CN203368484U - Optical bypass switch module and online equipment matched with same - Google Patents

Abstract

An optical bypass switch module and an on-line device matched with the same are provided, wherein the optical bypass switch module is provided with an optical switch, a plurality of connectors and a telecommunication control plug. The telecommunication control plug can be plugged in a socket of the on-line equipment to receive an electric control signal sent by the on-line equipment. The telecommunication control plug is electrically connected with the optical switch, so that the received electrical control signal is transmitted to the optical switch to switch the execution mode of the optical switch, and each connector can respectively extend to a remote plug-in photoelectric converter and optical fiber network equipment, so that the photoelectric converter and the optical fiber network equipment do not need to be arranged at the same cabinet position with the on-line equipment.

Description

Light by-pass switch module and the online equipment be mated

Technical field

The present invention is about a kind of optical switch and the online equipment that is mated, particularly, is a kind of light by-pass switch module that is plugged in online equipment and for the online equipment of its grafting.

Background technology

Fast development along with network technique, the copper cable had now for transmitting signals is little by little replaced by the optical fiber wire rod, compared to existing copper cash, the optical fiber wire rod not only has advantages of that volume is little, is not subject to electromagnetic interference, quick and a large amount of signal transmissions also can be provided, and is that the fiberoptical networking technology that adopts the optical fiber wire rod to transmit medium as signal is widely used in the communication between various industries or equipment.

Optical switch is essential device in the fiberoptical networking application, and optical switch is to be the critical elements in the optical-fibre communications networking, the light signal in fiberoptical networking can be switched, and adjusts the bang path of light signal.Generally speaking, have optical-electrical converter (O/E Converter) in optical switch, and extend and be provided with many in order to transmit the optical fiber wire rod of light signal in inside, described optical-electrical converter can convert electric signal to the light signal, send fiberoptical networking equipment to by the optical fiber wire rod of being located at optical switch inside, also received light signal can be converted to electric signal and send online equipment (In-Line Equipment) to.Optical switch is electrically connected online equipment, and difference optical-electrical converter and fiberoptical networking devices, coupled, for receiving the signal of online equipment, to open and close optical-electrical converter, with the light signal of fiberoptical networking equipment, is communicated with.To be built in optical-electrical converter in optical switch, can cause the manufacturing cost of optical switch effectively to reduce, and can't change arbitrarily label and the hardware specification of optical-electrical converter in optical switch.

Yet, due to the light signal, in the optical fiber wire rod, be to utilize the refraction of light and total reflection to transmit, therefore the optical fiber wire rod in optical switch just must have bending radius (Bending Radius: according to EAI/TIA 568 standards to a certain degree, the bending radius of multimode fiber wire rod must not be lower than 25mm) so that the light signal continues to transmit in the optical fiber wire rod under unattenuated situation.As shown in Figure 1, optical switch 1 is surrounded with multi-ring fiber wire rod 11, each enclose optical fiber wire rod 11 along the internal face 12 of optical switch 1 or the winding roll (not shown) around, to change the bearing of trend of optical fiber wire rod, and make the bending radius of optical fiber wire rod meet standard, so optical switch can't reduced volume.

Moreover, optical switch need keep being electrically connected with online equipment, to receive the signal of online equipment, therefore optical switch is built in the apparatus casing of online equipment usually, so will cause the apparatus casing inside of online equipment to need headspace, so that the optical switch that volume can't be reduced to be set, and make the arrangement in online device interior space use difficulties.

Based on aforementioned, how optical switch is arranged to the outside of online equipment, and keeps and the electric connection of equipment online, be affiliated those skilled in the art problem in the urgent need to address.

The utility model content

In view of the variety of problems of above-mentioned prior art, main purpose of the present invention is to provide a kind of smooth by-pass switch module, without the inner space that takies online equipment, and the elasticity of using to improve online device interior arrangement space.

Secondary objective of the present invention is to provide a kind of smooth by-pass switch module, joint with can peg graft respectively optical-electrical converter and fiberoptical networking equipment, described joint can be extended far-end grafting optical-electrical converter and fiberoptical networking equipment, and so optical-electrical converter and fiberoptical networking equipment just need not be arranged at same rack position with online equipment.

