The content of the invention
In order to solve the above technical problems, a kind of fiber core docking matrix structure is the embodiment of the invention provides, so that light
Fine network system docks the docking friendship that matrix structure realizes fiber core when data exchange transmission is carried out by the fiber core
Change, and then realize the exchange of Optical Fiber Transmission data, greatly reduce artificial participation, save substantial amounts of manpower and materials.
To solve the above problems, following technical scheme is the embodiment of the invention provides:
A kind of fiber core docks matrix structure, including:
Base;
The first motor and the synchronous disk being fixed on the base, first motor drive the synchronization by Timing Belt
Disk rotates along preset direction;
Matrix bucket is docked with the synchronous disk is fixedly connected, the docking matrix bucket is hollow columnar structures, including gold
Category supporting construction and the plastic overmold structure positioned at the supporting construction outer surface, wherein, have on the wall of the supporting construction side
Multiple butt holes arranged in arrays with second direction in the first direction, have multiple along described the on the wall of the clad structure side
One direction and second direction butt hole arranged in arrays, butt hole and docking on the clad structure in the supporting construction
Hole corresponds, and on the matrix structure sidewall surfaces direction, the projection of the butt hole in the supporting construction
Projection with the butt hole on the clad structure overlaps;
Wherein, the first direction is the axial direction of the hollow columnar structures, and the second direction is located at the hollow posts
In the sidewall surfaces of shape structure, and perpendicular to the first direction.
Optionally, the multiple butt holes on the wall of the supporting construction side are uniformly distributed;It is many on the wall of the clad structure side
Individual butt hole is uniformly distributed.
Optionally, the supporting construction away from the clad structure side there is multiple to be arranged in parallel along the first direction
The first space bar, the multiple butt holes in the supporting construction are divided into multiple first and docked by first space bar
Groove, has a butt hole between adjacent first docking groove.
Optionally, the clad structure away from the supporting construction side there is multiple to be arranged in parallel along the second direction
The second space bar, the multiple butt holes in the clad structure are divided into multiple second and docked by second space bar
Groove, has a butt hole between adjacent second docking groove.
Optionally, the making material of the metal support structure is aluminium.
Optionally, the metal support structure is spliced by multiple sub- metal support structures.
Optionally, the plastic overmold structure is structure as a whole.
Optionally, what is set on the synchronous disk has multiple fixtures, the synchronous disk by the fixture with it is described
Docking matrix bucket is fixedly connected.
Optionally, four fixtures are provided with the synchronous disk, three fixations of arbitrary neighborhood in four fixtures
The triangle that part is constituted is isosceles right triangle.
Optionally, also include:
Cover plate, the cover plate is oppositely arranged with the base, positioned at the docking matrix bucket away from the side of the base;
Be arranged at the cover plate towards it is described docking matrix bucket side multiple keepers, the medial surface of the keeper with
The lateral surface of the docking matrix bucket is in contact.
Optionally, the cover plate is provided with three keepers, three keepers towards the docking matrix bucket side
Constitute an equilateral triangle.
Compared with prior art, above-mentioned technical proposal has advantages below:
The fiber core docking matrix structure that the embodiment of the present invention is provided includes:Base, it is fixed on the base
First motor and synchronous disk, first motor drive the synchronous disk to be rotated along preset direction by Timing Belt, same with described
The docking matrix bucket that step disk is fixedly connected, during specific works, the first electrode drives the synchronous disk along pre- by Timing Belt
Set direction rotates, and the synchronous disk drives the docking matrix bucket along preset direction synchronous rotary, so that the docking square
Battle array bucket can rotate along preset direction.
And, the docking matrix bucket includes metal support structure and the plastic overmold positioned at the supporting construction outer surface
Structure, wherein, the metal support structure is used to improve the intensity of the docking matrix bucket, it is to avoid the top of the docking matrix bucket
Compared to bottom run-off the straight, the plastic overmold structure is used to correct the shape of the metal support structure, makes at end
It is cylinder, in order to the docking of follow-up optical fiber.
In addition, having multiple docking arranged in arrays with second direction in the first direction on the wall of the supporting construction side
Hole, has multiple along the first direction and second direction butt hole arranged in arrays on the wall of the clad structure side, described
Butt hole is corresponded with the butt hole on the clad structure in supporting construction, and perpendicular to the docking matrix barrel side wall
In surface direction, the projection of the butt hole in the supporting construction overlaps with the projection of the butt hole on the clad structure, tool
When gymnastics is made, only need to be connected in two different butt holes for connecting the tail optical fiber of fiber core to be docked in advance, then lead to
The linker that control carries outside line fiber core to be docked is crossed, it is described right that outside line fiber core to be docked is transported to
Connect the position in hole, and will be during outside line fiber core be docked inserts the butt hole, you can complete outside line light long and slender
The docking of core, it is reasonable in design, it is simple to operate, artificial participation can be greatly reduced, save substantial amounts of manpower and materials.
