CN201662637U - Optical component module type packaging V-groove body for optical signal management and optical component module thereof - Google Patents

Abstract

The utility model provides an optical component module type packaging V-groove body for optical signal management and an optical component module thereof. The V-groove body comprises a body, one or a plurality of V-grooves are arranged inside the body, an optical signal transmission hole system realizing communication between two side walls of the V-grooves and outside is arranged inside the body, the optical signal transmission hole system includes optical signal transmission holes perpendicular and/or parallel to a center line of an included angle of each V-groove, and the included angle theta of each V-groove is 90 degrees +/- 10 degrees. The V-groove body can package various optical signal transmission holes and includes the body, V-groove openings of the V-grooves inside the body, external horizontal transmission holes and vertical transmission holes are respectively connected with the optical components and external optical fiber interfaces, and emission management lenses are attached to the two side walls of each V-groove, thereby forming single-fiber bidirectional optical component modules, single-fiber three-dimensional optical component modules and the like. The optical component module type packaging V-groove body is a body structure integrating a package body and a filer or a lens support, greatly increases coupling efficiency and production efficiency of the optical components, and is particularly suitable for design of fiber-to-the-home optical modules.

Description

Light signal management light device blocks formula packaging V type groove body and optical device module thereof

Technical field

The utility model relates to a kind of light signal management light device blocks formula packaging V type groove body and optical device module thereof, the single fiber bi-directional that is particularly suitable for that Fiber to the home, single fiber three-way optical device Module Design, production also are suitable for the encapsulating structure design that other need carry out the optical device that wavelength of optical signal or transmission direction manage.

Background technology

Conventional design generally needs a plurality of part assemblings to reach the target of light signal management, particularly the traditional design of single fiber bi-directional, single fiber three-way optical device is with the separately design of package main body, filter plate carrier, earlier filter plate is bonded on the filter plate carrier, again filter plate carrier and package main body are integral by centering, location, laser bonding, thereby finish the management that light signals such as laser instrument, detector, external fiber are imported, exported, transmit.

Equally, in the structural design based on filter plate or light conducting path lens management, the main method that adopts discrete design, main body and filter plate or lens carrier are separated design, remerge together, though this design has made things convenient for the processing of part, the light path aligned relationship between the laser instrument that filter plate carrier or lens carrier and main body is connected to one and guarantees to be connected with main body, detector, the external fiber is a very time-consuming thing, and brings the loss of yield rate.

Summary of the invention

The purpose of this utility model is a kind of light signal management of design light device blocks formula packaging V type groove body and optical device module thereof, provide a kind of package main body and filter plate or lens carrier incorporate agent structure, improve the coupling efficiency and the production efficiency of optical device greatly, single fiber bi-directional, the single fiber three-way optical device Module Design of the optical module that is particularly suitable for that Fiber to the home.

The V-type groove body is used for the encapsulating structure of BOSA optical fibre device, and this structure can be taked single-V groove or continuous V-type groove, is used for the management of optical signal transmission direction.This structure is suitable for the multi-wavelength in the encapsulation of photoelectric devices such as optical fiber communication, fiber laser, the management of multipath light signal, be used for that Fiber to the home optical module, for example structural design of the optical device BOSA of single fiber bi-directional, single fiber three-way optical module.

The technical solution of the utility model: light signal management of the present utility model comprises main body with light device blocks formula packaging V type groove body, one or more V-type grooves are arranged in its main body, the optical signal transmission hole system that has the two side of V-type groove to be in communication with the outside in the main body, optical signal transmission hole system comprises and the vertical and/or parallel optical signal transmission hole of V-type groove angle center line that the angle theta 1 of V-type groove is 90 ° ± 10 °.

Angle theta 1 the best of described V-type groove is 90 °.

The horizontal transport hole that described main body is interior and V-type groove angle center line is vertical comprises the first horizontal transport hole and/or the second horizontal transport hole that is communicated with V-type groove two side, the first horizontal transport hole and the second horizontal transport hole coaxial line.