For achieving the above object and other purpose, the invention provides a kind of light by-pass switch module that is plugged in online equipment, optical-electrical converter and fiberoptical networking apparatus connecting that can be corresponding with the many groups in outside, comprising: shell body, light diverter switch, a plurality of optical-electrical converter joint and a plurality of fiberoptical networking device junction.The accommodating circuit substrate with telecommunication controller plug of shell body, the telecommunication controller plug exposes outside shell body, and is plugged in the socket of online equipment, the electrical control signal sent to receive online equipment.The light diverter switch is arranged at circuit substrate, and couples or extend optical fiber and the network equipment optical fiber for many opto-electronic conversion with corresponding relation, and described opto-electronic conversion is at least extended in the enclosure interior of shell body with optical fiber with optical fiber and network equipment.Telecommunication controller plug and light diverter switch are electrically connected, and make received electrical control signal be passed to the light diverter switch, with the execution pattern of switches light diverter switch.Respectively this optical-electrical converter joint is located at the outside of shell body, an end respectively this optical-electrical converter of pegging graft respectively, and the other end couples with one of optical fiber with described opto-electronic conversion respectively.Respectively this fiberoptical networking device junction is located at the outside of shell body, an end respectively this fiberoptical networking equipment of pegging graft respectively, and the other end couples with one of optical fiber person with described network equipment respectively.The light diverter switch is carried out general modfel, order respectively this network equipment is communicated with the light signal of optical fiber opto-electronic conversion use corresponding to institute optical fiber, perhaps, the light diverter switch is carried out bypass mode, interrupt optical fiber and the light signal connection with optical fiber of institute corresponding opto-electronic conversion for this network equipment respectively, and make the light signal connection each other with optical fiber of this network equipment respectively.

Above-mentioned smooth diverter switch can be Dual2x2 or 4x8 light diverter switch; Described 4x8 light diverter switch has many bypass fibers that continue by welding or mechanical system in twos to form the bypass effect.Smooth by-pass switch module of the present invention, also can comprise the warning light that exposes this shell body, to point out respectively the light signal connected state of this network equipment with optical fiber opto-electronic conversion use corresponding to institute optical fiber by light, or point out this network equipment respectively with optical fiber light signal connected state to each other.Respectively this network equipment can be in the enclosure interior of shell body around to change the direction of extending with optical fiber by optical fiber and/or opto-electronic conversion.Shell body stretches out hollow sleeve outward, in order to pass respectively optical fiber and opto-electronic conversion optical fiber for this network equipment, makes the outside of shell body form respectively optical cable and opto-electronic conversion optical cable for network equipment.Network equipment can gather and become a shoestring with optical cable by optical cable and opto-electronic conversion.Network equipment coats the protection skin by optical cable and opto-electronic conversion with the outside of optical cable; described protection skin forms armored cable (Armored Cable) with the optical cable coated, or at least has kevlar fiber (Kevlar Fiber) or aramid fiber (Aramid Fiber).

Respectively this optical-electrical converter joint and fiberoptical networking device junction can be ST, SC, FC, LC, MU or MPO optical fiber splice.The telecommunication controller plug can be the plug of USB, RJ45 or HDMI form.But the outside wall surface setting example of shell body, as the fixture of the locking accessories such as screw, makes this shell body is fixed in to this online equipment.

