CN110068897A - A kind of adhering device and its technique for sticking of fiber array and optoisolator - Google Patents
A kind of adhering device and its technique for sticking of fiber array and optoisolator Download PDFInfo
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- CN110068897A CN110068897A CN201910336780.XA CN201910336780A CN110068897A CN 110068897 A CN110068897 A CN 110068897A CN 201910336780 A CN201910336780 A CN 201910336780A CN 110068897 A CN110068897 A CN 110068897A
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- fiber array
- adjusting bracket
- optoisolator
- microscope
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/24—Coupling light guides
- G02B6/26—Optical coupling means
- G02B6/27—Optical coupling means with polarisation selective and adjusting means
- G02B6/2746—Optical coupling means with polarisation selective and adjusting means comprising non-reciprocal devices, e.g. isolators, FRM, circulators, quasi-isolators
Abstract
The present invention relates to the adhering devices and its technique for sticking of a kind of fiber array and optoisolator, its device includes workbench, workbench is equipped with the first adjusting bracket, second adjusting bracket and microscope assembly, the upper end of first adjusting bracket is equipped with fiber array, second adjusting bracket is located at the side of the first adjusting bracket, the upper end of second adjusting bracket is equipped with adsorption tube, the one end of adsorption tube far from fiber array is connected to external aspiration pump, the other end is arranged towards fiber array, optoisolator is adsorbed on the other end of adsorption tube by adsorption tube, and second adjusting bracket optoisolator can be driven to be moved at the fiber end face position of light array.The present invention is adjusted in fiber array to the field range of microscope assembly by the first adjusting bracket, and optoisolator can be picked and placed by the negative pressure in adsorption tube, and optoisolator is driven to be moved at the fiber end face position of light array by the second adjusting bracket, the Dock With Precision Position that fiber array and optoisolator can be realized by microscope assembly, greatly improves product quality.
Description
Technical field
The present invention relates to the adhering device of technical field of optical fiber communication more particularly to a kind of fiber array and optoisolator and
Its technique for sticking.
Background technique
With the fast development of the communication technology and the swift and violent growth of practical application, the research tool of high-capacity optical fiber communication system
There is very big application value.Fiber array is widely used in the products such as optical splitter, the general light for using 4 cores, 8 cores, 12 cores
Fibre ribbons cooperate full quartz material to be carved with the substrate of V slot, the important coupling assembly being assembled between connection optical device and optical fiber.
And the fiber array being used in active light module then has higher requirement.The diameter of optical fiber is 0.25mm, and fibre core only has 9 μm, is
Reach higher isolation, needs to be respectively that the isolator of 0.3mm is directly bonded with the fibre core of fiber array end face by length and width.
In the prior art using bonding by hand, because hand will shake, accuracy cannot guarantee, lead to current fiber array and optoisolator
Between coupling accuracy it is not high, and the device volumes such as optoisolator are smaller, are not easy to take and position, and both often to solidify
There is deviation in positioning afterwards.
Summary of the invention
The technical problem to be solved by the present invention is to solve the above shortcomings of the prior art and to provide a kind of fiber array and light
The adhering device and its technique for sticking of isolator.
The technical scheme to solve the above technical problems is that the bonding of a kind of fiber array and optoisolator fills
It sets, including workbench, the workbench is equipped with the first adjusting bracket, the second adjusting bracket and microscope assembly, and described first is adjusted
The upper end of frame is equipped with fiber array, and adjusting first adjusting bracket can drive the fiber array to be moved to the micro- microscope group
In the field range of part, second adjusting bracket is located at the side of first adjusting bracket, and the upper end of second adjusting bracket is set
There is the adsorption tube towards the light array, the one end of the adsorption tube far from the fiber array is connected to external aspiration pump,
When outside is evacuated pump work, negative pressure is formed in the adsorption tube and optoisolator is adsorbed on to the other end of the adsorption tube,
And the fiber end face that second adjusting bracket can drive the adsorption tube that the optoisolator is driven to be moved to the light array
At position.
The beneficial effects of the present invention are: the adhering device of fiber array and optoisolator of the invention, passes through described first
In adjusting bracket adjustable fiber array to the field range of microscope assembly, and light can be picked and placed by the negative pressure in adsorption tube
Isolator, and drive optoisolator to be moved at the fiber end face position of the light array by the second adjusting bracket, by aobvious
The Dock With Precision Position of fiber array and optoisolator may be implemented in micromirror assemblies, greatly improves product quality, guarantees the consistent of product
Property.