Comprise the series connection side by side in the same way of a plurality of V-type grooves in the described main body, the adjacent horizontal transport hole of promptly adjacent V-type groove is shared.

Comprise a plurality of V-type grooves in the described main body, have one or more pairs of V-type grooves oppositely to connect in a plurality of V-type grooves, be i.e. be communicated with in main body by the light signal vertical transfer hole parallel between the V-type groove of a pair of reverse connection with V-type groove angle center line; Oppositely be communicated with by the optical signal transmission hole in the main body as required between the V-type groove that connects and other V-type grooves.

A kind of optical device module by above-mentioned V-type groove body encapsulation, comprise described V-type groove body, the V-type notch of the V-type groove in the main body, external horizontal transport hole, vertical transfer hole connect each optical device and external optical signal interface respectively, and the management eyeglass of giving out light is pasted in V-type groove two side.

Described optical device module, the V-type notch of the V-type groove in its main body connects detector, the first horizontal transport hole that is communicated with V-type groove two side is connected laser instrument and external optical signal interface respectively with the second horizontal transport hole, V-type groove two side is pasted respectively and is put first filter plate and second filter plate, constitutes a kind of single fiber bi-directional optical device module.

Described optical device module, the V-type notch of the V-type groove in its main body connects laser instrument, the first horizontal transport hole that is communicated with V-type groove one sidewall is connected detector, the sidewall in the corresponding first horizontal transport hole of V-type groove pastes puts filter plate, the optical signal transmission hole parallel with V-type groove angle center line is connected with the external optical signal interface, constitutes a kind of single fiber bi-directional optical device module.

Described optical device module, the V-type notch of the V-type groove in its main body connects first detector, the optical signal transmission hole parallel with V-type groove angle center line is connected with second detector, the first horizontal transport hole that is communicated with V-type groove two side is connected laser instrument, the second horizontal transport hole that is communicated with V-type groove two side is connected the external optical signal interface, V-type groove two side is pasted respectively and is put first filter plate and second filter plate, constitutes a kind of single fiber three-way optical device module.

Described optical device module, the first V-type groove in its main body is connected first detector with the shared V-type notch of the second V-type groove, the optical signal transmission hole parallel with V-type groove angle center line is connected with second detector, the first horizontal transport hole that is communicated with the first V-type groove, one sidewall is connected laser instrument, the 3rd horizontal transport hole that is communicated with the second V-type groove, one sidewall is connected the external optical signal interface, the first V-type groove and the second V-type groove, two lateral walls paste respectively puts first filter plate and second filter plate, constitutes a kind of single fiber three-way optical device module.

Described optical device module, the first V-type notch of the first V-type groove in its main body connects laser instrument, the optical signal transmission hole parallel with V-type groove angle center line is communicated with the first V-type groove with the second V-type groove, the first horizontal transport hole of the first V-type groove is connected with first detector, the second horizontal transport hole of the second V-type groove is connected with second detector, the second V-type notch of the second V-type groove connects the external optical signal interface, the two side that the first V-type groove and the second V-type groove communicate is pasted respectively and is put first filter plate and second filter plate, constitutes a kind of single fiber three-way optical device module.

Advantage of the present utility model: use V-type groove structural design optical device encapsulating structure can effectively manage the optical signal transmission direction, be suitable for forming by single part on a large scale, reduced production cost and use cost.

V-type groove structure is oversimplified the encapsulating structure of BOSA, and it is carrier close-coupled to be about to package main body and filter plate, the angle theta 1 of V-type groove is 90 °, thereby has guaranteed the light path aligned relationship of laser instrument, detector, external fiber from structure.

The encapsulation of the optical device of traditional design is in proper order: 1, filter plate is bonded on the filter plate carrier, 2, the filter plate carrier is aimed at, welded or bond to package main body, 3, laser instrument, detector, external fiber are aimed at, welded or bond on the package main body.