Moreover, the present invention also provides a kind of light by-pass switch module that is plugged in online equipment, optical-electrical converter and fiberoptical networking apparatus connecting that can be corresponding with the many groups in outside, comprising: carry seat, light diverter switch, a plurality of optical-electrical converter joint and a plurality of fiberoptical networking device junction.Carry seat and expose the telecommunication controller plug is arranged, the telecommunication controller plug is plugged in online equipment, the electrical control signal sent to receive online equipment.The light diverter switch is arranged at carries seat, and couples or extend optical cable and the network equipment optical cable for many opto-electronic conversion with corresponding relation; Telecommunication controller plug and light diverter switch are electrically connected, and make received electrical control signal be passed to the light diverter switch, with the execution pattern of switches light diverter switch.Respectively this optical-electrical converter joint is located at an outside of carrying seat, an end respectively this optical-electrical converter of pegging graft respectively, and the other end couples with one of optical cable person with described opto-electronic conversion respectively.Respectively this fiberoptical networking device junction is located at an outside of carrying seat, an end respectively this fiberoptical networking equipment of pegging graft respectively, and the other end couples with one of optical cable person with described network equipment respectively.This light diverter switch is carried out general modfel, order respectively this network equipment is communicated with the light signal of optical cable opto-electronic conversion use corresponding to institute optical cable, perhaps, the light diverter switch is carried out bypass mode, interrupt optical cable and the light signal connection with optical cable of institute corresponding opto-electronic conversion for this network equipment respectively, and make the light signal connection each other with optical cable of this network equipment respectively.

Respectively this opto-electronic conversion can be with optical cable the optical cable that loose tubular type (Loose Tube) optical cable or crust have kevlar fiber (Kevlar Fiber) or aramid fiber (Aramid Fiber) with optical cable and network equipment.Smooth by-pass switch module of the present invention also comprises and exposes a warning light that carries seat, with prompting respectively optical cable and institute's corresponding opto-electronic conversion light signal connected state of optical cable for this network equipment, or point out this network equipment respectively with optical cable light signal connected state to each other.Smooth by-pass switch module of the present invention also can comprise administrative unit, for monitoring the operating state of this online equipment, when monitoring this online equipment, operate when normal, continue this online equipment is monitored, operate when abnormal when monitoring this online equipment, make the operating system of this online equipment restart.In another embodiment, administrative unit is electrically connected respectively light diverter switch and telecommunication controller plug, when monitoring online equipment, operate when normal, administrative unit can send the first control command to the light diverter switch, carry out general modfel to make the light diverter switch, when monitoring online equipment, operate when abnormal, administrative unit can send the second control command to the light diverter switch, to make the light diverter switch, carries out bypass mode.

In addition, the present invention provides again a kind of online equipment of pegging graft for aforementioned smooth by-pass switch module, it is characterized in that, the online equipment provided exposes the telecommunication had for grafting telecommunication controller plug controls socket.

In sum, the present invention be provide a kind of light by-pass switch module that is plugged in online equipment and with the online equipment of its collocation, light by-pass switch module exposes the telecommunication controller plug that is plugged in online equipment, to reach, light by-pass switch module is placed in to the outside of online equipment and keeps the purpose be electrically connected with online equipment.Light by-pass switch module also has can be stretched to a plurality of joints at a distance, with corresponding optical-electrical converter and the fiberoptical networking equipment of outside many groups of pegging graft respectively, so, optical-electrical converter and fiberoptical networking equipment just need not be arranged at same rack position with online equipment, compared to prior art, smooth by-pass switch module of the present invention there is no built-in optical-electrical converter, can reduce cost of manufacture, and the optical-electrical converter of can arrange in pairs or groups various label and hardware specification, with the extensively property used of improving product significantly.

The accompanying drawing explanation

Fig. 1 is the coiling schematic diagram of Connectorized fiber optic cabling in existing optical switching device.

Fig. 2 is for being used light by-pass switch of the present invention to be communicated with the calcspar of the optical-electrical converter that fiberoptical networking equipment is corresponding with it.

Fig. 3 is for being used light by-pass switch of the present invention to be communicated with the calcspar of each fiberoptical networking equipment.

The stereogram that Fig. 4 is light by-pass switch module of the present invention one embodiment.

The system block diagrams that Fig. 5 is another embodiment of light by-pass switch module of the present invention.

Fig. 6 A-Fig. 6 C is the various smooth diverter switch kenel of difference example light by-pass switch of the present invention module.

Fig. 7 is the system block diagrams that one of light by-pass switch module of the present invention is used state.

The system block diagrams of another use state that Fig. 8 is light by-pass switch module of the present invention.

The external form schematic diagram of the embodiment that Fig. 9 is light by-pass switch module of the present invention.

