row is described in detail.
Reference picture 1- Fig. 3, the jack assemblies 2 support the photodevice matrix 3, the jack assemblies 4 and sheath portion 5.
The jack assemblies 2 are combined with the substrate.
The jack assemblies 2 include the holding tank 21.The holding tank 21 can accommodate the photodevice matrix 3 and plug
Component 4.The plug-assembly 4 can be to first direction (the FD arrow side in the state of the holding tank 21 is inserted in
To being shown in Fig. 3) and second direction (being shown in the SD direction of arrow, Fig. 3) it is mobile.The plug-assembly 4 is to the first party
Move and can be connected with the photodevice matrix 3 to (the FD direction of arrow).The plug-assembly 4 is to the second direction
(the SD direction of arrow) is mobile and is separated from photodevice matrix 3.
The jack assemblies 2 include the socket main body 20 for being formed with the holding tank 21.
The socket main body 20 is used to support the photodevice matrix 3 and the plug-assembly 4.The holding tank 21 can be from
The socket main body 20 upper surface 201 (being shown in Fig. 2) depression constant depth and formed.The socket main body 20 can pass through institute
State holding tank 21 to be formed as the rectangular shape of the opening of upper surface 201, but be not limited to this, as long as the light can be accommodated
The shape of electrical part array 3 and the plug-assembly 4, so that it may be formed as other shapes.
The socket main body 20 may include the madial wall 202 (being shown in Fig. 2) configured towards the holding tank 21 and towards outside
The lateral wall 203 (being shown in Fig. 2) of configuration.The plug-assembly 4 is inserted in the madial wall 202 via the holding tank 21
It is internal.The socket main body 20 may include bottom surface 204 (being shown in Fig. 2).The plug-assembly 4 for being inserted in the holding tank 21 can be with
Supported by the bottom surface 204 of the socket main body 20.
Multiple lead frames (lead frame) 20a for being installed on the substrate is may incorporate in the socket main body 20.
The multiple lead frame 20a is located at the inside of the socket main body 20 respectively with its side and its opposite side is located at the socket
The mode in the outside of main body 2 is combined with the socket main body 20.The socket main body 20 and the multiple lead frame 20a can
Formed as one by insert molding (Insert moulding).
Control element 20b (being shown in Fig. 2) is may incorporate in the socket main body 20.The control element 20b is with positioned at described
The mode of holding tank 21 is combined with the combination hub main body 20.The control element 20b is base with the photodevice matrix 3
The opposite side of the plug-assembly 4 will definitely be located at.That is, described photodevice matrix 3 is located at the control element 20b and described slotting
Between head assembly 4.The control element 20b be driving IC (Driver-IC), and play driving photodevice matrix 3 had
The function of standby photoelectric device (not shown).
Reference picture 1-3, the photodevice matrix 3 is used to transmit optical signal.The photodevice matrix 3 is located at the control member
Between part 20b and the plug-assembly 4.The photodevice matrix 3 be inserted into the holding tank 21 and with the socket group
Part 2 is combined.The photodevice matrix 3 may include the photoelectric device.When the optical conenctor 1 of the present invention is used as sending part
When, the photoelectric device may include laser diode (Laser Diode), vertical cavity surface emitting laser (VCSEL,
Vartical-Cavity Surface-Emitting Laser) etc. light-emitting component.When the optical conenctor 1 of the present invention is used as connecing
During receipts portion, the photoelectric device may include the photo detectors such as photodiode (PD, Photo Diode).
The photodevice matrix 3 may include the photoelectric device main body 30 for being combined with the photoelectric device.The phototube
Part main body 30 is formed as rectangular shape on the whole, but is not limited to this, as long as can mutually it be tied with the photoelectric device
The shape of the holding tank 21 can also be inserted in while conjunction, so that it may be formed as other shapes.The energy of photoelectric device main body 30
It is enough to be inserted in the holding tank 21 in the way of being interference fitted (Interference Fit), so as to can be combined in the socket master
Body 20.
The photodevice matrix 3 may include connecting elements 31.The connecting elements 31 protrudes from the photoelectric device main body 30
Formed.When the plug-assembly 4 is mobile to the first direction (the FD direction of arrow), the connecting elements 31 inserts described
The binding site of the plug-assembly 4 is guided while plug-assembly 4.That is, described connecting elements 31 has in the plug group
The guiding function of optical alignment is formed between part 4 and the photodevice matrix 3.The photodevice matrix 3 may include multiple
The connecting elements 31.The multiple connecting elements 31 can be formed at spaced at intervals on the first direction of principal axis (X-direction)
Position.First direction of principal axis (X-direction) is to be inserted in the plug-assembly 4 in the state of the holding tank 21
The vertical direction in the direction that moves.The plug-assembly 4 can be along the second direction of principal axis (Y direction) towards the first party
Moved to (the FD directions of arrow) and the second direction (the SD directions of arrow).Second direction of principal axis (Y direction) and institute
It is mutually orthogonal direction to state the first direction of principal axis (X-direction).
Reference picture 1- Fig. 5, the plug-assembly 4 is inserted in the holding tank 21 and movably mutually tied with the jack assemblies 2
Close.The plug-assembly 4 can be located at the inner side of the jack assemblies 2 with the holding tank 21 is inserted in.
The plug-assembly 4 may include plug body 40.
The plug body 40 can be (to show in the first position P1 (being shown in Fig. 4) and the second place P2 in Fig. 5
Go out) between the mode that can move be inserted in the holding tank 21.If the plug body 40 is located at the first position P1,
Then it is located at the position separated from the photodevice matrix 3.If the plug body 40 is located at the second place P2, it is located at
The position being connected with the photodevice matrix 3.The plug body 40 passes through from the first position P1 towards described first
Direction (the FD direction of arrow) is mobile can be located at the second place P2.The plug body 40 is by from the second
The first position P1 can be located at towards the second direction (the SD direction of arrow) is mobile by putting P2.The holding tank 21 with
There can be the length more than the photodevice matrix 3 and the plug body 40 on the basis of second direction of principal axis (Y direction)
Spend the length of sum.
Multiple optical transmission cables (cable) 10 are inserted into the plug body 40.The optical transmission cable 10 is with described
The mode configured on one direction of principal axis (X-direction) is inserted in the plug body 40.The plug body 40 on the whole can shape
As rectangular shape, but this is not limited to, as long as can also be movably while multiple optical transmission cable 10 can be accommodated
It is incorporated into the shape of the socket main body 20, it is possible to be formed as other shapes.
Reference picture 4- Fig. 6, the plug-assembly 4, which may include to hang, stops component 41.
Described hang stops component 41 from the plug body 40 protrusion formation.Described hang stops component 41 with the first direction of principal axis (X-axis
Direction) on the basis of can from the plug body 40 protrude formed.The extension stops component 41 can be from the plug body 40
Side wall 401 (being shown in Fig. 6) protrudes formation laterally.The only component 41 of hanging is formed as rectangular shape on the whole, but
This is not limited to, other shapes can also be formed as.