Take the encapsulation of the optical device of the utility model design to be in proper order: 1, filter plate to be bonded to the V cell wall of package main body, 2, laser instrument, detector, external fiber are aimed at, welded or bond on the package main body;

Its advantage is:

1, cancels in the conventional package order the 2nd, thereby improved production efficiency greatly, reduced production cost;

2, the filter plate position of traditional design is to lean on the adjustment of filter plate carrier and main body to obtain, the utility model filter plate is attached on the main body, become the part of main body, improve the positional precision of filter plate greatly, and position consistency is very good, make the aligning of laser instrument, detector, external fiber easy, alignment speed is fast, thereby improve coupling efficiency, promptly improve the encapsulation production efficiency of BOSA optical device;

3, owing to the 2nd point, the coupled optical power consistance of laser instrument, detector, each port of external fiber is guaranteed, thereby effectively guarantees the qualification rate level of product.

Description of drawings

Fig. 1 is a kind of light signal management of the utility model light device blocks formula packaging V type groove body basic structure synoptic diagram.

Fig. 2 is a plurality of V-type grooves of the utility model V-type groove body structural representations arranged side by side in the same way.

Fig. 3 is a plurality of V-type grooves of the utility model V-type groove body structure light path principle schematic arranged side by side in the same way.

Fig. 4 is the V-type groove body structural representation of the reverse interleaved arrangement of the utility model a plurality of V-type groove B1.

Fig. 5 is reverse interleaved arrangement of a plurality of V-type groove of the utility model B1 and the V-type groove body structural representation that horizontally combines.

Fig. 6 is a kind of single fiber bi-directional optical device of the utility model module embodiment basic structure synoptic diagram.

Fig. 7 is second kind of single fiber bi-directional optical device of the utility model module embodiment basic structure synoptic diagram.

Fig. 8 is a kind of single fiber three-way optical device of the utility model module embodiment basic structure synoptic diagram.

Fig. 9 is second kind of single fiber three-way optical device of the utility model module embodiment basic structure synoptic diagram.

Figure 10 is the third single fiber three-way optical device module of the utility model embodiment basic structure synoptic diagram.

Embodiment

Describe embodiment of the present utility model in detail below in conjunction with accompanying drawing.

Fig. 1 is a kind of light signal management of the utility model light device blocks formula packaging V type groove body basic structure synoptic diagram.

A kind of light signal management of the present utility model comprises main body B with light device blocks formula packaging V type groove body, one or more V-type grooves B1 is arranged in the main body B, the optical signal transmission hole system that has the two side of V-type groove B1 to be in communication with the outside in the main body B, optical signal transmission hole system comprises and the vertical and/or parallel optical signal transmission hole of V-type groove angle center line that the angle theta 1 of V-type groove B1 is 90 ° ± 10 °.The angle theta 1 of V-type groove B1 is 90 ° of the bests.

The horizontal transport hole that described main body B is interior and V-type groove B1 angle center line is vertical comprises the first horizontal transport hole B3a and the second horizontal transport hole B3b, the first horizontal transport hole B3a and the second horizontal transport hole B3b coaxial line that is communicated with V-type groove B1 two side.The light signal vertical transfer hole B4 parallel with V-type groove B1 angle center line communicates with the sidewall of V-type groove B1.B2 is the external V-type notch of V-type groove B1.

Fig. 2 is a plurality of V-type grooves of the utility model V-type groove body structural representations arranged side by side in the same way:

The series connection side by side in the same way of a plurality of V-type grooves is arranged in the main body B, only illustrate two among the figure, the first V-type groove B1a connects with the second V-type groove B1b, and promptly the first V-type groove B1a is communicated with by the second horizontal transport hole B3b with the second V-type groove B1b.The first horizontal transport hole B3a and the 3rd horizontal transport hole B3c are external, and B2a is the V-type notch of the first V-type groove B1a, and B2b is the V-type notch of the second V-type groove B1b.B4a is the light signal vertical transfer hole parallel with V-type groove angle center line of the first V-type groove B1a, and B4b is the light signal vertical transfer hole parallel with V-type groove angle center line of the second V-type groove B1b.During many of V-type groove B1, by that analogy.

