CN106707417A - Optical fiber processing equipment - Google Patents
Optical fiber processing equipment Download PDFInfo
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- CN106707417A CN106707417A CN201510483354.0A CN201510483354A CN106707417A CN 106707417 A CN106707417 A CN 106707417A CN 201510483354 A CN201510483354 A CN 201510483354A CN 106707417 A CN106707417 A CN 106707417A
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- process equipment
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Abstract
The invention provides optical fiber processing equipment used for assembling an optical cable connector with an optical fiber connector. The optical fiber processing equipment comprises a shell which is defined as a box body, a tray assembly which is installed in the box body and is used for holding the optical fiber connector, an optical cable which is preliminarily connected to the optical fiber of the optical fiber connector, and multiple protection components installed on the optical cable, a conveying device which is installed in the box body and orderly conveys the protection components to the preliminary connection part of the optical fiber of the optical fiber connector and the optical fiber of the optical cable, and a heating device which is installed in the box body and is used for heating at least one protection component conveyed to the preliminary connection part such that the heated protection component has thermal shrinkage. The installation of a first thermal shrinkage tube, an elastic tube and a second thermal shrinkage tube can be realized, the first thermal shrinkage tube and the second thermal shrinkage tube are heated, and thus the efficiency assembling the optical fiber connector is improved.
Description
Technical field
Embodiments of the invention are related to a kind of fibre-optical process equipment, more particularly, it relates to one kind has for assembling
The fibre-optical process equipment of the fiber cable joint of the joints of optical fibre.
Background technology
During joint connection in site is carried out to the optical cable for entering the users such as office, family, first by optical cable
User scene is applied to, the optical fiber of optical cable is continued, made by operating personnel with the optical fiber of the joints of optical fibre again
The optical fiber of optical cable is optically coupled to the joints of optical fibre, so as to form the fiber cable joint with the joints of optical fibre;Afterwards,
The joints of optical fibre for connecting fiber cable joint are tied with the joints of optical fibre of the photoelectric conversion device of user terminal again
Close, so as to realize fiber entering household.Therefore, this fiber cable joint is to form assembling in user to be formed.
Usually, optical cable is including the fiber cores (also referred to as glass core) positioned at center, outside fiber cores
Coating (cladding) and positioned at outermost protective layer.By the optical fiber and the joints of optical fibre of optical cable
Optical fiber continued before, it is necessary to the protective layer at the fibre junction end of optical cable and coating are removed so that
Expose bare fibre to be continued.On the other hand, the optical fiber of the joints of optical fibre is pre-installed in the joints of optical fibre,
And expose the bare fibre of predetermined length.Can be by the way of thermal welding by the optical fiber and the joints of optical fibre of optical cable
Optical fiber tentatively continued.It is the intensity and the stability of physical property of the preliminary optical fiber for continuing of enhancing, needs
Multiple protection components to be installed at the position tentatively continued, to form constitutionally stable fiber cable joint.
In the prior art, by the optical fiber of optical cable and the light of the joints of optical fibre typically in a thermal welding equipment
Fibre is tentatively continued, and the optical fiber of preliminary welding is transferred in another operation equipment again then, with successively
Multiple protection components are installed, and ultimately form fiber cable joint.In the process and peace of the preliminary optical fiber for continuing of transfer
During dress protection component, because optical fiber is easily bent, if misoperation, may cause tentatively to continue
Optical fiber situations such as dislocation occurs, disconnects, so as to produce bad connection, and then influence the transmission of optical signal.
The content of the invention
The purpose of the present invention aims to solve the problem that at least one side of the above-mentioned problems in the prior art and defect
Face.
It is an object of the present invention to provide a kind of fibre-optical process equipment, the optical fiber for tentatively continuing can be entered
Row positioning, and successively by the preliminary position continued of multiple protection component to optical fiber.
According to an aspect of the present invention, there is provided a kind of fibre-optical process equipment, for being assembled into optical fiber company
The fiber cable joint of device is connect, the fibre-optical process equipment includes:Housing, is configured to be defined as a casing;
Pallet component, in the casing, is configured for keeping the joints of optical fibre and the joints of optical fibre
The preliminary optical cable for continuing of optical fiber and the multiple protection components on optical cable;Conveying device, installs
In the casing, it is configured to be fed sequentially into the protection component optical fiber and optical cable of the joints of optical fibre
The preliminary position continued of optical fiber;And heater, in the casing, it is right to be configured for
Heated with being transported at least one of described preliminary protection component at position for continuing, so as to be heated
Protection component produce pyrocondensation.