Based on the above technical solution, the present invention can also be improved as follows:
Further, the upper end of first adjusting bracket is equipped with the first fixture, be vertically equipped in first fixture with it is described
The through slot that fiber array matches, the fiber array are vertically provided in the through slot, and the optical fiber end of the fiber array
The upper port of the through slot is stretched out upwardly.
The beneficial effect of above-mentioned further scheme is: by the way that first fixture is arranged and is arranged in first fixture
The through slot to match with the fiber array can be convenient and the fiber array is fixed and is dismantled, and guarantee be bonded
Fiber array will not be displaced in journey, it is ensured that adhesive reinforcement, and effective protection can be carried out to the fiber array.
Further, first fixture be equipped with fastening stud, first fixture be equipped be connected to the through slot and
The screw hole to match with the fastening stud, can be by the fiber array when the fastening stud screws in and runs through the screw hole
It is fixed in the through slot.
The beneficial effect of above-mentioned further scheme is: can be convenient by the fastening stud and fixes the fiber array
Bonding fiber array is unclamped to taking-up in the through slot or after bonding from the through slot, it is very convenient.
Further, the microscope assembly includes the first microscope and first support, the first support is arranged described
On workbench, the upper end of the first support is arranged in first microscope, and first microscope is located at the optical fiber
The top of array.
The beneficial effect of above-mentioned further scheme is: first microscope support setting being existed by the first support
The top of the fiber array, convenient for passing through the fiber end face position of first microscope fiber array viewed from above
It sets, is convenient for and the optoisolator Dock With Precision Position.
Further, the microscope assembly further includes the second microscope and second support, the second support is arranged in institute
It states on workbench, and the second support is located at the other side of first adjusting bracket, second microscope is arranged described
In second support.
The beneficial effect of above-mentioned further scheme is: second microscope support setting being existed by the second support
The fiber array is far from first adjusting bracket side, convenient for stating optical fiber array from flank observation post by second microscope
The relative position of column and optoisolator, consequently facilitating optoisolator to be accurately moved to the fiber end face of corresponding fiber array
Dock With Precision Position is realized in position.
Further, array is provided with multiple fixation holes, first adjusting bracket, the second adjusting bracket, on the workbench
One bracket and second support pass through the fixation hole and are movably arranged on the workbench.
The beneficial effect of above-mentioned further scheme is: multiple fixation holes are provided with by the way that array is arranged, it can be more convenient
Adjusting first adjusting bracket, the second adjusting bracket, first support and second support relative position, convenient for passing through micro- microscope group
Part observes the relative position of the fiber array and optoisolator, improves the operating efficiency of entire technique.
The present invention also provides the technique for sticking of a kind of fiber array and optoisolator, include the following steps:
Step 1: the first adjusting bracket, the second adjusting bracket and microscope assembly being respectively set on the table, respectively described
Fiber array and the adsorption tube towards the light array are set on the first adjusting bracket and the second adjusting bracket, and in the optical fiber array
Solidified glue on point at the fiber end face position of column;
Step 2: the relative position of first adjusting bracket and the microscope assembly is adjusted, so that the fiber array
It is shown in the field range of the microscope assembly;
Step 3: starting external aspiration pump, and optoisolator is placed on the adsorption tube close to the one of the fiber array
End, so that the optoisolator is adsorbed on the adsorption tube close to one end of the fiber array;
Step 4: adjusting second adjusting bracket to drive the optoisolator to be moved to the visual field of the microscope assembly
In range, continue to adjust second adjusting bracket fiber end face position until the optoisolator is moved to the light array
Place simultaneously contacts the solidified glue;
Step 5: the irradiation solidified glue is used up, and by light array solidification Nian Jie with the optoisolator, and
External aspiration pump is closed, bonding finished product is removed and completes technique for sticking.
The technique for sticking of fiber array and optoisolator of the invention passes through the adjustable optical fiber array of the first adjusting bracket
In column to the field range of microscope assembly, and optoisolator can be picked and placed by the negative pressure in adsorption tube, and adjust by second
Section frame driving optoisolator is moved at the fiber end face position of the light array, and optical fiber may be implemented by microscope assembly
The Dock With Precision Position of array and optoisolator, and solidify fiber array and optoisolator under illumination condition, greatly improve product
Quality guarantees the consistency of product.