∮ d1, ∮ d2, ∮ d3, ∮ d4: the hole is a diameter, be used for the transmission of light signal, ∮ d3, ∮ d4 are not essential according to actual needs, continuous many V-types groove structure can be along ∮ d1 axially side by side or along ∮ the d1 radially unlimited a plurality of F1 of mirror image, F2, F3, F4V type groove: V-type groove F1, F2, F3, F4 are used to place the filter plate C that wavelength of optical signal is selected or transmission direction changes, rely on the V-type cell wall to fix, select to use F1, F2, F3, F4 according to actual needs arbitrarily.

Fig. 3 is a plurality of V-type grooves of Fig. 2 V-type groove body structure light path principle schematic arranged side by side in the same way:

Principle of work: the first V-type groove B1a and the second V-type groove B1b place filter plate C1, C2, C3, C4 respectively, A is a light source, it sends light signal wave plate C1 at first after filtration, C1 has 90 degree refractions, straight-through two kinds of coatings to the light signal of specific wavelength, a kind of like this light signal of wavelength can arrive Q1, the light signal of other wavelength arrives C2, same C2 has 90 degree refractions, straight-through two kinds of coatings to the light signal of specific wavelength, make a kind of light signal of wavelength arrive Q2, the light signal of other wavelength arrives C3, by that analogy.

Equally,, can reach Q4, spend reflection horizon through 90 of C3 and arrive Q3, equally also can arrive Q2, Q1 through the 90 degree reflection horizon of C4 if Q5 also is a light emitting source simultaneously.

Fig. 4 is the V-type groove body structural representation of the reverse interleaved arrangement of the utility model a plurality of V-type groove B1: have a plurality of V-type grooves oppositely to connect in the main body B, the optical signal transmission hole B4 parallel with V-type groove angle center line of promptly adjacent V-type groove is communicated with in main body B.

The reverse interleaved connection of a plurality of V-type groove of present embodiment B1, only illustrate two among the figure, the first V-type groove B1a and the reverse interleaved arrangement of the second V-type groove B1b, by the light signal vertical transfer hole B4 parallel two V-type grooves are communicated with V-type groove angle center line, B2a is the V-type notch of the first V-type groove B1a, and B2b is the V-type notch of the second V-type groove B1b.B3a is the first horizontal transport hole vertical with V-type groove angle center line of the first V-type groove B1a, and B3b is the second horizontal transport hole vertical with V-type groove angle center line of the second V-type groove B1b.

Fig. 5 is reverse interleaved arrangement of a plurality of V-type groove of the utility model B1 and the V-type groove body structural representation that horizontally combines.

Comprise a plurality of V-type grooves in the main body B, have one or more pairs of V-type grooves oppositely to connect in a plurality of V-type grooves, be i.e. be communicated with in main body B by the light signal vertical transfer hole B4 parallel between the V-type groove of a pair of reverse connection with V-type groove angle center line; Oppositely be communicated with by the optical signal transmission hole in the main body B as required between the V-type groove that connects and other V-type grooves.

The first V-type groove B1a and the reverse interleaved arrangement of the second V-type groove B1b are communicated with two V-type grooves by the light signal vertical transfer hole B4a parallel with V-type groove angle center line; The 3rd V-type groove B1c and the reverse interleaved arrangement of the 4th V-type groove B1d are communicated with two V-type grooves by the light signal vertical transfer hole B4b parallel with V-type groove angle center line; Two groups arranged side by side.The 5th V-type groove B1e direction is different from preceding four V-type grooves; First horizontal transport hole B3a and the external communications is communicated with by the second horizontal transport hole B3b between two groups of reverse interleaved V-type grooves, and the 3rd horizontal transport hole B3c is communicated with the V-type groove B1d of second group of reverse interleaved arrangement with the 5th V-type groove B1e.