Fibre-optical process equipment according to an embodiment of the present, also including the peace in the casing
Frame up frame, and the installation frame includes:Longitudinal wall, and the first horizontal wall and the second horizontal wall,
It is separately mounted to both sides of longitudinal wall and vertical with longitudinal wall.
Fibre-optical process equipment according to an embodiment of the present, also including being removably mounted on the support
Primary Location device on disk component, the Primary Location device includes:First holding meanss, are configured to
For keeping the joints of optical fibre;Second holding meanss, are configured for keeping the optical cable;And
3rd holding meanss, are arranged between first holding meanss and the second holding meanss, and are configured to use
In the holding protection component.
Fibre-optical process equipment according to an embodiment of the present, the pallet component includes:Support plate,
It is slidably mounted in a lateral direction between the described first horizontal wall and the second horizontal wall;First peace
Mounting mechanism, in the support plate, is configured for removably installing first holding meanss;
Second installing mechanism, in the support plate, is configured for removably installing second guarantor
Hold device;And the 3rd installing mechanism, in the support plate, it is configured for removably pacifying
Fill the 3rd holding meanss.
Fibre-optical process equipment according to an embodiment of the present, the Primary Location device also includes support
Framework, including the first binding end for removably being combined with first holding meanss and the second holding meanss
The second binding end for removably combining and the handle between the first binding end and the second binding end.
Fibre-optical process equipment according to an embodiment of the present, the protection component includes:First pyrocondensation
Pipe, installed in the position of continuing of the optical fiber of the optical fiber and optical cable of the joints of optical fibre;Elastic tube, is arranged on
The outside of first heat-shrink tube;And second heat-shrink tube, installed in the outside of the elastic tube.3rd protects
Hold the first halfbody that device includes in the support plate and separably combined with first halfbody
Second halfbody, first halfbody combined with the second body with formed respectively with first heat-shrink tube, elasticity
The accommodating chamber of the exterior contour matching of pipe, the second heat-shrink tube and optical cable.
Fibre-optical process equipment according to an embodiment of the present, first halfbody is provided with multiple guiding
Post, described the second half form multiple bullports for coordinating with the guide post respectively in vivo.
Fibre-optical process equipment according to an embodiment of the present, on first halfbody and the second halfbody
At least one drive hole is respectively equipped with, the 3rd installing mechanism includes two groups of drive pins, each described driving
Pin is inserted into corresponding drive hole from the bottom of the support plate through the support plate.
Fibre-optical process equipment according to an embodiment of the present, the support plate be provided with it is multiple with it is described
The corresponding slit of drive hole, the slit extends along the direction that is transversely to the longitudinal direction perpendicular to optical cable, often
The individual drive pin is inserted into corresponding drive hole through the slit, to allow the drive pin described
Transverse shifting in slit, so that the first halfbody and the second halfbody are away from each other.
Fibre-optical process equipment according to an embodiment of the present, the pallet component also includes being arranged on institute
State the drive mechanism of support plate bottom, be configured for driving first halfbody and the second body each other from
Open, to discharge first heat-shrink tube, elastic tube and the second heat-shrink tube.
Fibre-optical process equipment according to an embodiment of the present, the drive mechanism includes:Two movements
Block, it is corresponding with first halfbody and the second body respectively installed in the bottom of the support plate, two groups
The drive pin is separately mounted on the movable block, two movable blocks be configured to move away from each other or
Movement close to each other, so as to drive first halfbody and the second body to open or close.
Fibre-optical process equipment according to an embodiment of the present, the drive mechanism also includes:Cam machine
Structure, is installed in rotation on the support plate bottom and is located between two movable blocks by pivot;Two
Individual first guiding bar, between two lower walls of support plate, and through two movable blocks;With
And multiple back-moving springs, on the described first guiding bar and positioned between the lower wall and movable block.
Fibre-optical process equipment according to an embodiment of the present, drive mechanism also includes driving handle, peace
On the pivot of the cam mechanism, to drive the cam mechanism to rotate.