Based on the above technical solution, the present invention can also be improved as follows:
Further, in the upper end of first adjusting bracket, setting has matches with the fiber array in the step 1
Vertical through slot the first fixture, the fiber array is vertically provided in the through slot, and by fastening stud fasten, and
The fiber end face of the fiber array stretches out the upper port of the through slot upwards.
The beneficial effect of above-mentioned further scheme is: through first fixture and in first fixture setting with
The through slot that the fiber array matches can be convenient and the fiber array is fixed and is dismantled, guarantees in bonding process
Middle fiber array will not be displaced, it is ensured that adhesive reinforcement, and effective protection can be carried out to the fiber array.
Further, the microscope assembly includes the first microscope above the fiber array and is located at the light
Second microscope of the fibre array far from first adjusting bracket side;
In the step 2, it is microscopical relative to first microscope and second that first adjusting bracket is adjusted respectively
Position, so that the fiber array is located in first microscope and the second microscopical visual field.
The beneficial effect of above-mentioned further scheme is: by first microscope and the second microscope, being convenient for from described
The opposite position of fiber array and optoisolator described in the unilateral observation of the top of fiber array and separate first adjusting bracket
It sets, consequently facilitating optoisolator to be accurately moved to the fiber end face position of corresponding fiber array, realize Dock With Precision Position.
Further, the degree of regulation of first adjusting bracket and the second adjusting bracket is not more than 0.5 μm, first microscope
With the second microscopical amplification factor less than 45, the air pressure range in the adsorption tube is -0.25~-0.4MP.
Detailed description of the invention
Fig. 1 is the adhering device structural schematic diagram of fiber array and optoisolator of the invention;
Fig. 2 is the partial enlargement structural representation in Fig. 1 at A;
Fig. 3 is the bonding top view of fiber array and optoisolator of the invention;
Fig. 4 is the bonding finished product structure schematic diagram of fiber array and optoisolator of the invention;
Fig. 5 is the technique for sticking flow diagram of fiber array and optoisolator of the invention.
In attached drawing, parts list represented by the reference numerals are as follows:
1, workbench, the 2, first adjusting bracket, the 3, second adjusting bracket, 4, fiber array, 5, adsorption tube, 6, optoisolator, 7,
First fixture, 8, fastening stud, the 9, first microscope, 10, first support, the 11, second microscope, 12, second support;
41, substrate, 112, V slot, 43, optical fiber, 44, cover board.
Specific embodiment
The principle and features of the present invention will be described below with reference to the accompanying drawings, and the given examples are served only to explain the present invention, and
It is non-to be used to limit the scope of the invention.
As shown in Figure 1-3, the adhering device of a kind of fiber array and optoisolator, including workbench 1, above-mentioned workbench 1
It is equipped with the first adjusting bracket 2, the second adjusting bracket 3 and microscope assembly, the upper end of above-mentioned first adjusting bracket 2 is equipped with fiber array 4,
And adjusting above-mentioned first adjusting bracket 2 can drive above-mentioned fiber array 4 to be moved in the field range of above-mentioned microscope assembly, it is above-mentioned
Second adjusting bracket 3 is located at the side of above-mentioned first adjusting bracket 2, and the upper end of above-mentioned second adjusting bracket 3 is equipped with towards above-mentioned light battle array
The adsorption tube 5 of column 4, the one end of above-mentioned adsorption tube 5 far from above-mentioned fiber array 4 is connected to external aspiration pump, when external aspiration pump
When work, negative pressure is formed in above-mentioned adsorption tube 5 and optoisolator 6 is adsorbed on to the other end of above-mentioned adsorption tube 5, and above-mentioned second
Adjusting bracket 3 can drive above-mentioned adsorption tube 5 that above-mentioned optoisolator 6 is driven to be moved at the fiber end face position of above-mentioned light array 4.
The adhering device of fiber array and optoisolator of the invention passes through the above-mentioned adjustable optical fiber array of first adjusting bracket
In column to the field range of microscope assembly, and optoisolator can be picked and placed by the negative pressure in adsorption tube, and adjust by second
Section frame driving optoisolator is moved at the fiber end face position of above-mentioned light array, and optical fiber may be implemented by microscope assembly
The Dock With Precision Position of array and optoisolator, greatly improves product quality, guarantees the consistency of product.