In a word, what, spread pattern of V-type groove are not to change flexibly as required with being connected.

V-type groove body encapsulation of the present utility model constitutes each external tapping part of optical device module and the component shape size coupling that is connected, and all parts that will be made of the optical device module B link together.

Can encapsulate various optical device modules by above-mentioned V-type groove body, comprise described V-type groove body B, the V-type notch of V-type groove B1 in the main body B, external horizontal transport hole, vertical transfer hole connect each optical device and external optical signal interface respectively, and the management eyeglass of giving out light is pasted in V-type groove B1 two side.

The light regime eyeglass comprises filter plate, lens, refracting telescope, catoptron etc.

Fig. 6 is a kind of single fiber bi-directional optical device of the utility model module embodiment basic structure synoptic diagram:

Present embodiment adopts a special case of V-type groove body structure shown in Figure 1, promptly do not need the light signal vertical transfer hole parallel with V-type groove angle center line, the V-type notch B2 of V-type groove B1 in the main body B connects detector D, the first horizontal transport hole B3a that is communicated with V-type groove two side is connected laser instrument A and external optical signal interface E respectively with the second horizontal transport hole B3b, and V-type groove B1 pastes respectively the two side puts the first filter plate C 1 and the second filter plate C2.

Present embodiment is a simplex optical module core light device, by V-type groove structure the I/O light signal is effectively managed.

Principle of work: A is the light source laser instrument, and B is a V-type groove body of the present utility model, and all parts that constitute single fiber bi-directional optical device module are linked together by B, and C1, C2 are filter plates, and D is a detector, and E is the external optical signal interface adapter that connects external fiber.

The principle of work that local signal is converted to light signal and spreads out of: A sends light signal, and the straight-through wave filtering layer through C1, C2 is coupled into the optical fiber that E connects with light signal, and is forwarded to external fiber.

External optical signal imports and be converted to the principle of work of electric signal into: external optical signal imports into through the optical fiber in the E by external fiber, imports D into by the 90 degree reflection horizon of C2, and D accepts to be converted to electric signal behind the light signal.

Fig. 7 is second kind of single fiber bi-directional optical device of the utility model module embodiment basic structure synoptic diagram:

Present embodiment adopts another special case of V-type groove body structure shown in Figure 1, promptly do not need the light signal vertical transfer hole parallel with V-type groove angle center line, the V-type notch B2 of V-type groove B1 in the main body B connects laser instrument A, the first horizontal transport hole B3 that is communicated with V-type groove one sidewall is connected detector D, the sidewall of the corresponding first horizontal transport hole B3 of V-type groove B1 pastes puts filter plate C, and the light signal vertical transfer hole B4 parallel with V-type groove B1 angle center line is connected with external optical signal interface E.

This utilizes the another kind of form of V-type groove structure for the single fiber bi-directional optical device.

Principle of work: A is the light source laser instrument, and B is a V-type groove body of the present utility model, and all parts that constitute single fiber bi-directional optical device module are linked together by B, and C is a filter plate, and D is a detector, and E is the external optical signal interface adapter that connects external fiber.

The principle of work that local signal is converted to light signal and spreads out of: A sends light signal, and the straight-through wave filtering layer through C is coupled into the optical fiber of E with light signal, and is forwarded to external fiber.

External optical signal imports and be converted to the principle of work of electric signal into: external optical signal imports into through the optical fiber in the E by external fiber and through C, imports D into by the 90 degree reflection horizon of C, and D accepts to be converted to electric signal behind the light signal.

Fig. 8 is a kind of single fiber three-way optical device of the utility model module embodiment basic structure synoptic diagram:

Present embodiment adopts V-type groove body structure shown in Figure 1, the V-type notch B2 of V-type groove B1 in the main body B connects the first detector D1, the light signal vertical transfer hole B4 parallel with V-type groove B1 angle center line is connected with the second detector D2, the first horizontal transport hole B3a that is communicated with V-type groove two side is connected laser instrument A, the second horizontal transport hole B3b that is communicated with V-type groove two side is connected external optical signal interface E, and V-type groove B1 pastes respectively the two side puts the first filter plate C1 and the second filter plate C2.