Description of reference numerals

1 optical switch

11 optical fiber wire rods

12 internal faces

2 smooth by-pass switch modules

21 shell bodies

211 hollow sleeves

22 smooth diverter switches

221 first opto-electronic conversion optical fiber

222 first network equipment optical fiber

223 second network equipment optical fiber

224 second opto-electronic conversion optical fiber

23 circuit substrates

231 telecommunication controller plugs

232 administrative units

24 first optical-electrical converter joints

25 second optical-electrical converter joints

26 first fiberoptical networking device junction

27 second fiberoptical networking device junction

28 warning lights

3 online equipment

4 first optical-electrical converters

5 second optical-electrical converters

6 first fiberoptical networking equipment

7 second fiberoptical networking equipment.

Embodiment

Following content will be arranged in pairs or groups graphic, rely on particular specific embodiment that technology contents of the present invention is described, those skilled in the art can understand other advantages of the present invention and effect easily by content disclosed in the present specification.The present invention also can rely on other different specific embodiments to be implemented or apply.Every details in this specification also can, based on different viewpoints and application, not deviating under spirit of the present invention, be carried out various modifications and change.Especially, in graphic, the proportionate relationship of each element and relative position are only had an exemplary use, not represent actual state of the invention process.

For reducing the cost of manufacture and shared volume of light by-pass switch module, smooth by-pass switch module of the present invention does not build optical-electrical converter in wherein, and like this, the user just can select suitable optical-electrical converter according to the demand of hardware specification.Smooth by-pass switch module of the present invention can plug the ground mode by activity and be combined with online equipment, and needn't build the inside in online equipment, but to increase the usage space of online device interior.To this, the present invention also provides a kind of online equipment that has telecommunication to control socket that exposes, for grafting light by-pass switch module.

Referring to Fig. 2 to Fig. 3, is the use view of light by-pass switch module of the present invention.As shown in Figure 2, smooth by-pass switch module 2 of the present invention can be plugged on the socket of online equipment 3 apparatus casings, the telecommunication control signal sent to receive online equipment 3.Outer first, second optical- electrical converter joint 24,25 and first, second fiberoptical networking device junction 26,27 of being extended with of light by-pass switch module 2, respectively this joint 24,25,26,27 can plug respectively first, second optical- electrical converter 4,5 and first, second fiberoptical networking equipment 6,7 of being coupled to, wherein, respectively corresponding first, second fiberoptical networking equipment 6,7 of first, second optical- electrical converter 4,5, to carry out the conversion of photoelectricity signal.When online equipment 3 normal operation, make light diverter switch in light by-pass switch module 2 22 carry out general modfels (Normal Mode) so that first, second fiberoptical networking equipment 6,7 with the light signal connection of corresponding first, second optical-electrical converter 4,5.Now, first, second fiberoptical networking equipment 6,7 can electric signal corresponding to the light signal convert to by first, second optical- electrical converter 4,5 respectively, and the electric signal after conversion is passed to online equipment 3 processing.The electric signal that first, second optical- electrical converter 4,5 also can provide online equipment 3 converts corresponding light signal to, and passes to respectively first, second fiberoptical networking equipment 6,7.

As shown in Figure 3, when online equipment 3 occurs when machine or power interruptions, light by-pass switch module 2 can be carried out bypass mode (Bypass Mode), when this pattern is carried out, light by-pass switch module 2 can interrupt first, the second fiberoptical networking equipment 6, 7 with the institute corresponding first, the second optical-electrical converter 4, the light signal of 5 is communicated with, and make first, the second fiberoptical networking equipment 6, 7 communicate with each other and mutual transmission light signal, and the effect of formation light bypass, even if decommission with online equipment 3, first, the second fiberoptical networking equipment 6, 7 light signal still can transmit each other by light by-pass switch module 2, and the interruption that can not cause the network system signal to transmit.