In one or more embodiment provided by the invention, the upper end of above-mentioned first adjusting bracket 2 is equipped with the first fixture 7, on
The through slot for being vertically equipped in the first fixture 7 and matching with above-mentioned fiber array 4 is stated, above-mentioned fiber array 4 is vertically provided at above-mentioned
In through slot, and the fiber end face of above-mentioned fiber array 4 stretches out the upper port of above-mentioned through slot upwards.By the way that above-mentioned first fixture is arranged
7 and the through slot to match with above-mentioned fiber array 4 is set in above-mentioned first fixture 7, can be convenient to above-mentioned fiber array into
Row is fixed and dismantles, and guarantees that fiber array will not be displaced during the bonding process, it is ensured that adhesive reinforcement, and to above-mentioned optical fiber
Array 4 can carry out effective protection.
Here, above-mentioned first adjusting bracket 2 can be existing three-dimensional adjustable shelf, and above-mentioned second adjusting bracket 3 is existing six
Adjusting bracket is tieed up, and the degree of regulation of above-mentioned first adjusting bracket 2 and the second adjusting bracket 3 is not more than 0.5 μm.
It is provided by the invention one or more embodiment in, above-mentioned first fixture 7 be equipped with fastening stud 8, above-mentioned first
Fixture 7 is equipped with the screw hole for being connected to above-mentioned through slot and matching with above-mentioned fastening stud 8, when above-mentioned fastening stud 8 screws in simultaneously
Above-mentioned fiber array 4 can be fixed in above-mentioned through slot when through above-mentioned screw hole.Can be convenient by above-mentioned fastening stud 8 will be upper
State fiber array 4 be fixed in above-mentioned through slot or after bonding bonding fiber array 4 is loose from above-mentioned through slot
Taking-up is opened, it is very convenient.
After the completion of bonding, above-mentioned fiber array 4 forms finished product with optoisolator 6, at this point, above-mentioned fastening stud 8 is unclamped,
Fiber array 4 after being bonded in this way can take out from above-mentioned through slot, very convenient, easy to operate.
In one or more embodiment provided by the invention, above-mentioned microscope assembly includes the first microscope 9 and first
Frame 10, above-mentioned first support 10 are arranged on above-mentioned workbench 1, and above-mentioned first support 10 is arranged in above-mentioned first microscope 9
Upper end, and above-mentioned first microscope 9 is located at the top of above-mentioned fiber array 4.Above-mentioned first is shown by above-mentioned first support 10
Micro mirror 9 supports the top that above-mentioned fiber array 4 is arranged in, convenient for passing through above-mentioned first microscope 9 above-mentioned optical fiber viewed from above
The fiber end face position of array 4 is convenient for and above-mentioned 6 Dock With Precision Position of optoisolator.
In one or more embodiment provided by the invention, above-mentioned microscope assembly further includes the second microscope 11 and second
Bracket 12, above-mentioned second support 12 is arranged on above-mentioned workbench 1, and above-mentioned second support 12 is located at above-mentioned first adjusting bracket 2
The other side, above-mentioned second microscope 11 is arranged in above-mentioned second support 12.By above-mentioned second support 12 by above-mentioned second
The support of microscope 11 setting, far from above-mentioned first adjusting bracket, 2 side, is convenient for passing through above-mentioned second microscope in above-mentioned fiber array 4
11 from side above-mentioned fiber array 4 and optoisolator 6 relative position, consequently facilitating optoisolator 6 is accurately mobile
To the fiber end face position of corresponding fiber array 4, Dock With Precision Position is realized.