Additionally, the docking matrix bucket is hollow columnar structures, each butt hole may be contained within its side wall, so as to identical
On the premise of quantity butt hole, the horizontal area occupied that the fiber core docks matrix structure is greatly reduced.
Specific embodiment
Just as described in the background section, generally jumping fiber is gone to operate to realize difference to scene using artificial in the prior art
Docking between optical fiber is exchanged, but is influenceed by the factors such as cumbersome of the disperseing of geographical position, Manual Switch operation, is caused
This manually operated alternative is wasted time and energy.
In view of this, a kind of fiber core docking matrix structure is the embodiment of the invention provides, including:
Base;
The first motor and the synchronous disk being fixed on the base, first motor drive the synchronization by Timing Belt
Disk rotates along preset direction;
Matrix bucket is docked with the synchronous disk is fixedly connected, the docking matrix bucket is hollow columnar structures, including gold
Category supporting construction and the plastic overmold structure positioned at the supporting construction outer surface, wherein, have on the wall of the supporting construction side
Multiple butt holes arranged in arrays with second direction in the first direction, have multiple along described the on the wall of the clad structure side
One direction and second direction butt hole arranged in arrays, butt hole and docking on the clad structure in the supporting construction
Hole corresponds, and on the matrix structure sidewall surfaces direction, the projection of the butt hole in the supporting construction
Projection with the butt hole on the clad structure overlaps;
Wherein, the first direction is the axial direction of the hollow columnar structures, and the second direction is located at the hollow posts
In the sidewall surfaces of shape structure, and perpendicular to the first direction.
During the fiber core docking matrix structure specific works that the embodiment of the present invention is provided, the first electrode is by same
Step band drives the synchronous disk to be rotated along preset direction, and the synchronous disk drives the docking matrix bucket synchronously to be revolved along preset direction
Turn, so that the docking matrix bucket can rotate along preset direction.
And, the docking matrix bucket includes metal support structure and the plastic overmold positioned at the supporting construction outer surface
Structure, wherein, the metal support structure is used to improve the intensity of the docking matrix bucket, it is to avoid the top of the docking matrix bucket
Compared to bottom run-off the straight, the plastic overmold structure is used to correct the shape of the metal support structure, makes at end
It is cylinder, in order to the docking of follow-up optical fiber.
In addition, having multiple docking arranged in arrays with second direction in the first direction on the wall of the supporting construction side
Hole, has multiple along the first direction and second direction butt hole arranged in arrays on the wall of the clad structure side, described
Butt hole is corresponded with the butt hole on the clad structure in supporting construction, and perpendicular to the docking matrix barrel side wall
In surface direction, the projection of the butt hole in the supporting construction overlaps with the projection of the butt hole on the clad structure, tool
When gymnastics is made, only need to be connected in two different butt holes for connecting the tail optical fiber of fiber core to be docked in advance, then lead to
The linker that control carries outside line fiber core to be docked is crossed, it is described right that outside line fiber core to be docked is transported to
Connect the position in hole, and will be during outside line fiber core be docked inserts the butt hole, you can complete outside line light long and slender
The docking of core, it is reasonable in design, it is simple to operate, artificial participation can be greatly reduced, save substantial amounts of manpower and materials.
Additionally, the docking matrix bucket is hollow columnar structures, each butt hole may be contained within its side wall, so as to identical
On the premise of quantity butt hole, the horizontal area occupied that the fiber core docks matrix structure is greatly reduced.
It is understandable to enable the above objects, features and advantages of the present invention to become apparent, below in conjunction with the accompanying drawings to the present invention
Specific embodiment be described in detail.
Elaborate detail in order to fully understand the present invention in the following description.But the present invention can with it is various not
It is same as other manner described here to implement, those skilled in the art can do class in the case of without prejudice to intension of the present invention
Like popularization.Therefore the present invention is not limited by following public specific implementation.