Framework explanation for light by-pass switch module of the present invention, see also Fig. 4 and Fig. 5, as shown in the figure, smooth by-pass switch module 2 of the present invention has shell body 21, light diverter switch 22, first, second optical- electrical converter joint 24,25 and first, second fiberoptical networking device junction 26,27.First, second optical- electrical converter joint 24,25 and first, second fiberoptical networking device junction 26,27 can be the optical fiber splice of ST, SC, FC, LC, MU or MPO form.The accommodating circuit substrate 23 with telecommunication controller plug 231 of shell body 21, the extensible shell body 21 that exposes outside of telecommunication controller plug 231.Telecommunication controller plug 231 can be the plug of USB, RJ45 or HDMI form and is plugged in outside online equipment (not shown), issues the electrical control signal of light diverter switch 22 to receive online equipment.Telecommunication controller plug 231 has electrical connection with light diverter switch 22, make the electrical control signal received from online equipment be passed to light diverter switch 22, execution pattern with switches light diverter switch 22, particularly, the execution pattern of light diverter switch 22 can be switched to general modfel or bypass mode.

Optional the using such as materials such as metals of described shell body 21 made, so that the effect of shield electromagnetic interference (Electromagnetic Disturbance, EMI) to be provided.The outside wall surface of shell body 21 is extended fixture 212, relies on such as the locking of the locking accessories such as screw, and shell body 21 is locked and is fixed in online equipment 3, maintains the grafting relation of telecommunication controller plug 231 and online equipment 3.The outer surface of shell body 21 also can form indicator diagram layer (not shown), to indicate the performed pattern of light diverter switch 22.

Light diverter switch 22 is arranged at circuit substrate 23, and couples or extend optical fiber 221,224 and optical fiber 222,223 for first, second network equipment for first, second opto-electronic conversion, usings as light signal bang path.The present invention can select various light diverter switch, and for example Dual2x2 half-duplex light diverter switch, Dual2x2 full duplex light diverter switch or 4x8 light diverter switch, respectively as shown in Fig. 6 A, Fig. 6 B, Fig. 6 C.It should be noted that described 4x8 light diverter switch has many bypass fibers that continue by welding or mechanical system in twos to form the bypass effect.

Optical fiber 221,224 corresponding first, second optical fiber 222,223 for network equipment respectively for first, second opto-electronic conversion, with provide first, second fiberoptical networking equipment 6,7 with the connection of corresponding first, second optical- electrical converter 4,5 smooth signals.As shown in Figure 5, the outer hollow sleeve 211 that stretches out of shell body 21, in order to use optical fiber 222,223 through first, second network equipment and optical fiber 221,224 for first, second opto-electronic conversion, form respectively optical cable and first, second opto-electronic conversion optical cable for first, second network equipment with the outside at shell body 21, first, second network equipment can gather and become a shoestring with optical cable by optical cable and first, second opto-electronic conversion, as shown in Figure 9.It should be noted that by hollow sleeve 211, can protect the network equipment that stretches out shell body 21 with optical fiber 221,224, not affected by external force by optical fiber 222,223 and opto-electronic conversion damages.Network equipment coats the protection skin by optical cable and opto-electronic conversion with the outside of optical cable; Described protection micromicro installs undaform steel band or polyethylene layer additional and forms armored cable (Armored Cable) with coated optical cable, and the optical cable coated to avoid is subject to excessive lateral pressure and destroys, to reach the purpose of cable protection.Only, described protection skin also can be selected by the material of kevlar fiber (Kevlar Fiber) or aramid fiber (Aramid Fiber) made.

First, second optical- electrical converter joint 24,25 is located at respectively the outside of shell body 21, optical-electrical converter under can being plugged into respectively, and, first, second optical- electrical converter joint 24,25 couples by the one of optical fiber 221,224 with described first, second opto-electronic conversion respectively, so, the light signal just can sequentially be delivered to optical-electrical converter via optical fiber 221,224, optical- electrical converter joint 24,25 for described opto-electronic conversion.First, second fiberoptical networking device junction 26,27 is located at respectively the outside of shell body 21, fiberoptical networking equipment under can being plugged into respectively, and, first, second fiberoptical networking device junction 26,27 couples by the one of optical fiber 222,223 with described first, second network equipment respectively, so, the fiberoptical networking equipment under the light signal that described network equipment transmits with optical fiber 222,223 is delivered to by first, second fiberoptical networking device junction 26,27 respectively.