When the plug-assembly 4, which includes the extension, stops component 41, the jack assemblies 2 may include:Component 22 is protruded, it is from institute
State the protrusion formation of socket main body 20;And only groove 23 (being shown in Fig. 4) is hung, it is formed at the protrusion component 22.
The protrusion component 22 can protrude and be formed from the socket main body 20 towards the holding tank 21.The protrusion component
22 can form from the madial wall 202 (being shown in Fig. 6) of the socket main body 20 towards the holding tank 21 protrusion.The protrusion
Component 22 is formed as rectangular shape on the whole, but is not limited to this, can also be formed as other shapes.
The only groove 23 of hanging can be formed from the face depression constant depth of the protrusion component 22.The protrusion component 22
A face, be directed towards the second direction (the SD direction of arrow) configuration face.It is described hang stop groove 23 be formed as with it is described
Hang and stop the corresponding shape of component 41.It is described hang stop component 41 be inserted according to the position of the plug body 40 it is described extension stop
Groove 23 is separated from the only groove 23 of hanging.
As shown in figure 4, when the plug body 40 is located at the first position P1, the extension stops component 41 and is located at from the extension
The position that only groove 23 is separated to the second direction (the SD direction of arrow).Thus, the plug body 40 can not be by described convex
Go out the interference of component 22 and be inserted in the holding tank 21.The plug body 40 can not also be by the dry of the protrusion component 22
Disturb and separated from the holding tank 21.
As shown in figure 5, when the plug body 40 is located at the second place P2, the extension stops component 41 and is inserted in the extension
Only groove 23.In this case, it is described hang stop component 41 can be with positioned at the protrusion component 22 and the socket main body 20
Mode between bottom surface 204 is inserted in described hang and stops groove 23.Thus, the protrusion component 22 can stop groove to being inserted in described hang
23 extension stops component 41 and is supported.
Therefore, according to the optical conenctor 1 of the present invention, component 41 and the protrusion component 22 are stopped come can be by institute using described hang
State plug-assembly 4 and be more solidly fixed to the second place P2, thus, it is possible to further improve the steady of optical signal transmission performance
It is qualitative.In addition, according to the optical conenctor 1 of the present invention, the plug-assembly 4 is in the first position P1 and the second place
During being moved between P2, the only component 41 of hanging can be moved along the protrusion component 22.Therefore, according to
The optical conenctor 1 of the present invention, can further improve the plug-assembly 4 and the photodevice matrix 3 (being shown in Fig. 2)
Between optical alignment accuracy and easiness.
The plug-assembly 4 can also include multiple described hang and stop component 41.The multiple hang stops component 41 with the first axle
It can protrude to be formed to the both sides of the plug body 40 on the basis of direction (X-direction).The multiple only component 41 of hanging may be used also
Be formed as the position at the separated from each other interval on the basis of second direction of principal axis (Y direction).For example, as shown in fig. 6, two extensions
Only component 41 can be located at the position at the separated from each other interval on the basis of second direction of principal axis (Y direction).When the plug group
In the case that part 4 stops component 41 including multiple extensions, the jack assemblies 2 may include that only component 41 is relative with the multiple extension
The protrusion component 22 and extension for the quantity answered stop groove 23.
Reference picture 4- Fig. 7, the plug-assembly 4 may include to insert component 42.
The insertion component 42 protrudes from the plug body 40 to be formed.The insertion component 42 is with the first direction of principal axis (X-axis
Direction) on the basis of can from the plug body 40 protrude formed.The insertion component 42 can be from the plug body 40
Side wall 401 (shown in Fig. 6) protrudes formation laterally.The insertion component 42 is formed as rectangular shape on the whole, but simultaneously
Not limited to this, can also be formed as other shapes.
In the case where the plug-assembly 4 includes the insertion component 42, the jack assemblies 2 may include to be formed at described insert
The insertion groove 24 of seat main body 20.
The insertion groove 24 is formed in the way of being connected with the holding tank 21 on the socket main body 20.The insertion groove
24 are formed at the socket in the way of being located at the second direction (the SD direction of arrow) side relative to the protrusion component 22
Main body 20.The insertion component 42 and extension stop component 41 and are inserted into the insertion groove 24.The plug body 40 is inserted with described
Enter component 42 and it is described hang to stop component 41 and be inserted in the mode of the insertion groove 24 be inserted in holding tank 21, the thus plug master
Body can be located at the inner side of the socket main body 20.As shown in fig. 7, the plug-assembly 4 is in the upside positioned at the jack assemblies 2
In the state of it is mobile to lower side to (the DD direction of arrow), thus, it is possible to be inserted in the holding tank 21.As shown in figure 4,
During being somebody's turn to do, the insertion component 42 and the only component 41 of hanging are inserted into the insertion groove 24.
The insertion groove 24 can have on the basis of the first direction is more than the insertion component 42 and the extension only component 41
Length sum length L1 (being shown in Fig. 7) length L2 (being shown in Fig. 7).Therefore, the plug body 40 is inserted described
Enter component 42 and described hang is stopped component 41 and be inserted in the state of the insertion groove 24 to first direction (the FD arrow side
To) mobile, so that positioned at the second place P2 (being shown in Fig. 5).The insertion groove 24 is formed as cuboid on the whole
Shape, but this is not limited to, as long as it is inserted into the insertion component 42 and the shape for hanging only component 41, it is possible to shape
As other shapes.
Due to the length L2 of the insertion groove 24 be formed larger than it is described insertion component 42 and it is described hang stop component 41 length it
The length L1 of sum, optical conenctor 1 of the invention can realize following effect.
First, according to the optical conenctor 1 of the present invention, using the teaching of the invention it is possible to provide inserted in the plug body 40 via the insertion groove 24
After entering the holding tank 21, the mobile route moved to the first direction (the FD direction of arrow).Therefore, according to
The optical conenctor 1 of the present invention, it is possible to increase the plug body 40 is inserted in the operation of the holding tank 21 and by institute
State the easiness that plug body 40 is connected to the operation of the photodevice matrix 3.
Second, according to the optical conenctor 1 of the present invention, described insert is inserted in the insertion component 42 and the only component 41 of hanging
Enter after groove 24, moved to the first direction (the FD direction of arrow), thus it is described hang stop component 41 be inserted into
Described hang stops groove 23.Accordingly, the plug body 40 is with reference in the socket main body 20.Therefore, connected according to the optics of the present invention
Device 1 is connect, can be realized by the insertion groove 24 and provide combination between the plug body 40 and the socket main body 20
The function of power.By the above, according to the optical conenctor 1 of the present invention, it is possible to increase the plug body 40 be connected to it is described
The easiness for the operation being combined in the state of photodevice matrix 3 with the socket main body 20.