Fibre-optical process equipment according to an embodiment of the present, the drive mechanism also includes:First
Thick stick, between two lower walls of support plate, and is screwed respectively with two movable blocks;With
And first motor, it is configured for driving the first leading screw rotation.
Fibre-optical process equipment according to an embodiment of the present, second halfbody and the second body are used
Magnetic attraction or snap are combined together.
Fibre-optical process equipment according to an embodiment of the present, also including guide rail mechanism, installed in described
The bottom of pallet component, is slidably connected with installation frame.
Fibre-optical process equipment according to an embodiment of the present, the conveying device includes:Mobile main body,
It is movably mounted in a longitudinal direction on the installation frame;And clamping device, installed in the shifting
In dynamic main body, and it is configured for clamping in the protection component.
Fibre-optical process equipment according to an embodiment of the present, conveying device also includes:Second leading screw,
It is rotatably installed between the described first and second horizontal walls, and is combined with the mobile main body screw;
Second motor, on the described first horizontal wall, and it is described second to be configured for driving
Thick stick rotates, so as to drive the conveying device to move back and forth in a lateral direction;And at least one second draw
Guide rod, between the described first and second horizontal walls, and through the mobile main body, to guide
State mobile main body movement.
Fibre-optical process equipment according to an embodiment of the present, the clamping device includes:First clamping
Arm;Second clamping limb, is configured for coordinating with first clamping limb clamping a protection component;
And first driving means, be configured for driving first clamping limb and the second clamping limb open or
Closure.
Fibre-optical process equipment according to an embodiment of the present, the first driving means include:3rd
Motor, in the mobile main body;Driving wheel, turns under the driving of the 3rd motor
It is dynamic;First driven pulley, engages with the driving wheel, and is connected with first clamping limb, described to drive
First clamping limb is moved;And second driven pulley, engaged with first driven pulley, and with the described second folder
Gripping arm is connected, to drive second clamping limb to move.
Fibre-optical process equipment according to an embodiment of the present, first clamping limb and the second clamping limb
On be designed with depressed part.
Fibre-optical process equipment according to an embodiment of the present, the heater includes:Upper heating part
And the lower heating part relative with the upper heating part, it is right that the upper heating part is configured for lower heating part
A clamping protection component between is heated.
Fibre-optical process equipment according to an embodiment of the present, the heater also includes:Branch support group
Seat, on longitudinal wall of the installation frame, the upper heating part is arranged on described with lower heating part
The front portion of installation pedestal;And second drive device, on the support pedestal and it is configured for
Drive the upper heating part close to each other with lower heating part or away from each other.
Fibre-optical process equipment according to an embodiment of the present, second drive device includes:4th
Motor;Gear, in being rotated by for the 4th motor;Two tooth bars, in the gear
Both sides engaged with the gear and extended in the height direction, the upper heating part is pacified respectively with lower heating part
On two tooth bars so that drive two tooth bars to move in the opposite direction during the pinion rotation
It is dynamic.
In fibre-optical process equipment according to an embodiment of the present, the upper heating part and lower heating part
Each include:Supportive body, in the tooth bar;Electrical heating elements, are arranged on
On the supportive body;And elastic heat conducting portion, on the supportive body and cover the electrical heating
Element.
Fibre-optical process equipment according to an embodiment of the present, the heater is configured in transverse direction
Moved back and forth on direction.
Fibre-optical process equipment according to an embodiment of the present, the heater also includes:Supporting plate,
On longitudinal wall;3rd leading screw, is rotatably installed in the described first horizontal wall and support
Between plate, and combined with the support base thread;And the 5th motor, installed in the supporting plate
On, and be configured for driving the 3rd leading screw rotation, so as to drive the heater in horizontal side
Move back and forth upwards.
Fibre-optical process equipment according to an embodiment of the present, the heater also includes at least one
3rd guiding bar, between the described first horizontal wall and supporting plate, the 3rd guiding bar passes through institute
Support pedestal is stated, to guide the heater to move.
Fibre-optical process equipment according to an embodiment of the present, also including the power supply electricity in casing
Source.