See also Fig. 7, Fig. 8, first, second network equipment can be in the enclosure interior of shell body 21 around to change the direction of extending, to adapt to respectively the position of first, second fiberoptical networking device junction 26,27 and first, second optical- electrical converter joint 24,25 with optical fiber 221,224 by optical fiber 222,223 and/or first, second opto-electronic conversion.As shown in Figure 7, this optical-electrical converter joint 24 respectively, 25 with fiberoptical networking device junction 26, 27 can be by being plugged into the plug of separated time equipment (Fan-Out Kits or Fan-Out Cable), and respectively with the first, the second optical- electrical converter 4, 5 and first, the second fiberoptical networking equipment 6, 7 couple, but not as limit, first, the second optical- electrical converter joint 24, 25 and first, the second fiberoptical networking device junction 26, 27 also can directly be plugged into first respectively, the second optical- electrical converter 4, 5 and first, the second fiberoptical networking equipment 6, 7 and obtain coupling relation, as shown in Figure 8.

It should be noted that, light by-pass switch module of the present invention also can omit the setting of shell body, to expose circuit substrate, so, be arranged at the light diverter switch of circuit substrate, couple or extend optical cable and the network equipment optical cable for many opto-electronic conversion with corresponding relation, even, can also be able to provide the seat that carries of fixing or carrying effect to replace circuit substrate, telecommunication controller plug and light diverter switch have electrical connection to each other, and are arranged on year seat.Described opto-electronic conversion is for example the optical cable that loose tubular type (Loose Tube) optical cable or crust have kevlar fiber (Kevlar Fiber) or aramid fiber (Aramid Fiber) with optical cable and network equipment with optical cable.In addition, circuit substrate or carry seat and also can expose warning light, with light prompting respectively optical cable and institute's corresponding opto-electronic conversion light signal connected state of optical cable for this network equipment, or point out this network equipment respectively with optical cable light signal connected state to each other.

Light diverter switch 22 can be locking-type (Latching) optical switch with switching signal triggering pin position, online equipment can be controlled signal by the input triggering of switching signal triggering pin position via telecommunication controller plug 231 and give light diverter switch 22, to change the execution pattern of light diverter switch 22.Light diverter switch 211 also can be non-locking formula (Non-latching) optical switch with level detecting pin position, when detecting online equipment via telecommunication controller plug 231, level detecting pin position occurs when making zero during signal that machine or power interruptions are exported, light diverter switch 22 is carried out bypass mode, order is this optical fiber 222 for network equipment respectively, 223 light signals each other are communicated with, so, with when the online equipment malfunction, maintaining a plurality of fiberoptical networking equipment light signal to each other that is plugged in light by-pass switch module 2 is communicated with, prevent whereby fiberoptical networking due to online device powers down or work as the disappearance that broken string appears in machine.

When light diverter switch 22 is carried out general modfel, light diverter switch 22 makes respectively optical fiber 222,223 and institute's optical fiber 221,224 connections for corresponding opto-electronic conversion for this network equipment.When light diverter switch 22 is carried out bypass mode, light diverter switch 22 is interrupted respectively this network equipment and is communicated with the light signal of optical fiber 221,224 with institute corresponding opto-electronic conversion with optical fiber 222,223, and makes respectively this network equipment optical fiber 222,223 light signal connection each other.

Smooth by-pass switch module 2 of the present invention also can arrange administrative unit 232, administrative unit 232 is for monitoring the operating state of online equipment 3, when monitoring 3 runnings of online equipment when normal, sustainable online equipment 3 is monitored, when monitoring 3 runnings of online equipment when abnormal, can make the operating system of online equipment 3 restart by telecommunication controller plug 231.Another speech, whether administrative unit 232 can monitor the online equipment 3 that telecommunication controller plug 231 pegs graft and continue for some time extremely, if administrative unit 232 is waken online equipment 3 up, if not, online equipment 3 is monitored in administrative unit 232 continuation.Administrative unit 232 can be house dog (Watch Dog Time; WDT) wafer.Described online equipment running refers to that the phenomenon when machine or power interruptions appears in online equipment extremely.