The insertion groove 24 can be connected and be formed with the only groove 23 of hanging.The extension stops groove 23 can position relative to the insertion groove 24
In the first direction (the FD direction of arrow) side.In this case, only component 41 can be from the insertion component for the extension
42 protrude and are formed towards the first direction (the FD direction of arrow).Thus, as the plug master positioned at the first position P1
When body 40 moves towards the first direction (the FD direction of arrow) and is located at the second place P2, the extension stops component 41 and existed
It is inserted in the state of the insertion groove 24 to the first direction (the FD direction of arrow) movement, stops so as to be inserted in the extension
Groove 23.
Herein, the insertion component 42 for the plug body 40 that the protrusion component 22 can be pointed to the second place P2 is propped up
Support.Thus, the protrusion component 22 can limit the plug body 40 to the first direction (the FD direction of arrow) movement
Distance.Therefore, operator makes the plug body 40 positioned at the first position P1 be moved to first direction (the FD direction of arrow)
Move untill insertion component 42 is raised the support of component 22, thus enable that the plug body 40 is located at the second place
P2.Accordingly, optical conenctor 1 of the invention can accurately and easily make the plug body 40 be located at the second place
P2, so as to further improve the optical alignment between the plug-assembly 4 and the photodevice matrix 3 accuracy and
Easiness.
The plug-assembly 4 may also include multiple insertion components 42.The multiple insertion component 42 is with the first axle side
Protrude and formed to the both sides of the plug body 40 on the basis of to (X-direction).The multiple insertion component 42 is with described the
The position at separated from each other interval can be located on the basis of two direction of principal axis (Y direction).For example, as shown in fig. 6, two insertion components 42
It is located at the position at separated from each other interval on the basis of second direction of principal axis (Y direction).
Reference picture 1- Fig. 8, the plug-assembly 4 may include link slot 43 (being shown in Fig. 8).
The link slot 43 is formed at the side of the direction photodevice matrix 3 of the plug body 40.Inserted with described
Head main body 40 is moved in the state of the first position P1 to the first direction (the FD direction of arrow), the photoelectricity
The connecting elements 31 of device array 3 is inserted in the link slot 43.In this case, the connecting elements 31 is inserted in the company
The movement of the plug body 40 can be guided while access slot 43.In addition, the connecting elements 31 is inserted in the link slot
43 and support the plug body 40.Therefore, it can strengthen resistance to what is vibrated, rock etc. according to the optical conenctor 1 of the present invention
Power.With the plug body 40 in the state of the second place P2 to the second direction (the SD direction of arrow)
Mobile, the connecting elements 31 can be separated from the link slot 43.The plug-assembly 4 may include multiple link slots
43.The link slot 43 can be formed at the position at the separated from each other interval on first direction of principal axis (X-direction).
The plug-assembly 4 may include lens 44 (being shown in Fig. 8), opening groove 45 (being shown in Fig. 8) and (Fig. 8 of fixture 46
In show).
The lens 44 are combined with the plug body 40.The lens 44 are with positioned at described in the direction of the plug body 40
The mode of the side of photodevice matrix 3 is combined with the plug body 40.Therefore, when the plug-assembly 4 is connected to institute
When stating photodevice matrix 3, the lens 44 are located at the optical transmission cable 10 (being shown in Fig. 1) and the photodevice matrix
Between 3, so as to carry out optical alignment to the optical transmission cable 10 and the photodevice matrix 3.The plug-assembly 4
It may include multiple lens 44.The plug-assembly 4 may include the lens 44 with the identical quantity of the optical transmission cable 10.
The opening groove 45 can be formed from the depression constant depth of upper surface 402 of the plug body 40.Therefore, it is described to insert
Head main body 40 is formed as the open shape in upside.There is the part of the opening groove 45 in the formation of the plug body 40, can
The lower support groove 46a (being shown in Fig. 8) of the bottom of optical transmission cable 10 can be surrounded by being formed with.
The fixture 46 is inserted in the opening groove 45 and is combined with the plug body 40.The fixture 46 can be formed
There is the upper support groove 47a (being shown in Fig. 8) that can surround the top of optical transmission cable 10.Under the optical transmission cable 10
Portion and top can be inserted in the lower support groove 46a and the upper support groove 47a respectively.Thus, 46 pairs of the fixture
The optical transmission cable 10 is pressed, thus, it is possible to prevent rocking for the optical transmission cable 10.To the fixture 46
Material is not particularly limited.For example, the fixture 46 can be by with the refractive index and tool similar to the optical transmission cable 10
The epoxy resin for having the excellent series of polymers of translucency is formed.The fixture 46 can be by with more than 1.2 and less than 1.8
Refractive index and in the wave band of the optical transmission cable 10 have more than 80% and less than 95% light transmittance translucency
Epoxy resin is formed.
Reference picture 1- Figure 10, the sheath portion 5 is combined with the jack assemblies 2.Pass through the sheath portion 5 and the socket master
Body 20 is combined, and coming can be from control element 20b etc. described in outer protection.
The sheath portion 5 may include the housing body 50 being combined with the socket main body 20.The housing body 50 is with it
The mode of socket main body 20 described in inner containment is combined with the socket main body 20.It can be formed with the housing body 50 logical
Hole 5a (is shown) in Fig. 9.Housing body 50 described in the through hole 5a insertions and formed.The housing body 50 is with the through hole 5a
The mode connected with the holding tank 21 is incorporated into the socket main body 20.Therefore, the plug-assembly 4 is in the housing body
50 in the state of the socket main body 20 is combined, via the through hole 5a through the housing body 50 and be inserted into
The holding tank 21.When on the basis of Fig. 2, the through hole 5a can housing body 50 described in insertion upper surface 501 (in Fig. 9
Show) and formed.
The sheath portion 5 may include the supporting member 51 (being shown in Figure 10).
The supporting member 51 is towards the first direction (the FD direction of arrow) to being inserted in the plug group of the holding tank 21
Part 4 is pressed.Thus, the supporting member 51 is pointed to the plug-assembly 4 of the second place P2 and is pressed and supported,
So as to prevent the optical alignment between the plug-assembly 4 and the photodevice matrix 3 from occurring because vibrating, rocking etc.
The phenomenon of deviation.In addition, the supporting member 51 is pointed to described first towards the first direction (the FD direction of arrow)
The plug-assembly 4 for putting P1 is pressed, thus, it is possible to improve the plug-assembly 4 from the first position P1 to described second
The easiness of the operation of position P2 movements.
The supporting member 51 is formed at the housing body 50.The supporting member 51 to the through hole 5a in Fig. 9 (to show
Go out) side protrusion mode be formed at the housing body 50.The supporting member 51 can be from the housing body 50 to described
First direction (the FD direction of arrow) protrudes and formed.When the plug-assembly 4 is inserted in the holding tank 21, the support
Component 51 can be located between the housing body 50 and the plug-assembly 4 on the basis of second direction of principal axis (Y direction).
The sheath portion 5 can also include multiple supporting members 51.The supporting member 51 can be in the first axle side
Separated from each other compartment of terrain configuration on to (X-direction).As Fig. 3 is shown, the optical transmission cable 10 for being inserted in the plug-assembly 4 can
It is configured between the supporting member 51.Figure 3 illustrates the situation that the sheath portion 5 includes two supporting members 51, but simultaneously
Not limited to this, the sheath portion 5 can also include the supporting member 51 of more than three.The supporting member 51 is formed as plate
Shape, to carry out resilient movement on the basis of can would be incorporated into the part of the housing body 50.