Fibre-optical process equipment using above-mentioned various embodiments of the invention can will include the first pyrocondensation
Pipe, elastic tube and the second heat-shrink tube are arranged on the optical fiber for tentatively continuing in interior protection component, so as to form tool
There are the joints of optical fibre of optical cable.The fibre-optical process equipment can be realized to the first heat-shrink tube, elastic tube and the second heat
The installation of the draw, and the first heat-shrink tube and the second heat-shrink tube are heated so that the first heat-shrink tube and second
Heat-shrink tube produces pyrocondensation effect, improves bond strength, so as to improve the efficiency of assembling optical fiber connector,
And improve the performance of the joints of optical fibre.
By the description made for the present invention of below with reference to accompanying drawing, other objects and advantages of the present invention will be aobvious
And be clear to, and can help that complete understanding of the invention will be obtained.
Brief description of the drawings
Fig. 1 is the optical cable for being provided with the joints of optical fibre of the embodiment for showing an exemplary of the invention
The schematic perspective view of joint;
Fig. 2 is the longitudinal sectional view for showing the fiber cable joint shown in Fig. 1;
Fig. 3 is provided with the optical cable of protection component in advance solid before being shown in being connected to the joints of optical fibre is shown
It is intended to;
Fig. 4 is the side view for showing optical cable shown in Fig. 3;
Fig. 5 is the three-dimensional signal of the fibre-optical process equipment of the embodiment for showing an exemplary of the invention
Figure;
Fig. 6 is to show that the fibre junction auxiliary equipment of the embodiment for utilizing an exemplary of the invention will
The preliminary optical fiber for continuing is arranged on the schematic perspective view on the fibre-optical process equipment shown in Fig. 5;
Fig. 7 be shown in removing the support frame of fibre junction auxiliary equipment in the case of Fig. 6 after it is vertical
Body schematic diagram;
Fig. 8 is to show to install a kind of interim component of exemplary embodiment of the invention and support frame
Schematic perspective view when on pallet component;
Fig. 9 removes schematic perspective view during support frame in the case of being shown in Fig. 8;
Figure 10 opens schematic perspective view during three holding meanss in the case of being shown in Fig. 9;
Figure 11 is shown a kind of schematic perspective view of the interim component of exemplary embodiment of the invention;
Figure 12 is the schematic perspective view for showing interim component shown in Figure 11 when the 3rd holding meanss are opened;
Figure 13 is the close-up schematic view for showing Figure 12;
Figure 14 is the schematic perspective view of the pallet component for showing a kind of exemplary embodiment of the invention;
Figure 15 is another schematic perspective view for showing the pallet component shown in Figure 14, and the 3rd is shown in figure
Holding meanss;
Figure 16 is that the solid of the bottom of the pallet component of the embodiment for showing an exemplary of the invention is shown
It is intended to;
Figure 17 is to show schematic perspective view when utilizing the fibre-optical process equipment assembling optical cable joint shown in Fig. 5,
The wherein position for having been moved to the 3rd holding meanss of conveying device;
Figure 18 is the close-up schematic view on the top for showing Figure 17;
Figure 19 is to show schematic perspective view when utilizing the fibre-optical process equipment assembling optical cable joint shown in Fig. 5,
Wherein the clamping device of conveying device is tentatively clamped on the first heat-shrink tube;
Figure 20 is the schematic perspective view of the heater for showing a kind of exemplary embodiment of the invention;
Figure 21 is another schematic perspective view for showing the heater shown in Figure 20;
Figure 22 is another schematic perspective view for showing the heater shown in Figure 20;
Figure 23 is that the clamping device of the conveying device for showing a kind of exemplary embodiment of the invention is opened
Schematic perspective view;
Figure 24 is another schematic perspective view for showing the conveying device shown in Figure 23;
Figure 25 is the schematic perspective view of the clamping device closure for showing the conveying device shown in Figure 23;
Figure 26 is another schematic perspective view for showing the conveying device shown in Figure 24;
Figure 27 is to show schematic perspective view when utilizing the fibre-optical process equipment assembling optical cable joint shown in Fig. 5,
Wherein the first heat-shrink tube has been transported to the preliminary position continued of optical fiber, and housing is removed;
Figure 28 is the close-up schematic view of the left part for showing Figure 27;