It should be pointed out that above-mentioned first microscope 11 and the second microscope are electron microscope here, and the two
Amplification factor is not less than 45 times, adjusts the position of above-mentioned first adjusting bracket 2 and above-mentioned first microscope 11 and the second microscope 12
It sets, so that fiber array 4 is located in the field range of above-mentioned first microscope 11 and the second microscope 12, in this way above-mentioned
The display screen of first microscope 11 and the second microscope 12 can intuitively show fiber array 4, then the external pumping of starting
Pump forms negative pressure (air pressure range is -0.25~-0.4MP) in this way in above-mentioned adsorption tube 5, and optoisolator 6 is placed on
Adsorption tube 5 is stated close to one end of above-mentioned fiber array 4, above-mentioned second adjusting bracket 3 is adjusted, drives above-mentioned adsorption tube 5 to drive above-mentioned
Optoisolator 6 is close to above-mentioned fiber array 4, until above-mentioned optoisolator 6 is moved to above-mentioned first microscope 11 and second and shows
In the field range of micro mirror 12, and it is located at the fiber end face position of above-mentioned light array 4, and contacts in advance in above-mentioned light battle array
The solidified glue (shadowless glue) that the fiber end face position of column 4 is added dropwise, it is subsequent to use up (such as ultraviolet light) irradiation, such solidified glue
After solidification, above-mentioned fiber array 4 can strong bond with above-mentioned optoisolator 6.
In the embodiment of the present invention, above-mentioned fiber array 4 includes substrate 41, is arranged on aforesaid substrate 41 at equal intervals in parallel
Multiple V slots 42 on surface, the optical fiber 43 and cover board 44 being arranged in above-mentioned V slot 42 first lead to optical fiber 43 before bonding
It crosses in the V slot 42 that above-mentioned cover board 44 is fixed on above-mentioned basic 41, when bonding adjusts above-mentioned second adjusting bracket 3 and drives above-mentioned absorption
It is close that pipe 5 drives above-mentioned optoisolator 6 to carry out to the end of above-mentioned optical fiber 43, and contacts in advance in the end face of above-mentioned optical fiber 43 position
The solidified glue of dropwise addition is set, in this way under illumination condition, solidified glue solidifies, and above-mentioned fiber array 4 is with above-mentioned optoisolator 6
Can strong bond, as shown in Figure 4.
In one or more embodiment provided by the invention, array is provided with multiple fixation holes on above-mentioned workbench 1, above-mentioned
First adjusting bracket 2, the second adjusting bracket 3, first support 10 and second support 12 are movably arranged on by above-mentioned fixation hole above-mentioned
On workbench 1.Multiple fixation holes are provided with by the way that array is arranged, can eaily adjust above-mentioned first adjusting bracket 2, second
The relative position of adjusting bracket 3, first support 10 and second support 12, convenient for observing above-mentioned fiber array 4 by microscope assembly
With the relative position of optoisolator 6, the operating efficiency of entire technique is improved.
As shown in figure 5, the present invention also provides the technique for sticking of a kind of fiber array and optoisolator, including walk as follows
It is rapid:
Step 1: the first adjusting bracket 2, the second adjusting bracket 3 and microscope assembly being respectively set on workbench 1, respectively upper
It states and fiber array 4 and the adsorption tube 5 towards above-mentioned light array 4 is set on first adjusting bracket 2 and the second adjusting bracket 3, and upper
State at the fiber end face position of fiber array 4 solidified glue on point;
Step 2: the relative position of above-mentioned first adjusting bracket 2 and above-mentioned microscope assembly is adjusted, so that above-mentioned optical fiber array
Column 4 are shown in the field range of above-mentioned microscope assembly;
Step 3: starting external aspiration pump, and optoisolator 6 is placed on above-mentioned adsorption tube 5 close to above-mentioned fiber array 4
One end so that above-mentioned optoisolator 6 is adsorbed on above-mentioned adsorption tube 5 close to one end of above-mentioned fiber array 4;
Step 4: adjusting above-mentioned second adjusting bracket 3 to drive above-mentioned optoisolator 6 to be moved to the view of above-mentioned microscope assembly
In the range of field, continue to adjust above-mentioned second adjusting bracket 3 optical fiber end until above-mentioned optoisolator 6 is moved to above-mentioned light array 4
At the position of face and contact above-mentioned solidified glue;
Step 5: use up the above-mentioned solidified glue of irradiation, and solidify above-mentioned light array 4 is Nian Jie with above-mentioned optoisolator 6,
And external aspiration pump is closed, bonding finished product is removed and completes technique for sticking.
The technique for sticking of fiber array and optoisolator of the invention passes through the above-mentioned adjustable optical fiber array of first adjusting bracket
In column to the field range of microscope assembly, and optoisolator can be picked and placed by the negative pressure in adsorption tube, and adjust by second
Section frame driving optoisolator is moved at the fiber end face position of above-mentioned light array, and optical fiber may be implemented by microscope assembly
The Dock With Precision Position of array and optoisolator, and solidify fiber array and optoisolator under illumination condition, greatly improve product
Quality guarantees the consistency of product.