The sheath portion 5 may include pressure groove 52 (being shown in Figure 10).
The pressure groove 52 can be formed at the housing body 50.The supporting member 51 is by the pressure groove 52 come can be to
The first direction (the FD direction of arrow) and the second direction (the SD direction of arrow) resilient movement.As shown in figure 4, described
Supporting member 51 is pressed with the plug body 40 for being pointed to the first position P1, can be to via the pressure groove 52
The second direction (the SD direction of arrow) is mobile.Thus, the supporting member 51 can be towards the first direction (FD arrow
Head direction) plug body 50 that is pointed to the first position P1 pressed.Therefore, according to the optical conenctor 1 of the present invention,
It is mobile to the second direction (the SD direction of arrow) via the pressure groove 52 by the supporting member 51, it can increase
The restoring force acted on to the first direction (the FD direction of arrow).Therefore, according to the optical conenctor 1, Neng Goujin of the present invention
One step, which is improved, makes the plug body 40 from the first position P1 to the easiness of the second place P2 operations moved.
The pressure groove 52 can be to be located at the second direction (the FD direction of arrow) side relative to the supporting member 51
Mode is formed at the housing body 50.When the sheath portion 5 includes multiple supporting members 51, the sheath portion 5 can
Include the pressure groove 52 of the quantity corresponding with the supporting member 51.
Reference picture 1- Figure 11, the sheath portion 5 is with can be to the first direction (the FD direction of arrow) and the second direction
(the SD direction of arrow) mobile mode is incorporated into the jack assemblies 2.Now, the housing body 50 is with can be to described
One direction (the FD direction of arrow) and the mobile mode of the second direction (the SD direction of arrow) are incorporated into the socket main body
20。
As shown in figure 5, the housing body 50 is when the plug body 40 is located at the second place P2, can be to described the
One direction (the FD direction of arrow) is mobile.Thus, as shown in figure 11, the supporting member 51 is pointed to the second place P2's
Plug body 40 is pressed, and mobile to the second direction (the SD direction of arrow) via the pressure groove 52.Therefore, root
According to the optical conenctor 1 of the present invention, it is possible to increase the supporting member 51 is pointed to the plug body 40 of the second place P2
The pressure of application, therefore the plug-assembly 4 is firmly held its state for being connected to the photodevice matrix 3.
Reference picture 1- Figure 11, the sheath portion 5 may include guide groove 53 (being shown in Fig. 9).
The guide groove 53 can housing body 50 described in insertion and formed.The guide groove 53 can housing body 50 described in insertion
Side wall 502 (being shown in Fig. 9) and formed.The guide groove 53 may be formed to have along second direction of principal axis (Y direction)
The rectangular shape of the right angle quadrangle on long side, but this is not limited to, other shapes can also be formed as.The sheath portion 5
Multiple guide grooves 53 can be included.In this case, the guide groove 53 with first direction of principal axis (X-direction) be base
The both sides of the housing body 50 will definitely be located at.The guide groove 53 is respectively in the both sides of the housing body 50 with described second
Position spaced at intervals on the basis of direction of principal axis (Y direction).
In the case that the sheath portion 5 includes the guide groove 53, the jack assemblies 2 may include ways 25.It is described
Ways 25 protrudes from the socket main body 20 to be formed.The housing body 50 is inserted in described lead with the ways 25
It is combined to the mode of groove 53 with the socket main body 20.Thus, the housing body 50 is inserted into the guide groove 53
Ways 25 is guided, thus, it is possible to the first direction (the FD direction of arrow) and second direction (the SD arrow side
To) mobile.Therefore, according to the optical conenctor 1 of the present invention, it is possible to increase make the easy of the operation that the housing body 50 moves
Property and accuracy.
The ways 25 can protrude formation laterally from the lateral wall 203 of the socket main body 20.The ways
25 can protrude formation to first direction of principal axis (X-direction).The ways 25 is formed as and the guide groove 53
Corresponding shape.On the basis of second direction of principal axis (Y direction), the ways 25, which has, is less than the guide groove
53 length, can be moved being inserted in the state of the guide groove 53.
When the sheath portion 5 includes multiple guide grooves 53, the jack assemblies 2 may include multiple ways
25.The ways 25 can be formed at the both sides of the socket main body 20 on the basis of first direction of principal axis (X-direction).
The multiple ways 25 respectively in the both sides of the socket main body 20 on the basis of second direction of principal axis (Y direction) position
Position in separated from each other interval.
Reference picture 1- Figure 12, the sheath portion 5 may include open and close member 54 (being shown in Figure 12).
The open and close member 54 is formed at the housing body in the way of (showing) side protrusion in Fig. 9 towards the through hole 5a
50.The open and close member 54 can be formed at the housing body in the way of being protruded to first direction of principal axis (X-direction)
50.With the movement of the housing body 50, the open and close member 54 can be moved between closing position and release position
It is dynamic.
As shown in figure 3, when the open and close member 54 is located at the release position, the open and close member 54 can be from the insertion
The interval of groove 24.Thus, the insertion groove 24 is not covered by the open and close member 54 and is in open state.In the state
Under, it is inserted into while the plug-assembly 4 is not by the interference of the open and close member 54 in the holding tank 21.With institute
State housing body 50 mobile to the second direction (the SD direction of arrow), the open and close member 54 can be located at release position.
As shown in figure 12, when the open and close member 54 is located at the closing position, the open and close member 54 can cover described insert
Enter groove 24.The open and close member 54 can cover the insertion groove 24 by overlapping with the insertion groove 24.The opening and closing structure
Part 54 can cover part or all of the insertion groove 24.Thus, the insertion groove 24 by it is described conjunction component 54 cover and
In closure state.Therefore, according to the optical conenctor 1 of the present invention, by the position of the open and close member 54 come can be to making
User provides the positional information of the opening and closing main body 50, and can reduce the open area of the insertion groove 24, so as to
Improve the endurance for vibrating, rocking etc..As the housing body 50 is mobile to the first direction (the FD direction of arrow),
The open and close member 54 can be located at the closing position.Figure 12 shows that the open and close member 54 covers one of the insertion groove 24
Situation about dividing, but this is not limited to, the open and close member 54 can also cover the whole of the insertion groove 24.
The open and close member 54 is formed as rectangular plate-like on the whole, but is not limited to this, as long as can make the insertion groove
The state of 24 opening and closings, it is possible to be formed as other shapes.The open and close member 54 can on the first direction of principal axis (X-direction) with
The length protrusion of the holding tank 21 is not covered and is formed.The sheath portion 5 may include multiple open and close members 54.In the feelings
Under condition, the open and close member 54 can be located at the position at the separated from each other interval on first direction of principal axis (X-direction).