In another embodiment of the present invention, administrative unit 232 can connect respectively light diverter switch 22 and online equipment 3, when the running that monitors online equipment 3 by extremely being transformed into when normal, administrative unit 232 can send the first control command to light diverter switch 22, carry out general modfel to make light diverter switch 22, when monitoring 3 runnings of online equipment by normally changing into when abnormal, administrative unit 232 can send the second control command to light diverter switch 22, to make light diverter switch 22 carry out bypass mode, and make the operating system of this online equipment restart.It should be noted that administrative unit 232 also can omit to save whole manufacturing cost in response to client's requirement, but not belong to necessary element.

For making the operator can effectively grasp the execution pattern of light diverter switch 22, as shown in Figure 4, smooth by-pass switch module 2 of the present invention also can arrange the warning light 28 that exposes outside shell body 21, to rely on optical fiber 222,223 and the institute connected state between optical fiber 221,224 for corresponding opto-electronic conversion for light prompting network equipment, or point out network equipment optical fiber 222,223 connected state to each other.Described warning light 29 is for example the LED bulb.Refer to Fig. 9, network equipment of the present invention with optical fiber 222,223 with corresponding opto-electronic conversion by the part of optical fiber 221,224, can be agglomerated into be a shoestring, make the integral body of light by-pass switch module 2 present rectangular cable shape, taken up space to reduce and can adapt to various environments for use.

Compared to prior art, smooth by-pass switch module of the present invention possesses following technical characterstic, the problem faced effectively to solve those skilled in the art.

1, provide a kind of light by-pass switch module that is plugged in online equipment, so online equipment just need not arrange light by-pass switch module by headspace.

2, smooth by-pass switch module of the present invention need not built-in optical-electrical converter, can reduce cost of manufacture, and the optical-electrical converter of can arrange in pairs or groups various label and hardware specification, with the extensively property used of improving product.

3, provide joint and can peg graft respectively optical-electrical converter and fiberoptical networking equipment, with online equipment, to form the network construction system.

4, the joint of optical-electrical converter and fiberoptical networking equipment may extend at a distance, and so optical-electrical converter and fiberoptical networking equipment just need not be arranged at same rack position with online equipment.

Above-described embodiment is exemplary illustration principle of the present invention and effect only, but not for limiting the present invention.Any those skilled in the art all can, under spirit of the present invention and category, modify and change above-described embodiment.Therefore, the scope of the present invention, should be as described in the claims in the present invention.

Claims (10)

1. the light by-pass switch module that can be plugged in online equipment, can organize corresponding optical-electrical converter and fiberoptical networking apparatus connecting with outside more, it is characterized in that, comprising:

Shell body, the accommodating circuit substrate with telecommunication controller plug, this telecommunication controller plug exposes outside this shell body, and is plugged in the socket of online equipment, the electrical control signal sent to receive this online equipment;

The light diverter switch, be arranged at this circuit substrate, and couple or extend optical fiber and the network equipment optical fiber for many opto-electronic conversion with corresponding relation, and described opto-electronic conversion is at least extended in the enclosure interior of this shell body with optical fiber with optical fiber and network equipment; This telecommunication controller plug and this light diverter switch are electrically connected, and are passed to this light diverter switch with the electrical control signal by being received, to switch the execution pattern of this light diverter switch;

A plurality of optical-electrical converter joints, be located at the outside of this shell body, an end respectively this optical-electrical converter of pegging graft respectively, and the other end couples with one of optical fiber person with described opto-electronic conversion respectively; And

A plurality of fiberoptical networking device junction, be located at the outside of this shell body, an end respectively this fiberoptical networking equipment of pegging graft respectively, and the other end couples with one of optical fiber person with described network equipment respectively; This light diverter switch is carried out general modfel, and the light signal connection of optical fiber is used in order respectively this network equipment by optical fiber and institute corresponding opto-electronic conversion; Perhaps, this light diverter switch is carried out bypass mode, interrupts optical fiber and the light signal connection with optical fiber of institute corresponding opto-electronic conversion for this network equipment respectively, and makes the light signal connection each other with optical fiber of this network equipment respectively.