In one or more embodiment provided by the invention, in above-mentioned steps 1, set in the upper end of above-mentioned first adjusting bracket 2
The first fixture 7 with the vertical through slot to match with above-mentioned fiber array 4 is set, above-mentioned fiber array 4 is vertically provided at
It states in through slot, and is fastened by fastening stud 8, and the fiber end face of above-mentioned fiber array 4 stretches out the upper end of above-mentioned through slot upwards
Mouthful.The through slot to match with above-mentioned fiber array 4 is set through above-mentioned first fixture 7 and in above-mentioned first fixture 7, it can be with
It is convenient that above-mentioned fiber array is fixed and is dismantled, guarantee that fiber array will not be displaced during the bonding process, it is ensured that viscous
Precision is connect, and effective protection can be carried out to above-mentioned fiber array 4.
In one or more embodiment provided by the invention, above-mentioned microscope assembly includes being located on above-mentioned fiber array 4
The first square microscope 9 and the second microscope 10 positioned at above-mentioned fiber array 4 far from above-mentioned first adjusting bracket, 2 side, it is above-mentioned
The amplification factor of first microscope 9 and the second microscope 10 is less than 45;
In above-mentioned steps 2, above-mentioned first adjusting bracket 2 is adjusted respectively relative to above-mentioned first microscope 9 and the second microscope
10 position, so that above-mentioned fiber array 4 is located in the visual field of above-mentioned first microscope 9 and the second microscope 10.
By above-mentioned first microscope 9 and the second microscope 11, convenient for from the top of above-mentioned fiber array 4 and far from above-mentioned
The relative position of the unilateral observation of first adjusting bracket 2 above-mentioned fiber array 4 and optoisolator 6, consequently facilitating by optoisolator 6
It is accurately moved to the fiber end face position of corresponding fiber array 4, realizes Dock With Precision Position.
In one or more embodiment provided by the invention, the degree of regulation of above-mentioned first adjusting bracket 2 and the second adjusting bracket 3
No more than 0.5 μm, after starting external aspiration pump, the air pressure range formed in above-mentioned adsorption tube 5 is -0.25~-0.4MP.
The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all in spirit of the invention and
Within principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.
Claims (10)
1. the adhering device of a kind of fiber array and optoisolator, it is characterised in that: including workbench (1), the workbench (1)
It is equipped with the first adjusting bracket (2), the second adjusting bracket (3) and microscope assembly, the upper end of first adjusting bracket (2) is equipped with optical fiber
Array (4), and adjust the view that first adjusting bracket (2) can drive the fiber array (4) to be moved to the microscope assembly
In the range of field, second adjusting bracket (3) is located at the side of first adjusting bracket (2), the upper end of second adjusting bracket (3)
Equipped with the adsorption tube (5) towards the light array (4), one end far from the fiber array (4) of the adsorption tube (5) and outer
Aspiration pump connection in portion's forms negative pressure and is adsorbed on optoisolator (6) when outside is evacuated pump work in the adsorption tube (5)
The other end of the adsorption tube (5), and second adjusting bracket (3) can drive the adsorption tube (5) to drive the optoisolator
(6) it is moved at the fiber end face position of the light array (4).
2. the adhering device of fiber array according to claim 1 and optoisolator, it is characterised in that: described first is adjusted
The upper end of frame (2) is equipped with the first fixture (7), is vertically equipped in first fixture (7) and to match with the fiber array (4)
Through slot, the fiber array (4) is vertically provided in the through slot, and the fiber end face of the fiber array (4) stretches out upwards
The upper port of the through slot.
3. the adhering device of fiber array according to claim 2 and optoisolator, it is characterised in that: first fixture
(7) be equipped with fastening stud (8), first fixture (7) be equipped be connected to the through slot and with the fastening stud (8) phase
The fiber array (4) can be fixed on described by matched screw hole when the fastening stud (8) screw in and run through the screw hole
In through slot.
4. the adhering device of fiber array according to claim 1 and optoisolator, it is characterised in that: the micro- microscope group
Part includes the first microscope (9) and first support (10), and the first support (10) is arranged on the workbench (1), described
First microscope (9) is arranged in the upper end of the first support (10), and first microscope (9) is located at the fiber array
(4) top.