Reference picture 13, the opening/closing portion 5 may include to hold bar 55 (showing in Figure 13).
The holding bar 55 is used to make the housing body 50 to the first direction (the FD direction of arrow) and the second party
It is mobile to (the SD direction of arrow).The holding bar 55 can protrude from the housing body 50 to be formed.For example, the holding bar
55 can protrude and be formed from the upper surface 501 of the housing body 50.Operator described can hold bar 55 and make the outer cover
Main body 50 is moved.Therefore, according to the optical conenctor 1 of the present invention, it is possible to increase make the housing body 50 to described the
One direction (the FD direction of arrow) and the easiness of the mobile operation of the second direction (the SD direction of arrow).
The holding bar 55 is formed as rectangular plate-like on the whole, but is not limited to this, as long as what operator can hold
Shape, it is possible to be other shapes.The bar 55 that holds is by the way that a part for the upper surface 501 of the housing body 50 is cut
Afterwards, and to the part of incision (Bending) processing is bent to be formed.
Reference picture 11 and 13, the sheath portion 5 may include fixing component 57.
The fixing component 57 is used to fix the housing body 50.The fixing component 57 can be to the first direction (FD
The direction of arrow) mobile housing body 50 is fixed.Therefore, the fixing component 57 can keep the supporting member 51
The state that (being shown in Figure 11) is increased to the pressure that the plug-assembly 4 applies.It is described as follows.
First, when the plug body 40 is located at the second place P2, the housing body 50 is to the first direction (FD
The direction of arrow) it is mobile.Thus, as shown in figure 11, the supporting member 51 is with the plug for being pointed to the second place P2
Main body 40 is pressed, and is moved via the pressure groove 52 to the second direction (the SD direction of arrow).Accordingly, it is described
Supporting member 51 increases the plug-assembly 4 towards the pressure that the first direction (the FD direction of arrow) applies.
Secondly, when the housing body 50 is mobile to the first direction (the FD direction of arrow), the quilt of fixing component 57
The socket main body 20 is supported.Thus, the fixing component 57 can fix the housing body 50, to keep the support structure
The state that the pressure that 51 pairs of the part plug-assembly 4 applies is increased.
Therefore, according to the optical conenctor 1 of the present invention, the plug-assembly 4 can not only be firmly held and be connected to the light
The state of electrical part array 3, and can further strengthen the endurance for vibrating, rocking etc..
Herein, according to the fixing component 57, optical conenctor 1 of the invention substantially can be implemented comprising first embodiment and second
Example.Hereinafter, first embodiment and second embodiment are illustrated referring to the drawings.
Reference picture 13- Figure 16, in the optical conenctor 1 of first embodiment of the invention, the fixing component 57 may include insertion
Hole 571 and support protrusion 572.Hacures shown in Figure 13-Figure 16 not represent section, but for the space with groove, hole etc.
Distinguished and represented.
Housing body 50 described in the insertion of through hole 571 and formed.The through hole 571 can housing body 50 described in insertion
Side wall 502 (being shown in Fig. 9) and formed.The through hole 571 can be located at institute relative to the guide groove 53 (being shown in Figure 14)
State first direction (the FD direction of arrow) side.
The support protrusion 572 is formed at the housing body 50 in the way of being protruded to the through hole 571.The support is convex
Play 572 and be formed at the outer cover master in the way of being protruded in the through hole 571 towards upside direction (the UD direction of arrow)
Body 50.The upside direction (the UD direction of arrow) is the direction opposite with the downside direction (the DD direction of arrow).With
The support protrusion 572 is formed, the through hole 571 may include:First embedded groove 571a (being shown in Figure 14), it is relative to institute
Support protrusion 572 is stated positioned at the first direction (the FD direction of arrow) side;Second embedded groove 571b (being shown in Figure 14), its phase
It is located at the second direction (the SD direction of arrow) side for the support protrusion 572.That is, described support protrusion 572 is described
Protrude and formed between first embedded groove 571a and the second embedded groove 571b.The support protrusion 572 can be formed at described outer
The side wall 502 of cover main body 50.
Herein, the jack assemblies 2 may include the embedded projection 26 protruded from the socket main body 20.It is described embedded raised
26 are inserted into the through hole 571.The housing body 50 is inserted in the side of the through hole 571 with the embedded projection 26
Formula is combined with the socket main body 20.The embedded projection 26 can be from the lateral wall 203 of the socket main body 20 (in Fig. 2
Show) protrude and formed laterally.The embedded projection 26 is formed as rectangular shape on the whole, but is not limited to this,
As long as it is inserted into the through hole 571 and the shape that moves, it is possible to be formed as other shapes.
In the optical conenctor 1 of this first embodiment of the invention, the fixing component 57 fixes the housing body 50
Action relationships are described as follows.
First, as shown in figure 13, the embedded projection 26 is in the state for being inserted in the first embedded groove 571a.In the situation
Under, the housing body 50 is in the mobile state of the second direction (the SD direction of arrow).
Secondly, it is as shown in figure 14, described when the housing body 50 is moved to the first direction (the FD direction of arrow)
Support protrusion 572 while the insertion raised 26 to the embedded projection 26 by pressing.In this case, it is described outer
The formation of cover main body 50 has the part of the support protrusion 572, with by the embedded pressure of projection 26 to the lower side
It is mobile to (the DD direction of arrow).
Then, when the housing body 50 is further moved to the first direction (the FD direction of arrow), such as Figure 15 institutes
Show, the support protrusion 572 have passed through the embedded projection 26, thus release the plus-pressure produced by the embedded projection 26.
The embedded projection 26 is inserted in the second embedded groove 571b (being shown in Figure 14) after the support protrusion 572.At this
In the case of, the formation of the housing body 50 has the part of the support protrusion 572, with what is produced by the embedded projection 26
Pressure is released from and moved to the upside direction (the UD direction of arrow).
When the embedded projection 26 is inserted in the second embedded groove 571b, the support protrusion 572 is inserted into described embedding
The support protrusion 572 for entering projection 26 is supported, thus, it is possible to the fixed housing body 50.In this case, as shown in figure 11, institute
Supporting member 51 is stated as the plug body 40 for being pointed to the second place P2 is pressed, via the pressure groove 52 to institute
State second direction (the SD direction of arrow) mobile, thus, apply in the plug body 40 for being pointed to the second place P2
The state that pressure is increased.Therefore, the fixing component 57 is pointed to inserting for the second place P2 in the supporting member 51
In the state of the pressure that head main body 40 applies is increased, the housing body 50 is fixed, therefore, it is possible to firmly hold
The plug-assembly 4 is connected to the state of the photodevice matrix 3.