The embodiment of the invention provides a kind of fiber core docking matrix structure, as depicted in figs. 1 and 2, base 10;It is fixed
In the first motor 20 and synchronous disk 30 on the base 10, first motor 20 drives the synchronous disk by Timing Belt 40
30 rotate along preset direction;With the synchronous disk be fixedly connected dock matrix bucket 50, as shown in figure 3, it is described docking matrix bucket
50 is hollow columnar structures, including metal support structure 51 and the plastic overmold structure 52 positioned at the supporting construction outer surface,
Wherein, there are multiple butt holes 511 arranged in arrays with second direction in the first direction on the wall of the supporting construction side, it is described
There is multiple along the first direction and second direction butt hole 521 arranged in arrays, the support on the wall of clad structure side
Butt hole 511 is corresponded with the butt hole 521 on the clad structure in structure, and perpendicular to the docking matrix barrel side
On wall surface direction, the projection of the butt hole in the supporting construction overlaps with the projection of the butt hole on the clad structure.
It should be noted that in inventive embodiments, the first direction is the axial direction of the hollow columnar structures, is located at
Vertical direction in the hollow columnar structures sidewall surfaces, the second direction is located at the side wall table of the hollow columnar structures
In face, and perpendicular to the first direction, i.e., parallel to clockwise or counterclockwise.
During specific works, first motor drives the synchronous disk to be rotated along preset direction by Timing Belt, described same
Step disk drives the docking matrix bucket along preset direction synchronous rotary, so that the docking matrix bucket can be along preset direction
Rotate.Wherein, the preset direction can for clockwise, or counterclockwise, the present invention to this simultaneously
Do not limit, specifically depend on the circumstances.
In embodiments of the present invention, the metal support structure is used to improve the intensity of the docking matrix bucket, it is to avoid institute
The top of docking matrix bucket is stated compared to bottom run-off the straight, the plastic overmold structure is used for the metal support structure
Shape is corrected, and cylinder is, in order to the docking of follow-up optical fiber.
On the basis of above-described embodiment, in one embodiment of the invention, the multiple on the wall of the supporting construction side
Butt hole is uniformly distributed;Optionally, the multiple butt holes on the wall of the clad structure side are uniformly distributed.
In any of the above-described embodiment, the butt hole it is conveniently of circular shape, in other embodiments of the invention,
The shape of the butt hole can also be square or other shapes, and the present invention is not limited this, is determined on a case-by-case basis.
Below so that fiber core docking matrix structure is 24 cores docking matrix structure as an example, to embodiment of the present invention institute
The fiber core docking matrix structure of offer is described.It should be noted that those skilled in the art should be understood that this
The number of butt hole can be adjusted according to the external fiber number to be docked for accessing in embodiment, and the present invention does not do to this
Limit.Specifically, in the present embodiment, the docking matrix bucket includes 24 the first docking grooves, is set in each first docking groove
It is equipped with 24 butt holes.It should be noted that in embodiments of the present invention, with each first docking groove piece external fiber of correspondence
As a example by illustrate, but the present invention is not limited this, and in other embodiments of the invention, each first docking groove may be used also
With two external fibers of correspondence, specifically depend on the circumstances.
In practical operation, the side of the butt hole is linked together by tail optical fiber in advance, opposite side is used to insert
The linker of fixation outside line optical fiber one end to be docked, wherein, a tail optical fiber connects a pair of butt holes, i.e. the two of the root tail optical fiber
Side of the end respectively from the docking matrix bucket is inserted into a pair of butt holes.It should be noted that in embodiments of the present invention,
After each butt hole is linked together by tail optical fiber in the docking matrix bucket, each first docking in the multiple first docking groove
Groove is connected by a tail optical fiber with each first docking groove of residue.
During specific works, each one first docking groove of outside line optical fiber correspondence to be docked, when the docking matrix bucket
When maintaining static, the linker of fixed every outside line optical fiber to be docked can only be limited in the outside line optical fiber pair to be docked
Moved on the bearing of trend of the first docking groove answered, and can be only inserted into the butt hole of first docking groove, and it is immovable
Onto the bearing of trend of other the first docking grooves, i.e., in can not inserting the butt hole of other the first docking grooves.
When information between any two outside line optical fiber is carried out is exchanged, first in be respectively necessary for being docked two
A butt hole is searched out in corresponding first docking groove of root outside line optical fiber to be docked, partner butt hole, and this pair right
Connect hole to be connected by tail optical fiber from the side of the docking matrix bucket, opposite side is idle, and using this pair of butt hole as target
Butt hole;Then, will be respectively moved to each for the linker of the fixed two outside line optical fiber to be docked for needing and docking
In corresponding target butt hole, and inserted from idle one end, make the outer lines to be docked being fixed in described two linkers
Dock at two ends in the target butt hole that the end face of road optical fiber is inserted with it respectively from the tail optical fiber of opposite side insertion, you can complete two
The docking of root outside line optical fiber to be docked.