2. smooth by-pass switch module according to claim 1, it is characterized in that, also comprise the warning light that exposes this shell body, with the prompting light signal connected state of optical fiber opto-electronic conversion use corresponding to institute optical fiber for this network equipment respectively, or prompting respectively this network equipment with optical fiber light signal connected state to each other.

3. smooth by-pass switch module according to claim 1, is characterized in that, respectively this network equipment by optical fiber and/or opto-electronic conversion with optical fiber in the enclosure interior of this shell body around to change the direction of extending.

4. smooth by-pass switch module according to claim 1, it is characterized in that, this shell body stretches out hollow sleeve outward, in order to pass respectively optical fiber and opto-electronic conversion optical fiber for this network equipment, with the outside in this shell body, forms respectively optical cable and opto-electronic conversion optical cable for network equipment; It is a shoestring that this network equipment is agglomerated into optical cable by optical cable and opto-electronic conversion; This network equipment coats the protection skin by optical cable and opto-electronic conversion with the outside of optical cable; This protection skin forms armored cable with the optical cable coated, or at least has kevlar fiber or aramid fiber.

5. smooth by-pass switch module according to claim 1, is characterized in that, the outside wall surface of this shell body arranges fixture, makes this shell body is fixed in to this online equipment; Respectively this optical-electrical converter joint and fiberoptical networking device junction are ST, SC, FC, LC, MU or MPO optical fiber splice; The plug that this telecommunication controller plug is USB, RJ45 or HDMI form; This light diverter switch is Dual2x2 light diverter switch or 4x8 light diverter switch; Described 4x8 light diverter switch has many bypass fibers that continue by welding or mechanical system in twos to form the bypass effect.

6. the light by-pass switch module that can be plugged in online equipment, for outside, organizing corresponding optical-electrical converter and fiberoptical networking apparatus connecting, is characterized in that more, comprising:

Carry seat, expose the telecommunication controller plug is arranged, for being plugged in this online equipment, the electrical control signal sent to receive this online equipment;

The light diverter switch, be arranged at this year seat, and couple or extend optical cable and the network equipment optical cable for many opto-electronic conversion with corresponding relation; This telecommunication controller plug and this light diverter switch are electrically connected, and are passed to this light diverter switch with the electrical control signal by being received, to switch the execution pattern of this light diverter switch;

A plurality of optical-electrical converter joints, be located at the outside of this year seat, an end respectively this optical-electrical converter of pegging graft respectively, and the other end couples with one of optical cable person with described opto-electronic conversion respectively; And

A plurality of fiberoptical networking device junction, be located at the outside of this year seat, an end respectively this fiberoptical networking equipment of pegging graft respectively, and the other end couples with one of optical cable person with described network equipment respectively; This light diverter switch is carried out general modfel, and the light signal connection of optical cable is used in order respectively this network equipment by optical cable and institute corresponding opto-electronic conversion; Perhaps, this light diverter switch is carried out bypass mode, interrupts optical cable and the light signal connection with optical cable of institute corresponding opto-electronic conversion for this network equipment respectively, and makes the light signal connection each other with optical cable of this network equipment respectively.

7. smooth by-pass switch module according to claim 6, is characterized in that, respectively this opto-electronic conversion is the optical cable that loose tube cable or crust have kevlar fiber or aramid fiber with optical cable and network equipment with optical cable.

8. smooth by-pass switch module according to claim 6, it is characterized in that, also comprise the warning light that exposes this year seat, with the prompting light signal connected state of optical cable opto-electronic conversion use corresponding to institute optical cable for this network equipment respectively, or prompting respectively this network equipment with optical cable light signal connected state to each other.

9. according to the described smooth by-pass switch module of claim 1 or 6, it is characterized in that, also comprise administrative unit, for monitoring the operating state of this online equipment, when monitoring this online equipment, operate when normal, continue to be monitored or to make this light diverter switch to carry out general modfel to this online equipment, operate when abnormal when monitoring this online equipment, make the operating system of this online equipment restart or make this light diverter switch carry out bypass mode.

10. an online equipment of pegging graft for the described smooth by-pass switch module of claim 1 or 6, is characterized in that, exposes the telecommunication had for this telecommunication controller plug of pegging graft and control socket.

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