The support protrusion 572 may include the inclined plane 572a (Figure 16 configured towards the first direction (the FD direction of arrow)
In show).The inclined plane 572a with more towards the second direction (the SD direction of arrow) then the support protrusion 572 more to
The mode of the side of through hole 571 protrusion, which is tilted, to be formed.That is, described inclined plane 572a is more to second direction (the SD arrow side
To) then more towards the upside direction (the UD direction of arrow), being inclined upwardly forms.Accordingly, when by the housing body 50 to described
When first direction (the FD direction of arrow) is mobile, the embedded projection 26 for being inserted in the first embedded groove 571a is tilted via described
Face 572a sleekly passes through the support protrusion 572, and is inserted in the second embedded groove 571b.Therefore, according to the present invention the
The connector 1 of one embodiment, it is possible to increase the housing body 50 is mobile to the first direction (the FD direction of arrow)
The easiness of operation.
The support protrusion 572 may include the supporting surface 572b configured towards the second direction (the SD direction of arrow).It is described
Supporting surface 572b is formed as and the embedded raised 26 parallel planes.Thus, when the housing body 50 is to the first party
When terminating mobile to (the FD direction of arrow), the supporting surface 572b is supported by the embedded projection 26 securely, so that fixed
The housing body 50.Therefore, optical conenctor 1 according to a first embodiment of the present invention, can strengthen for vibrating, rocking
Endurance.
Herein, the housing body 50 may include the first housing body 50a (being shown in Figure 14) and the second housing body 50b (figures
Shown in 14).
The through hole 5a (being shown in Fig. 9) is formed in the first housing body 50a.The first housing body 50a can configure
It is connected into the through hole 5a with the holding tank 21 (being shown in Fig. 6).
The through hole 571 and the support protrusion 572 are formed with the second housing body 50b.The second outer cover master
Body 50b carries out elastic shifting to the first housing body 50a in the through hole 571 according to the position of the embedded projection 26
It is dynamic.For example, as 572 pairs of the support protrusion embedded projection 26 presses, the second housing body 50b relative to
The first housing body 50a can be mobile to the downside direction (the DD direction of arrow).As the embedded projection 26 is inserted
Enter second embedded grooves of the first embedded groove 571a or described 571b, the second housing body 50b is relative to described first
Housing body 50a can be mobile to the upside direction (the UD direction of arrow).Therefore, light according to a first embodiment of the present invention
Learn connector 1, it is possible to increase the appearance for the operation for moving the housing body 50 to the first direction (the FD direction of arrow)
Yi Xing.Moreover, optical conenctor 1 according to a first embodiment of the present invention, by increasing capacitance it is possible to increase the support protrusion 572 on described
The length that side is protruded to (the UD direction of arrow), is used to fix to first direction (the FD arrow side therefore, it is possible to increase
To) fixed force of mobile housing body 50.
In this case, the socket main body 20 can be formed with shifting chute 27 (being shown in Figure 14), and the shifting chute 27 is used
Resilient movement is carried out in making the second housing body 50b.The shifting chute 27 can be from the upper surface of the socket main body 20
201 depression constant depths and formed.Thus, optical conenctor 1 according to a first embodiment of the present invention, by increasing capacitance it is possible to increase described second
Housing body 50b's can carry out the distance of resilient movement relative to the first housing body 50a, therefore, it is possible to further increase
The length that the support protrusion 572 is protruded to the upside direction (the UD direction of arrow).Therefore, implemented according to the present invention first
The optical conenctor 1 of example, can not only further improve makes the housing body 50 to first direction (the FD arrow side
To) easiness of mobile operation, and can increase for fixed mobile to the first direction (FD obtains the direction of arrow)
The fixed force of housing body 50.
Reference picture 17- Figure 22, in the optical conenctor 1 of second embodiment of the invention, the fixing component 57 may include described
Through hole 571 and the support protrusion 572.Hacures shown in Figure 20-Figure 22 not represent section, but in order to groove, hole
Deng space distinguished and represented.On the other hand, as shown in Figure 17 and Figure 18, connect in the optics of second embodiment of the invention
Connect in device 1, the jack assemblies 2, the photodevice matrix 3, the plug-assembly 4 in addition to the fixing component 57 with
And the sheath portion 5, compared with the explanation in optical conenctor 1 of the invention as described above, although have on vpg connection
Certain difference, but it is roughly the same, therefore, to these omission specific descriptions.
Housing body 50 described in the insertion of through hole 571 and formed.The through hole 571 can housing body 50 described in insertion
Side wall 502 (being shown in Figure 18) and formed.The through hole 571 can be located at institute relative to the guide groove 53 (being shown in Figure 14)
State first direction (the FD direction of arrow) side.
The support protrusion 572 is formed at the outer cover master in the way of (showing) side protrusion in Figure 18 to the through hole 571
Body 50.The support protrusion 572 in the through hole 571 to the second direction (the SD direction of arrow) in the way of protruding
It is formed at the housing body 50.The support protrusion 572 can be formed at the side wall 502 of the housing body 50.The support
Projection 572 is formed as rectangular plate-like on the whole, but is not limited to this, can be formed as other shapes.
Herein, the jack assemblies 2 may include support slot 28 (showing in Figure 18) and hang to stop face 281 (showing in Figure 20).
The support slot 28 is formed at the socket main body 20.The support slot 28 can be from the lateral wall of the socket main body 20
203 (being shown in Figure 18) be recessed constant depth and formed.The support slot 28 can also be respectively from the outer of the socket main body 20
Side wall 203 and the socket main body 20 upper surface 201 (being shown in Figure 18) depression constant depth and formed.With the outer cover
Main body 50 is mobile to the first direction (the FD direction of arrow), and the support protrusion 572 is inserted into the support slot 28.Institute
State support slot 28 and be formed as rectangular shape on the whole, but be not limited to this, as long as with the housing body 50
Shape that is mobile and being inserted into the support protrusion 572, so that it may be formed as other shapes.
The only face 281 that hangs is formed at the socket main body 20.Described hang stops face 281 and is, towards the in the support slot 28
The face of the socket main body 20 of one direction (the FD direction of arrow) configuration.The extension stops face 281 can be to being inserted in the support slot
28 support protrusion 572 is supported.Stop 281, face by being inserted in the support protrusion 572 of the support slot 28 by described hang
Support, can fix the housing body 50.
In the optical conenctor 1 of this second embodiment of the invention, the fixing component 57 fixes the housing body 50
Action relationships are described as follows.
First, as shown in figure 20, the support protrusion 572 is in the state supported by the lateral wall 203 of the socket main body 20.
In this case, the housing body 50 is in the mobile state of the second direction (the SD direction of arrow).
Secondly, it is as shown in figure 21, described when the housing body 50 is moved to the first direction (the FD direction of arrow)
Support protrusion 572 is by the lateral wall 203 and is inserted in the support slot 28.In this case, the support protrusion 572 to
The side of support slot 28 movement.
When the support protrusion 572 is inserted in the support slot 28, the support protrusion 572 is supported by the only face 281 that hangs,
Thus, it is possible to the fixed housing body 50.In this case, as shown in figure 11, the supporting member 51 is described with being pointed to
Second place P2 plug body 40 is pressed, and is moved via the pressure groove 52 to the second direction (the SD direction of arrow)
It is dynamic, the state of the pressure increase applied then at the plug body 40 for being pointed to the second place P2.Therefore, the fixation
The state that component 57 is increased in the pressure that the plug body 40 that the supporting member 51 is pointed to the second place P2 applies
Under can fix the housing body 50, be connected to photoelectric device battle array so as to firmly hold the plug-assembly 4
The state of row 3.