On the basis of any of the above-described embodiment, in one embodiment of the invention, in order to reduce the usage amount of tail optical fiber,
Multiple butt holes in the docking matrix bucket can also be connected by a pair of cord circuit linkers and by two cord circuit linkers
Tail optical fiber be connected, when specifically used, only a cord circuit linker in this pair of cord circuit linkers need to be moved to it is to be docked
At one butt hole, docked with the butt hole, then another cord circuit linker in this pair of cord circuit linkers is moved to treat
At another butt hole of docking, docked with another butt hole, you can realize waiting to dock two docking of butt hole.
It should be noted that in embodiments of the present invention, the docking matrix bucket can rotate along preset direction, so that
During specific works, difference can be realized using same tail optical fiber or with a pair of cord circuit linkers by rotating the docking matrix bucket
The docking of external fiber.
As can be seen here, the fiber core docking matrix structure that the embodiment of the present invention is provided, is entering in optical fiber network system
When row data exchange is transmitted, can realize that outside line light to be docked is long and slender by man-to-man butt hole in docking matrix bucket
The docking of core, and then the exchange of different outside line Optical Fiber Transmission data is realized, greatly reduce artificial participation, save a large amount of
Manpower and materials.
And, in the fiber core docking matrix structure that the embodiment of the present invention is provided, the docking matrix bucket is hollow
Column structure, each butt hole may be contained within its side wall, described so as on the premise of equal number butt hole, greatly reduce
Fiber core docks the horizontal area occupied of matrix structure.
On the basis of any of the above-described embodiment, in one embodiment of the invention, as shown in figure 4, the support knot
Structure 51 has multiple the first space bars 512 being be arranged in parallel along the first direction away from the clad structure side, and described the
Multiple butt holes 511 in the supporting construction are divided into multiple first docking grooves by one space bar, in the second direction
On, there is a butt hole between adjacent first docking groove, first space bar is facilitated the use to adjacent first
Docking groove enters between-line spacing, so as to avoid the circuit between adjacent external optical fiber from being intertwined using first space bar.
Similarly, in an alternate embodiment of the present invention where, as shown in figure 5, the clad structure 52 deviates from the support
Structure side has multiple the second space bars 522 being be arranged in parallel along the second direction, and second space bar is by the bag
The multiple butt holes 521 covered in structure are divided into multiple second docking grooves, in a first direction, adjacent second docking groove
Between there is a butt hole, between-line spacing is entered to the second adjacent docking groove with using second space bar, so that using the
Two space bars fix outside cord circuit linker.
On the basis of any of the above-described embodiment, in an alternate embodiment of the present invention where, the metal support structure
Making material be aluminium, but the present invention do not limited this, is specifically depended on the circumstances.
It should be noted that due to being limited by process conditions, metal material is difficult to be integrally formed, therefore in any of the above-described reality
Apply on the basis of example, in one embodiment of the invention, the metal support structure is spliced by multiple sub- metal support structures
Form, wherein, the present invention is not limited the quantity of the sub- metal support structure included by the metal support structure, as long as
The top view for ensureing the metal support structure that each sub- metal support structure splicing is completed is a closed figures.
Also, it should be noted that sub- metal support structure quantity included in the metal support structure is more, it is described
The included sub- metal support structure quantity in circle, the metal support structure of the top view of metal support structure is got over
Few, the manufacture craft of the metal support structure is simpler, specifically depends on the circumstances.
On the basis of any of the above-described embodiment, in one embodiment of the invention, the plastic overmold structure is one
Body structure, i.e., described plastic overmold structure is formed in one, so that the top view for ensureing the plastic overmold structure is circle, with
The top view shapes of the metal support structure are corrected using the plastic overmold structure so that the metal support knot
The top view of structure is also circle, and then causes that the top view for docking matrix bucket is circle.
On the basis of any of the above-described embodiment, in one embodiment of the invention, as illustrated in fig. 1 and 2, the synchronization
Multiple fixtures 60 are provided with disk, the synchronous disk is fixedly connected by the fixture 60 with the matrix bucket 50 that docks,
Optionally, the fixture matrix bucket that docks described with institute is fixedly connected by screw bolt and nut, but the present invention does not do to this
Limit, specifically depend on the circumstances.
On the basis of above-described embodiment, in an alternate embodiment of the present invention where, be provided with the synchronous disk to
Few three fixtures, specifically, in one embodiment of the invention, three fixtures are provided with the synchronous disk, with institute
State three fixtures for summit constitute triangle be acute angle or right angled triangle, it is preferred that with three fixtures for push up
The triangle of composition is put for equilateral triangle, but the present invention is not limited this, is specifically depended on the circumstances.