This is a single fiber three-way optical module core light device, by V-type groove structure the I/O light signal is effectively managed.

Principle of work: A is the light source laser instrument, B is a V-type groove body of the present utility model, all parts that constitute single fiber three-way optical device module are linked together by B, C1, C2 are filter plates, D1 is the data-signal detector, D2 is the simulating signal detector, and E is the external optical signal interface adapter that connects external fiber.

The principle of work that local signal is converted to light signal and spreads out of: A sends light signal, and the straight-through wave filtering layer through C1, C2 is coupled into light signal the optical fiber of E and is forwarded to external fiber.

The external data light signal imports and be converted to the principle of work of datagram number into: external optical signal imports into through the optical fiber in the E by external fiber and through C1, and 90 degree refractors by C1 import D1 into, and D1 accepts to be converted to behind the data light signal datagram number.

The external analog light signal imports and be converted to the principle of work of analog electrical signal into: external optical signal imports into through the optical fiber in the E by external fiber and imports D2 into through the reflection horizon of C2, and D2 accepts to be converted to analog electrical signal behind the analog optical signal.

Fig. 9 is second kind of single fiber three-way optical device of the utility model module embodiment basic structure synoptic diagram.

Present embodiment adopts V-type groove body structure shown in Figure 2, the first V-type groove B1a in the main body B is connected the first detector D1 with the shared V-type notch B2 of the second V-type groove B1b, the light signal vertical transfer hole B4 parallel with V-type groove B1 angle center line is connected with the second detector D2, the first horizontal transport hole B3a that is communicated with the first V-type groove B1a, one sidewall is connected laser instrument A, the 3rd horizontal transport hole B3c that is communicated with the second V-type groove B1b, one sidewall is connected external optical signal interface E, the first V-type groove B1a is communicated with by the second horizontal transport hole B3b with the second V-type groove B1b, two madial walls, and the first V-type groove B1a and the second V-type groove B1b, two lateral walls paste respectively puts the first filter plate C1 and the second filter plate C2.

This utilizes the another kind of form of V-type groove structure for the single fiber three-way optical device.

Principle of work: A is the light source laser instrument, B is a V-type groove body of the present utility model, all parts that constitute single fiber three-way optical device module are linked together by B, C1, C2 are filter plates, D1 is the data-signal detector, D2 is the simulating signal detector, and E is the external optical signal interface adapter that connects external fiber.

The principle of work that local signal is converted to light signal and spreads out of: A sends light signal, and the straight-through wave filtering layer through C1, C2 is coupled into light signal the optical fiber of E and is forwarded to external fiber.

The external data light signal imports and be converted to the principle of work of datagram number into: external optical signal imports into through the optical fiber in the E by external fiber and through the straight-through wave filtering layer of C1, D1 is imported in 90 degree reflection horizon through C1 into, and D1 accepts to be converted to behind the data light signal datagram number.

The external analog light signal imports and be converted to the principle of work of analog electrical signal into: external optical signal imports into through the optical fiber in the E by external fiber and imports D2 into through the 90 degree reflection horizon of C2, and D2 accepts to be converted to analog electrical signal behind the analog optical signal.

Figure 10 is the third single fiber three-way optical device module of the utility model embodiment basic structure synoptic diagram: present embodiment adopts V-type groove body structure shown in Figure 3, the first V-type notch B2a of the first V-type groove B1a in the main body B connects laser instrument A, the light signal vertical transfer hole B4 parallel with V-type groove angle center line is communicated with the first V-type groove B1a with the second V-type groove B1b, the first horizontal transport hole B3a of the first V-type groove B1a is connected with the first detector D1, the second horizontal transport hole B3b of the second V-type groove B1b is connected with the second detector D2, the second V-type notch B2b of the second V-type groove B1b connects external optical signal interface E, and the two side that the first V-type groove B1a and the second V-type groove B1b communicate is pasted respectively and put the first filter plate C1 and the second filter plate C2.