Reference picture 22, the fixing component 57 may include elastic groove 573.Housing body 50 described in the insertion of elastic groove 573 and
Formed.The elastic groove 573 relative to the support protrusion 572 in the way of being located at the downside direction (the UD direction of arrow)
The side wall 502 (being shown in Figure 18) of housing body 50 described in insertion and formed.Thus, the support protrusion 572 passes through the bullet
Property groove 573 can increase the distance of resilient movement can be carried out relative to the housing body 50, so as to increase be used for it is solid
Orient the fixed force of the mobile housing body 50 of the first direction (the FD direction of arrow).With the second direction of principal axis (Y-axis side
To) on the basis of, the elastic groove 573 can be formed with the length corresponding with the support protrusion 572.
Reference picture 19 and Figure 21, the fixing component 57 may include to release groove 574, and the releasing groove 574 is used to making to be inserted in described
The support protrusion 572 of support slot 28 from the support slot 28 separated by a distance.The releasing groove 574 can housing body 50 described in insertion
Upper surface 501 (being shown in Figure 19) and formed.Therefore, the releasing groove 574 can play the insertion of pressue device (not shown)
The function of passage inside the housing body 50.In this case, it is inserted in the quilt of support protrusion 572 of the support slot 28
The pressue device inserted via the releasing groove 574 is pushed, and is thus separated with the support slot 28.Therefore, according to the present invention
The optical conenctor 1 of second embodiment, can not only be firmly fixed to the first direction (the FD direction of arrow) movement
Housing body 50, and can improve for releasing the work of the fixed force of the housing body 50 by the releasing groove 574
The easiness of industry.
Present invention mentioned above is not limited to embodiment as described above and accompanying drawing, it will be appreciated by those skilled in the art that,
Various replacements, deformation can be carried out in the range of the technology of the present invention thought is not departed from and is changed.
Claims (19)
1. a kind of optical conenctor, it is characterised in that including:
Jack assemblies, for being combined with substrate;
Sheath portion, is combined with the jack assemblies;
Photodevice matrix, is combined with the jack assemblies;And
Plug-assembly, is inserted in the holding tank in jack assemblies formation, and is movably combined with the jack assemblies,
The plug-assembly includes:
Plug body, in the first position separated from the photodevice matrix and be connected with the photodevice matrix second
It is inserted in the holding tank with being moved between position;And
Hang and stop component, protrude to be formed from the plug body,
The sheath portion includes supporting member, and the supporting member is pressed and propped up to the plug-assembly in a first direction
Support is connected to the plug-assembly of the photodevice matrix, and the first direction is from the first position towards the second
The direction put,
The jack assemblies include:
Socket main body, is formed with the holding tank;
Component is protruded, the socket main body is formed in the way of being protruded to the holding tank side;And
Hang and stop groove, be formed at the protrusion component,
The only component of hanging is inserted in described hang and stops groove as the plug-assembly is moved to the second place,
The protrusion component, which is used to support, is inserted in the extension for hanging only groove only component.
2. optical conenctor according to claim 1, it is characterised in that
The jack assemblies include the insertion groove for being formed at the socket main body,
The plug-assembly includes protruding the insertion component to be formed from the plug body,
The plug body is inserted in institute to make the insertion component and the extension stop in the way of component is inserted in the insertion groove
State holding tank.
3. optical conenctor according to claim 2, it is characterised in that
The plug body is in the state of the insertion component is inserted in the insertion groove to first direction movement and position
In the second place,
It is described protrusion component support positioned at the second place plug body insertion component, with limit the plug body to
The distance of the first direction movement.
4. optical conenctor according to claim 2, it is characterised in that
The insertion groove on the basis of the first direction have be more than it is described insertion component and the extension stop component length it
The length of sum.
5. optical conenctor according to claim 2, it is characterised in that
The only component of hanging protrudes to be formed from the insertion component towards the first direction,
Described hang stops groove relative to the insertion groove positioned at the first direction side, and is connected with the insertion groove.
6. optical conenctor according to claim 1, it is characterised in that the sheath portion includes:
Housing body, is inserted in which can be moved on the first direction and the second direction opposite with the first direction with described
Holder assembly is combined;And
Guide groove, housing body described in insertion and formed,
The jack assemblies include protruding the ways to be formed from the socket main body,
The housing body is inserted into the ways guiding of the guide groove, with towards the first direction and described second
Move in direction.
7. optical conenctor according to claim 1, it is characterised in that the sheath portion includes:
Housing body, is inserted in which can be moved on the first direction and the second direction opposite with the first direction with described
Holder assembly is combined;And
Fixing component, for fixing the housing body,
The fixing component is used to make to fix to the housing body that the first direction is moved so that the supporting member is with institute
State housing body and move and increase the pressure applied to the plug-assembly to the first direction.
8. optical conenctor according to claim 1, it is characterised in that the sheath portion includes:
Housing body, is inserted in which can be moved on the first direction and the second direction opposite with the first direction with described
Holder assembly is combined;And
Fixing component, for fixing the housing body,
The fixing component includes:
Through hole, housing body described in insertion and formed, and
Support protrusion, the housing body is formed in the way of being protruded to the through hole side.
9. optical conenctor according to claim 8, it is characterised in that
The jack assemblies include embedded projection, and the embedded projection is in the way of being inserted in the through hole from the socket master
Body protrudes to be formed;
The through hole includes:
First embedded groove, is located at the first direction side relative to the support protrusion;And
Second embedded groove, is located at the second direction side in the through hole relative to the support protrusion,
As the housing body is moved to the first direction, the embedded projection is being inserted in the shape of first embedded groove
Pass through the support protrusion under state and be inserted in second embedded groove,
The support protrusion fixed housing body by the insertion raised support positioned at second embedded groove.
10. optical conenctor according to claim 9, it is characterised in that
The support protrusion is included towards the first direction and the inclined plane that configures,
The inclined plane towards the second direction in the way of the support protrusion is more protruded to the through hole side more then to incline
It is oblique into.
11. optical conenctor according to claim 9, it is characterised in that
The support protrusion includes the supporting surface configured towards the second direction,
The supporting surface is formed as the plane with the embedded projecting parallel.
12. optical conenctor according to claim 9, it is characterised in that the housing body includes:
First housing body, is formed with the through hole being connected with the holding tank;And
Second housing body, is formed with the through hole and the support protrusion,
Second housing body with the through hole according to the embedded raised position to first housing body
The mode of resilient movement is carried out, is combined with first housing body,
The socket main body is formed with the shifting chute for making second housing body carry out resilient movement.
13. optical conenctor according to claim 8, it is characterised in that the socket group includes:
Support slot, is formed at the socket main body;And
Hang and stop face, the support protrusion of the support slot is inserted in for supporting,
The support protrusion is inserted in the support slot as the housing body is moved to the first direction,
Described hang stops the support protrusion that face support is inserted in the support slot, with the fixed housing body.