In another embodiment of the present invention, four fixtures are provided with the synchronous disk, it is preferred that described four
The triangle that three fixtures of arbitrary neighborhood are constituted in fixture is isosceles right triangle, in order in four fixtures
Any one fixture remove after still ensure that it is described docking matrix bucket stability.In other embodiments of the invention, institute
Stating can also set more fixtures on synchronous disk, the present invention is not limited this, is specifically depended on the circumstances.
On the basis of any of the above-described embodiment, in one embodiment of the invention, the fiber core docks matrix
Structure also includes:Cover plate, the cover plate is oppositely arranged with the base, positioned at the docking matrix bucket away from the one of the base
Side;Be arranged at the cover plate towards it is described docking matrix bucket side multiple keepers, the medial surface of the keeper with it is described
The lateral surface of docking matrix bucket is in contact, to utilize the keeper to the docking matrix bucket top (i.e. away from the base
One end) positioned, it is to avoid docking matrix bucket run-off the straight in rotary course.Optionally, the keeper with it is described
The surface that docking matrix bucket is in contact is smooth surface, to reduce the keeper with the friction docked between matrix bucket
Power.
On the basis of above-described embodiment, in one embodiment of the invention, the cover plate is towards the docking matrix
Bucket side is provided with three keepers, the triangle constituted as summit with three keepers as equilateral triangle, with raising
The effect positioned to docking matrix bucket top (i.e. away from described base one end) using the keeper.
In sum, the fiber core docking matrix structure that the embodiment of the present invention is provided includes:Base, be fixed on it is described
The first motor and synchronous disk on base, first motor drive the synchronous disk to be rotated along preset direction by Timing Belt,
Matrix bucket is docked with the synchronous disk is fixedly connected, during specific works, first motor drives described same by Timing Belt
Step disk rotates along preset direction, and the synchronous disk drives the docking matrix bucket along preset direction synchronous rotary, so that institute
Stating docking matrix bucket can rotate along preset direction.
And, the docking matrix bucket includes metal support structure and the plastic overmold positioned at the supporting construction outer surface
Structure, wherein, the metal support structure is used to improve the intensity of the docking matrix bucket, it is to avoid the top of the docking matrix bucket
Compared to bottom run-off the straight, the plastic overmold structure is used to correct the shape of the metal support structure, makes at end
It is cylinder, in order to the docking of follow-up optical fiber.
In addition, having multiple docking arranged in arrays with second direction in the first direction on the wall of the supporting construction side
Hole, has multiple along the first direction and second direction butt hole arranged in arrays on the wall of the clad structure side, described
Butt hole is corresponded with the butt hole on the clad structure in supporting construction, and perpendicular to the docking matrix barrel side wall
In surface direction, the projection of the butt hole in the supporting construction overlaps with the projection of the butt hole on the clad structure, tool
When gymnastics is made, only need to be connected in two different butt holes for connecting the tail optical fiber of fiber core to be docked in advance, then lead to
The linker that control carries outside line fiber core to be docked is crossed, it is described right that outside line fiber core to be docked is transported to
Connect the position in hole, and will be during outside line fiber core be docked inserts the butt hole, you can complete outside line light long and slender
The docking of core, it is reasonable in design, it is simple to operate, artificial participation can be greatly reduced, save substantial amounts of manpower and materials.
Additionally, the docking matrix bucket is hollow columnar structures, each butt hole may be contained within its side wall, so as to identical
On the premise of quantity butt hole, the horizontal area occupied that the fiber core docks matrix structure is greatly reduced.
Various pieces are described by the way of progressive in this specification, and what each some importance was illustrated is and other parts
Difference, between various pieces identical similar portion mutually referring to.
It should be noted that herein, such as first and second or the like relational terms are used merely to a reality
Body or operation make a distinction with another entity or operation, and not necessarily require or imply these entities or deposited between operating
In any this actual relation or order.And, term " including ", "comprising" or its any other variant be intended to
Nonexcludability is included, so that process, method, article or equipment including a series of key elements not only will including those
Element, but also other key elements including being not expressly set out, or also include being this process, method, article or equipment
Intrinsic key element.In the absence of more restrictions, the key element limited by sentence "including a ...", it is not excluded that
Also there is other identical element in process, method, article or equipment including the key element.
The foregoing description of the disclosed embodiments, enables professional and technical personnel in the field to realize or uses the present invention.
Various modifications to these embodiments will be apparent for those skilled in the art, as defined herein
General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, the present invention
Embodiment illustrated herein is not intended to be limited to, and is to fit to consistent with principles disclosed herein and features of novelty
Scope most wide.