This utilizes the another kind of form of V-type groove structure for the single fiber bi-directional optical device.

Principle of work: A is the light source laser instrument, and B is a V-type groove body of the present utility model, and all parts that constitute single fiber three-way optical device module are linked together by B, C1, C2 are filter plates, D1 is the data-signal detector, and D2 is the simulating signal detector, and E is the joints of optical fibre that connect external fiber.

The principle of work that local signal is converted to light signal and spreads out of: A sends light signal, and the straight-through wave filtering layer through C1, C2 is coupled into light signal the optical fiber of E and is forwarded to external fiber.

The external data light signal imports and be converted to the principle of work of datagram number into: external optical signal imports into through the optical fiber in the E by external fiber and through the straight-through wave filtering layer of C1, D1 is imported in 90 degree reflection horizon through C1 into, and D1 accepts to be converted to behind the data light signal datagram number.

The external analog light signal imports and be converted to the principle of work of analog electrical signal into: external optical signal imports into through the optical fiber in the E by external fiber and imports D2 into through 90 ° of reflection horizon of C2, and D2 accepts to be converted to analog electrical signal behind the analog optical signal.

V-type groove body of the present utility model is a kind of encapsulating structure of light signal management, this structure is made up of one or more V-type grooves, its spread pattern can change as required flexibly with being connected, and its optical signal transmission hole system sets up or accepts or rejects and can change flexibly as required, not limited by the foregoing description.

This structure is particularly suitable for being designed for the BOSA structure of Fiber to the home optical module, and V-type groove center line is vertical with the light signal direction; C can be filter plate, lens, refracting telescope, catoptron, and C is fixed on the V-type cell wall.

In like manner, the optical device module variation flexibly as required especially by V-type groove body encapsulation of the present utility model is not limited by the foregoing description.

Core of the present utility model is the design of 90 ° of V-type grooves in the V-type groove body, the encapsulating structure of BOSA is oversimplified, not only package main body and filter plate is carrier close-coupled, and guaranteed the precision that the light path of laser instrument, detector, external fiber is aimed at from structure.Therefore, there is the V-type groove that the optical signal transmission direction is managed in every optical device package main body, all belongs to protection domain of the present utility model.

Claims (11)

1. a light signal is managed with light device blocks formula packaging V type groove body, comprise main body (B), it is characterized in that: one or more V-type grooves (B1) are arranged in the main body (B), the optical signal transmission hole system that the interior two side of V-type groove (B1) in addition of main body (B) is in communication with the outside, optical signal transmission hole system comprises and the vertical and/or parallel optical signal transmission hole of V-type groove angle center line that the angle theta 1 of V-type groove (B1) is 90 ° ± 10 °.

2. light signal management according to claim 1 light device blocks formula packaging V type groove body, it is characterized in that: the angle theta 1 of V-type groove (B1) is 90 °.

3. light signal management according to claim 1 light device blocks formula packaging V type groove body, it is characterized in that: comprise the first horizontal transport hole (B3a) and/or the second horizontal transport hole (B3b) that is communicated with respectively with V-type groove (B1) two side, the first horizontal transport hole (B3a) and second horizontal transport hole (B3b) coaxial line with the vertical horizontal transport hole of V-type groove (B1) angle center line in the main body (B).

4. according to claim 1 or 3 described light signal management light device blocks formula packaging V type groove body, it is characterized in that: comprise a plurality of V-type grooves (B1) in the main body (B), a plurality of V-type grooves are series connection side by side in the same way, and the adjacent horizontal transport hole of promptly adjacent V-type groove is shared.