14. optical conenctor according to claim 13, it is characterised in that
The fixing component includes elastic groove formed by housing body described in insertion so that the support protrusion carries out elastic shifting
It is dynamic.
15. optical conenctor according to claim 13, it is characterised in that
The support protrusion and the through hole are formed at the side wall of the housing body,
The support slot is formed at the lateral wall of the socket main body and the upper surface of socket main body,
The fixing component includes releasing groove formed by the upper surface of housing body described in insertion so that be inserted in the support
The support protrusion of groove is separated from the support slot.
16. optical conenctor according to claim 2, it is characterised in that the sheath portion includes:
Housing body, is inserted in which can be moved on the first direction and the second direction opposite with the first direction with described
Holder assembly is combined;
Through hole, housing body described in insertion is formed, to be connected with the holding tank;And
Open and close member, protrudes and is formed to the through-hole side,
The open and close member moves and is located at the closure for covering the insertion groove to the first direction with the housing body
Position,
As the housing body is moved towards the second direction, the open and close member is located at from opening that the insertion groove is separated
Put position.
17. optical conenctor according to claim 1, it is characterised in that
The photodevice matrix includes the connecting elements for being used to insert the plug body,
The plug-assembly includes link slot, as the plug body is moved towards the first direction, the connecting elements
It is inserted in the link slot.
18. optical conenctor according to claim 1, it is characterised in that the sheath portion includes:
Housing body, is formed with the supporting member;And
Press groove, is formed at the housing body so that the supporting member states first direction and the second party described in
To progress resilient movement,
The supporting member is moved via the pressure groove to the second direction, and is inserted in said first direction to described
Head main body is to being pressed.
19. optical conenctor according to claim 1, it is characterised in that the sheath portion includes:
Housing body, is inserted in which can be moved on the first direction and the second direction opposite with the first direction with described
Holder assembly is combined;And
Bar is held, for making the housing body be moved towards the first direction and the second direction,
The holding bar protrudes to be formed from the housing body.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
KR10-2014-0195349 | 2014-12-31 | ||
KR1020140195349A KR102019740B1 (en) | 2014-12-31 | 2014-12-31 | Optical connector |
PCT/KR2015/014581 WO2016108670A2 (en) | 2014-12-31 | 2015-12-31 | Optical connector |
Publications (2)
Publication Number | Publication Date |
---|---|
CN107111070A true CN107111070A (en) | 2017-08-29 |
CN107111070B CN107111070B (en) | 2019-01-01 |
Family
ID=56503708
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201580071900.8A Active CN107111070B (en) | 2014-12-31 | 2015-12-31 | Optical conenctor |
Country Status (2)
Country | Link |
---|---|
KR (1) | KR102019740B1 (en) |
CN (1) | CN107111070B (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR102602185B1 (en) * | 2016-10-26 | 2023-11-15 | 엘에스엠트론 주식회사 | Optical Connector |
KR102602186B1 (en) * | 2017-02-08 | 2023-11-14 | 엘에스엠트론 주식회사 | Optical Connector |
KR102524575B1 (en) * | 2018-04-03 | 2023-04-21 | 엘에스엠트론 주식회사 | Optical Connector |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR19990062290A (en) * | 1997-12-31 | 1999-07-26 | 유기범 | Ultra Multi-core Optical Connector Assembly for Optical Connection |
CN1273367A (en) * | 1999-04-29 | 2000-11-15 | 三星电子株式会社 | Module for optical connector |
US20070177844A1 (en) * | 2006-01-27 | 2007-08-02 | Seiko Epson Corporation | Optical module |
CN101681004A (en) * | 2007-02-05 | 2010-03-24 | 山一电机株式会社 | The locking mechanism that can remove of optical connector |
CN101833148A (en) * | 2008-12-24 | 2010-09-15 | 星电株式会社 | Optical connector |
CN102540362A (en) * | 2010-12-13 | 2012-07-04 | 新科实业有限公司 | Electro-optical module and multi-functional latch member therefor |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101266710B1 (en) * | 2011-11-29 | 2013-05-28 | 엘에스엠트론 주식회사 | Optical interconnection module |
-
2014
- 2014-12-31 KR KR1020140195349A patent/KR102019740B1/en active IP Right Grant
-
2015
- 2015-12-31 CN CN201580071900.8A patent/CN107111070B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR19990062290A (en) * | 1997-12-31 | 1999-07-26 | 유기범 | Ultra Multi-core Optical Connector Assembly for Optical Connection |
CN1273367A (en) * | 1999-04-29 | 2000-11-15 | 三星电子株式会社 | Module for optical connector |
US20070177844A1 (en) * | 2006-01-27 | 2007-08-02 | Seiko Epson Corporation | Optical module |
CN101681004A (en) * | 2007-02-05 | 2010-03-24 | 山一电机株式会社 | The locking mechanism that can remove of optical connector |
CN101833148A (en) * | 2008-12-24 | 2010-09-15 | 星电株式会社 | Optical connector |
CN102540362A (en) * | 2010-12-13 | 2012-07-04 | 新科实业有限公司 | Electro-optical module and multi-functional latch member therefor |
Also Published As
Publication number | Publication date |
---|---|
KR20160081469A (en) | 2016-07-08 |
KR102019740B1 (en) | 2019-09-09 |
CN107111070B (en) | 2019-01-01 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
TWI471625B (en) | Hybrid optical connector | |
KR20130059444A (en) | Connector optical lens with alignment features | |
TW201223024A (en) | Transceiver assembly having an improved receptacle connector | |
CN107111070A (en) | Optical conenctor | |
CN202472044U (en) | Socket connector and plug connector | |
CN201828685U (en) | Adapter | |
CN104583825A (en) | Optical connectors and optical coupling systems having a translating element | |
CN103959121B (en) | Photoelectric distribution module | |
CN103094802A (en) | Connector and electronic apparatus | |
US20210149134A1 (en) | Reversible Electrical Connector with Reversible Optical Connections | |
US10114184B2 (en) | Optical connector | |
KR102390389B1 (en) | Optical Connector Package | |
CN102157814A (en) | Cable assembly | |
KR102335733B1 (en) | Optical Connector Having Light Alignment Structure | |
KR102453817B1 (en) | Optical Connector | |
KR102638551B1 (en) | Optical Connector | |
KR102602186B1 (en) | Optical Connector | |
KR102602185B1 (en) | Optical Connector | |
KR20180117897A (en) | Optical Connector | |
KR102172653B1 (en) | Optical Connector | |
KR20180081256A (en) | Optical Connector | |
KR102524575B1 (en) | Optical Connector | |
KR20180096292A (en) | Optical Connector | |
KR101477381B1 (en) | Optical Interconnection Module and Receptacle for Optical Interconnection Module and optical connector comprising the same | |
TWM419937U (en) | Optical connector with universal slot |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |