CN207571342U - Fiber transmission device - Google Patents
Fiber transmission device Download PDFInfo
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- CN207571342U CN207571342U CN201721735572.XU CN201721735572U CN207571342U CN 207571342 U CN207571342 U CN 207571342U CN 201721735572 U CN201721735572 U CN 201721735572U CN 207571342 U CN207571342 U CN 207571342U
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- signal
- fibre
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- optical
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Abstract
A kind of fiber transmission device, including fibre-optical splice receiver and control circuit board;The fibre-optical splice is internally provided with a fiber cores;Receiver is set on fibre-optical splice and corresponding with fiber cores, and receiver is equipped with multiple end feets and extends outside fibre-optical splice;Control circuit board is set to outside fibre-optical splice and is electrically connected with multiple end feets of receiver;Whereby, the first signal for being transmitted of reception optical fiber core is used for (such as by receiver:Optical signal) and it is converted into a second signal (such as:Electric signal), then exported by end feet to control circuit board, control circuit board is recycled to be used for that there is signal connector (such as with one:USB Type C HDMI connectors etc.) transmission line be electrically connected, reach fibre-optical splice and be not required to, by the external signal adapter of tradition, can optical signal directly be changed into electric signal, then make signal output by transmission line and signal connector.
Description
Technical field
The utility model is related to a kind of fiber transmission devices, particularly a kind of to utilize be directly provided with inside fibre-optical splice one
Receiver makes it through the first signal that receiver is transmitted for reception optical fiber core (such as:Optical signal) and it is converted into one second
Signal is (such as:Electric signal) it exports, receiver is recycled, can have signal connector (such as by control circuit board and one:USB
Type-C HDMI connectors etc.) transmission line be electrically connected, reach fibre-optical splice and be not required to through the external signal adapter of tradition,
Optical signal directly can be changed into electric signal, then signal output is directly made by transmission line and signal connector.
Background technology
Develop fiber optic communication for a long time, refer to transmit a kind of mode of information with optical fiber using light;Therefore, fiber optic communication
It is the one kind for belonging to wire communication, and optical fiber telecommunications system then produces telecommunications industry revolutionary effect, while also exists
In digital Age, extremely important role is play, main reason is that:Fiber optic communication has big secrecy ... of transmission capacity etc.
More advantages.
Existing fiber communication application, being both needed to have has a transmitter, by transmitter convert the electrical signal to optical signal it
Afterwards, then by optical fiber transmission line by optical signal it transmits;In addition, signal receiving end, which also needs to have, an optical receiver, by light
Optical signal converted back into electric signals can so be reached the transmission of signal by receiver.
For existing fiber transmission line, because of existing fiber transmission line, only as the transmission of optical signal, in existing fiber
Transmission both ends are respectively equipped with fibre-optical splice so that when in use, signal receiving end need to be provided with optical signal to existing fiber transmission line
Receiver matches connection for the fibre-optical splice of optical fiber transmission line, then that optical signal receiver is provided with multiple electric signals is defeated
Exit port is (such as:USB Type-C HDMI signal output end Kou ﹒ ﹒ ﹒ etc.), to be passed by optical signal receiver for power supply signal
Defeated line is (such as:USB Type-C HDMI transmission lines etc.) be electrically connected, finally just by electrical signal transmission line by electric signal transmission at most
Media device.
Thus, optical fiber transmission line used in existing fiber communication, then must be by external optical signal adapter,
Optical signal can be changed into electric signal, then multimedia equipment is transmitted to by optical signal adapter, caused using upper quite inconvenient;This
Outside, existing fiber transmission line is mainly as made by quartz glass so that existing fiber transmission line be bent it is too violent when,
The danger to fracture can then be caused, cause the increase of use cost.
Therefore, how providing one kind can connect with external multimedia device simple, but can avoid it is easy when acutely bending
The optical fiber transmission line to fracture, the place of main problem as to be solved in the utility model.
Utility model content
According to fiber transmission device disclosed in the utility model, including one receiver of a fibre-optical splice and a control electricity
Road plate;The fibre-optical splice is internally provided with a fiber cores, is used for transmitting one first signal by fiber cores;Receiver connects set on optical fiber
In head, receiver is corresponding with fiber cores, and receiver is equipped with multiple end feets, and multiple end feets are extended outside fibre-optical splice;Control
Circuit board processed is set to outside fibre-optical splice and is electrically connected with multiple end feets of receiver, and control circuit board can have with outside
Signal connector is (such as:USB Type-C HDMI connectors etc.) transmission line be electrically connected.
The technical characteristics of the utility model is:It is used in inside fibre-optical splice and is directly provided with a receiver, pass through reception
Device is used for the first signal for being transmitted of reception optical fiber core (such as:Optical signal) and it is converted into a second signal (such as:Electric signal), then by
Multiple end feets export second signal to control circuit board, and control circuit board is recycled to be used for a tool signal connector (such as:
USB Type-C HDMI connectors etc.) transmission line be electrically connected, reach fibre-optical splice and be not required to through the external signal converting of tradition
Optical signal directly can be changed into electric signal, then make signal output by transmission line and signal connector by device, be passed so as to simplifying optical fiber
The complexity that defeated line is connect with multimedia equipment;Meanwhile the tool signal connector is (such as:USB Type-C HDMI connectors
Deng) transmission line for made by non-quartz glass;Therefore, further more can reach avoid being easy to fracture when acutely bending it is scarce
It loses.
In some preferred embodiments, one covering body of cladding, makes the light outside the fibre-optical splice and the control circuit board
Fine connector and the control circuit board form single optical fiber plug pattern.
In some preferred embodiments, which is electrically connected with an at least signal transmssion line, which passes
One end of defeated line is equipped with one first connecting pin, and the other end is equipped with a second connection end, first connecting pin and the control circuit
Plate is electrically connected, which is electrically connected with a signal connector.
In some preferred embodiments, which is a signal pin end.
In some preferred embodiments, which is a signal mother socket.
In some preferred embodiments, which includes an ontology, in the body interior equipped with a copper pipe, and in
The fiber cores are equipped in the copper pipe, which is further provided with an at least fixing piece, and is incorporated into the copper by the fixing piece
Outside pipe.
Description of the drawings
Fig. 1:One stereogram of the utility model fiber transmission device.
Fig. 2:One exploded view of the utility model fiber transmission device.
Fig. 3:One side cutaway view of the utility model fiber transmission device.
Fig. 4:One application implementation profit schematic diagram of the utility model fiber transmission device.
Reference sign
1 fibre-optical splice
11 ontologies
12 copper pipes
13 fiber cores
14 fixing pieces
2 receivers
21 end feets
3 control circuit boards
4 signal transmssion lines
41 first connecting pins
42 second connection ends
5 signal connectors
6 covering bodies.
Specific embodiment
With reference to the attached drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out clear
Chu is fully described by elaborating many details in the following description in order to fully understand the utility model, but originally
Utility model can also be implemented using other different from other manner described here, and those skilled in the art can not disobey
Similar popularization is done in the case of back of the body the utility model connotation, therefore the utility model is not limited by following public specific embodiment
System.
It please refers to Fig.1 shown in -4, the utility model discloses a kind of fiber transmission device, includes a fibre-optical splice 1 one and connects
Receive 2 and one control circuit board 3 of device.
It includes an ontology 11 to fibre-optical splice 1, and a copper pipe 12 is internally provided with, and interior equipped with one in copper pipe 12 in ontology 11
An at least fixing piece 14 is further provided with inside fiber cores 13, wherein ontology 11, ontology 11 is projected using insulated plastic inclusion
Molding incorporated in fixing piece 14 and copper pipe 12, and is incorporated by fixing piece 14 outside of copper pipe 12 so that copper pipe 12 can consolidate knot
Within ontology 11;The fibre-optical splice 1 is used for transmitting one first signal (optical signal) by fiber cores 13.
Receiver 2 can receive an optical signal and be converted to an electric signal and export, and the receiver 2 is set on fibre-optical splice 1
It is interior, make receiver 2 corresponding with fiber cores 13, and receiver 2 is equipped with multiple end feets 21, multiple end feets 21 can each extend over light extraction
Outside fine connector 1, and the first signal (optical signal) that is transmitted of reception optical fiber core 13 is used for by receiver 2 and is converted into one second
Signal (electric signal), then exported second signal by these end feets 21.
Control circuit board 3 is set to the outside of fibre-optical splice 1 and with multiple end feets 21 of receiver 2 into electric connection.
The fibre-optical splice 1 may be connected to the optical signal transmitter of an acquiescence, be used for passing by the fiber cores 13 of fibre-optical splice 1
Defeated one first signal (optical signal), then be used for the first signal (optical signal) that is transmitted of reception optical fiber core 13 by receiver 2 and turned
It changes a second signal (electric signal) into, is exported second signal by these end feets 21, i.e., receiver 2 passes through these end feets 21
Second signal is transmitted to control circuit board 3, can directly optical signal be turned by reaching fiber transmission device described in the utility model
It changes an electric signal into and is used as output.
The utility model attempts an embodiment (as shown in Figure 4), wherein:Outside the fibre-optical splice 1 and control circuit board 3
A covering body 6 can be coated with, passes through the cladding of covering body 6 so that fibre-optical splice 1 and control circuit board 3 form single optical fiber and insert
Capitiform formula;In addition, the control circuit board 3 can be electrically connected with an at least signal transmssion line 4,4 one end of signal transmssion line
Be equipped with a second connection end 42 equipped with one first connecting pin 41 and its other end, by signal transmssion line 4 the first connecting pin 41 with
Control circuit board 3 is electrically connected, additionally by 42 and one signal connector 5 of the second connection end of signal transmssion line 4 (such as:USB
The connector of other specifications such as Type-C connector HDMI connectors) it is electrically connected;Whereby, the second letter that receiver 2 is exported
Number (electric signal) can be sequentially transmitted by 3 signal transmssion line 4 of control circuit board and signal connector 5.
The signal connector 5 can be the signal pin end of any specification, or the signal connector 5 can be
The signal mother socket of any specification is (such as:USB Type-C HDMI connection sockets etc.).
The technical characteristics of the utility model is:Using the receiver 2 being directly provided with inside fibre-optical splice 1, pass through reception
Device 2 is used for the first signal that is transmitted of reception optical fiber core 13 (such as:Optical signal) and it is converted into a second signal (such as:Electric signal),
Second signal is exported to control circuit board 3 by multiple end feets 21 again, control circuit board 3 is recycled to be used for being electrically connected signal biography
Defeated line 4 is electrically connected an at least signal connector 5 by signal transmssion line 4, finally by signal connector 5 and external multimedia
Device connects, and reaches fibre-optical splice 1 and is not required to, by the external signal adapter of tradition, can optical signal directly be changed into electric signal,
Signal output is made by signal transmssion line 4 and signal connector 5 again, is answered so as to what simplified optical fiber transmission line was connect with multimedia equipment
Polygamy;In addition, again by the signal transmssion line 4 made by non-quartz glass, therefore further can reach and avoid because of play
Strong bending and the missing that easily snaps off.
Obviously, described embodiment is only the part of the embodiment of the utility model, instead of all the embodiments
Based on the embodiment in the utility model, what those of ordinary skill in the art were obtained without making creative work
Every other embodiment, shall fall within the protection scope of the present invention.
Claims (6)
1. a kind of fiber transmission device, which is characterized in that including:
One fibre-optical splice is internally provided with a fiber cores, which is used for transmitting one first signal;
One receiver, in the fibre-optical splice, the receiver is corresponding with the fiber cores, and the receiver is equipped with multiple ends
Foot, the receiver are used for receiving the fiber cores are transmitted first
Signal is simultaneously converted into a second signal and is exported by these end feets;
One control circuit board is electrically connected with these end feets of the receiver.
2. fiber transmission device as described in claim 1, which is characterized in that wrapped outside the fibre-optical splice and the control circuit board
A covering body is covered, the fibre-optical splice and the control circuit board is made to form single optical fiber plug pattern.
3. fiber transmission device as described in claim 1, which is characterized in that the control circuit board and an at least signal transmssion line
It is electrically connected, one end of the signal transmssion line is equipped with one first connecting pin, and the other end is equipped with a second connection end, first company
It connects end to be electrically connected with the control circuit board, which is electrically connected with a signal connector.
4. fiber transmission device as claimed in claim 3, which is characterized in that the signal connector is a signal pin end.
5. fiber transmission device as claimed in claim 3, which is characterized in that the signal connector is a signal mother socket.
6. fiber transmission device as described in claim 1, which is characterized in that the fibre-optical splice includes an ontology, in the ontology
It is internally provided with a copper pipe, and in being equipped with the fiber cores in the copper pipe, which is further provided with an at least fixing piece, and by
The fixing piece is incorporated into outside the copper pipe.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721735572.XU CN207571342U (en) | 2017-12-13 | 2017-12-13 | Fiber transmission device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721735572.XU CN207571342U (en) | 2017-12-13 | 2017-12-13 | Fiber transmission device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207571342U true CN207571342U (en) | 2018-07-03 |
Family
ID=62687998
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721735572.XU Active CN207571342U (en) | 2017-12-13 | 2017-12-13 | Fiber transmission device |
Country Status (1)
Country | Link |
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CN (1) | CN207571342U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112987201A (en) * | 2021-03-16 | 2021-06-18 | 绵阳精恒光通讯有限公司 | SMD optic fibre connecting portion and gateway equipment |
-
2017
- 2017-12-13 CN CN201721735572.XU patent/CN207571342U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112987201A (en) * | 2021-03-16 | 2021-06-18 | 绵阳精恒光通讯有限公司 | SMD optic fibre connecting portion and gateway equipment |
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