5. light signal management according to claim 1 and 2 light device blocks formula packaging V type groove body, it is characterized in that: comprise a plurality of V-type grooves in the main body (B), there are one or more pairs of V-type grooves oppositely to connect in a plurality of V-type grooves, are i.e. are communicated with in main body (B) by the light signal vertical transfer hole (B4) parallel between the V-type groove of a pair of reverse connection with V-type groove angle center line; Oppositely be communicated with by the interior optical signal transmission hole of main body (B) as required between the V-type groove that connects and other V-type grooves.

6. optical device module by the encapsulation of the arbitrary V-type groove body of claim 1～5, comprise described V-type groove body (B), it is characterized in that: V-type notch, the aperture, horizontal transport hole of V-type groove outside contact, the aperture, vertical transfer hole of the V-type groove (B1) in the main body (B) connect required optical device and external optical signal interface, and V-type groove (B1) two side is pasted the management eyeglass of giving out light and constituted the optical device module.

7. optical device module according to claim 6, it is characterized in that: the V-type notch (B2) of the V-type groove (B1) in the main body (B) connects detector (D), the first horizontal transport hole (B3a) that is communicated with V-type groove two side is connected laser instrument (A) and external optical signal interface (E) respectively with the second horizontal transport hole (B3b), V-type groove (B1) two side is pasted respectively and is put first filter plate (C1) and second filter plate (C2), constitutes a kind of single fiber bi-directional optical device module.

8. optical device module according to claim 6, it is characterized in that: the V-type notch (B2) of the V-type groove (B1) in the main body (B) connects laser instrument (A), the first horizontal transport hole (B3) that is communicated with V-type groove one sidewall is connected detector (D), the sidewall in the corresponding first horizontal transport hole (B3) of V-type groove (B1) pastes puts filter plate (C), the optical signal transmission hole (B4) parallel with V-type groove (B1) angle center line is connected with external optical signal interface (E), constitutes a kind of single fiber bi-directional optical device module.

9. optical device module according to claim 6, it is characterized in that: the V-type notch (B2) of the V-type groove (B1) in the main body (B) connects first detector (D1), the optical signal transmission hole (B4) parallel with V-type groove (B1) angle center line is connected with second detector (D2), the first horizontal transport hole (B3a) that is communicated with V-type groove two side is connected laser instrument (A), the second horizontal transport hole (B3b) that is communicated with V-type groove two side is connected external optical signal interface (E), V-type groove (B1) two side is pasted respectively and is put first filter plate (C1) and second filter plate (C2), constitutes a kind of single fiber three-way optical device module.

10. optical device module according to claim 6, it is characterized in that: the first V-type groove (B1a) in the main body (B) is connected first detector (D1) with the shared V-type notch (B2) of the second V-type groove (B1b), the optical signal transmission hole (B4) parallel with V-type groove (B1) angle center line is connected with second detector (D2), the first horizontal transport hole (B3a) that is communicated with the first V-type groove (B1a) sidewall is connected laser instrument (A), the 3rd horizontal transport hole (B3c) that is communicated with the second V-type groove (B1b) sidewall is connected external optical signal interface (E), the first V-type groove (B1a) and the second V-type groove (B1b), two lateral walls paste respectively puts first filter plate (C1) and second filter plate (C2), constitutes a kind of single fiber three-way optical device module.

11. optical device module according to claim 6, it is characterized in that: the first V-type notch (B2a) of the first V-type groove (B1a) in the main body (B) connects laser instrument (A), the optical signal transmission hole (B4) parallel with V-type groove angle center line is communicated with the first V-type groove (B1a) with the second V-type groove (B1b), the first horizontal transport hole (B3a) of the first V-type groove (B1a) is connected with first detector (D1), the second horizontal transport hole (B3b) of the second V-type groove (B1b) is connected with second detector (D2), the second V-type notch (B2b) of the second V-type groove (B1b) connects external optical signal interface (E), the two side that the first V-type groove (B1a) and the second V-type groove (B1b) communicate is pasted respectively and is put first filter plate (C1) and second filter plate (C2), constitutes a kind of single fiber three-way optical device module.

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