5. the adhering device of fiber array according to claim 4 and optoisolator, it is characterised in that: the micro- microscope group
Part further includes the second microscope (11) and second support (12), and the second support (12) is arranged on the workbench (1), and
The second support (12) is located at the other side of first adjusting bracket (2), and the second microscope (11) setting is described the
On two brackets (12).
6. the adhering device of fiber array according to claim 5 and optoisolator, it is characterised in that: the workbench
(1) array is provided with multiple fixation holes, first adjusting bracket (2), the second adjusting bracket (3), first support (10) and second on
Bracket (12) is movably arranged on the workbench (1) by the fixation hole.
7. the technique for sticking of a kind of fiber array and optoisolator, which comprises the steps of:
Step 1: the first adjusting bracket (2), the second adjusting bracket (3) and microscope assembly being respectively set on workbench (1), exists respectively
Fiber array (4) and the absorption towards the light array (4) are set on first adjusting bracket (2) and the second adjusting bracket (3)
It manages (5), and the solidified glue on point at the fiber end face position of the fiber array (4);
Step 2: the relative position of the first adjusting bracket (2) and the microscope assembly is adjusted, so that the fiber array
(4) it is shown in the field range of the microscope assembly;
Step 3: starting external aspiration pump, and optoisolator (6) is placed on the adsorption tube (5) close to the fiber array
(4) one end, so that the optoisolator (6) is adsorbed on the one end of the adsorption tube (5) close to the fiber array (4);
Step 4: adjusting second adjusting bracket (3) to drive the optoisolator (6) to be moved to the view of the microscope assembly
In the range of field, continue to adjust second adjusting bracket (3) until the optoisolator (6) are moved to the light array (4)
At fiber end face position and contact the solidified glue;
Step 5: use up the irradiation solidified glue, and solidify the light array (4) is Nian Jie with the optoisolator (6),
And external aspiration pump is closed, bonding finished product is removed and completes technique for sticking.
8. the technique for sticking of fiber array according to claim 7 and optoisolator, which is characterized in that in the step 1,
In the upper end of first adjusting bracket (2), setting has the first fixture of the vertical through slot to match with the fiber array (4)
(7), the fiber array (4) is vertically provided in the through slot, and is fastened by fastening stud (8), and the optical fiber array
The fiber end face of column (4) stretches out the upper port of the through slot upwards.
9. the technique for sticking of fiber array according to claim 7 or 8 and optoisolator, which is characterized in that described micro-
Mirror assembly includes the first microscope (9) being located above the fiber array (4) and is located at the fiber array (4) far from described
Second microscope (10) of the first adjusting bracket (2) side;
In the step 2, first adjusting bracket (2) is adjusted respectively relative to first microscope (9) and the second microscope
(10) position, so that the fiber array (4) is located at the visual field of first microscope (9) and the second microscope (10)
It is interior.
10. the technique for sticking of fiber array according to claim 9 and optoisolator, which is characterized in that described first adjusts
The degree of regulation of section frame (2) and the second adjusting bracket (3) is no more than 0.5 μm, first microscope (9) and the second microscope (10)
Amplification factor less than 45, air pressure range in the adsorption tube (5) is -0.25~-0.4MP.
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Cited By (3)
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CN115826162A (en) * | 2022-11-25 | 2023-03-21 | 讯芸电子科技(中山)有限公司 | Optical fiber structure and optical fiber array structure |
CN116027487A (en) * | 2023-03-29 | 2023-04-28 | 武汉驿路通科技股份有限公司 | Bonding device and method for isolator and optical fiber array |
CN117020984A (en) * | 2023-08-03 | 2023-11-10 | 武汉驿路通科技股份有限公司 | FA and isolator coupling clamp and coupling method |
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CN115826162A (en) * | 2022-11-25 | 2023-03-21 | 讯芸电子科技(中山)有限公司 | Optical fiber structure and optical fiber array structure |
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CN117020984A (en) * | 2023-08-03 | 2023-11-10 | 武汉驿路通科技股份有限公司 | FA and isolator coupling clamp and coupling method |
CN117020984B (en) * | 2023-08-03 | 2024-02-02 | 武汉驿路通科技股份有限公司 | FA and isolator coupling clamp and coupling method |
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Application publication date: 20190730 |