Figure 29 is to show schematic perspective view when utilizing the fibre-optical process equipment assembling optical cable joint shown in Fig. 5,
Wherein the first heat-shrink tube is in the state of being heated, and housing is removed;
Figure 30 is the close-up schematic view of the left part for showing Figure 29;
Figure 31 is to show schematic perspective view when utilizing the fibre-optical process equipment assembling optical cable joint shown in Fig. 5,
Wherein elastic tube is in and is conveyed through in journey, and housing is removed;
Figure 32 is the close-up schematic view of the left part for showing Figure 31;
Figure 33 is to show schematic perspective view when utilizing the fibre-optical process equipment assembling optical cable joint shown in Fig. 5,
Wherein elastic tube is conveyed on mounted first heat-shrink tube, and housing is removed;
Figure 34 is to show schematic perspective view when utilizing the fibre-optical process equipment assembling optical cable joint shown in Fig. 5,
Wherein the clamping device of conveying device is tentatively clamped on the second heat-shrink tube;
Figure 35 is the close-up schematic view of the left part for showing Figure 34;
Figure 36 is to show schematic perspective view when utilizing the fibre-optical process equipment assembling optical cable joint shown in Fig. 5,
The clamping device of wherein conveying device is tentatively clamped on elastic tube;
Figure 37 is the close-up schematic view of the left part for showing Figure 36;
Figure 38 is to show schematic perspective view when utilizing the fibre-optical process equipment assembling optical cable joint shown in Fig. 5,
Wherein the second heat-shrink tube is in the state of being heated, and housing is removed;And
Figure 39 is the close-up schematic view of the left part for showing Figure 38.
Specific embodiment
Below by embodiment, and with reference to accompanying drawing, technical scheme is described in further detail.
In the description, same or analogous drawing reference numeral indicates same or analogous part.It is following right referring to the drawings
The explanation of embodiment of the present invention is intended to explain present general inventive concept of the invention, without should be understood
It is to a kind of limitation of the invention.
In addition, in the following detailed description, for ease of explaining, elaborating many concrete details to provide
To the comprehensive understanding of present disclosure embodiment.It should be apparent, however, that one or more embodiments are specific without these
Can also be carried out in the case of details.In other cases, known construction and device is diagrammatically
Embody to simplify accompanying drawing.
General technical design of the invention, there is provided a kind of fibre-optical process equipment, for being assembled into tool
There is the fiber cable joint of the joints of optical fibre, the fibre-optical process equipment includes:Housing, is configured to be defined as one
Individual casing;Pallet component, in the casing, is configured for keeping the joints of optical fibre and light
The preliminary optical cable for continuing of the optical fiber of fiber connector and the multiple protection components on optical cable;Conveying dress
Put, in the casing, be configured to be fed sequentially into the protection component light of the joints of optical fibre
The position that the fine optical fiber with optical cable tentatively continues;And heater, in the casing, it is constructed
Into for being heated with being transported at least one of described preliminary protection component at position for continuing, with
Heated protection component is set to produce pyrocondensation.
Fig. 1 is the optical cable for being provided with the joints of optical fibre of the embodiment for showing an exemplary of the invention
The schematic perspective view of joint 2000;Fig. 2 is the longitudinal sectional view for showing the fiber cable joint shown in Fig. 1.Utilize
The combination of fibre-optical process equipment 1000 according to an embodiment of the invention can be assembled into shown in Fig. 1 and be provided with light
The fiber cable joint 2000 of fiber connector.
As illustrated in figs. 5-7, fibre-optical process equipment 1000 mainly includes surrounding housing 6, the peace of a body structure
Optical fiber ablation equipment 400 and optical fiber mounted in the top of housing 6 cut equipment 500.
Referring to Fig. 1-2, usually, by the optical fiber 202 of the optical fiber 301 of optical cable 300 and the joints of optical fibre 200
, it is necessary to the protective layer 302 and coating 303 at the fibre junction end of optical cable 300 are removed before being continued,
So as to expose optical fiber 301 to be continued.On the other hand, the optical fiber 202 of the joints of optical fibre 200 is pre-installed in
In the joints of optical fibre 200, and expose the optical fiber 202 of predetermined length.Can be by the way of thermal welding by optical cable
300 optical fiber 301 is tentatively continued with the optical fiber 202 of the joints of optical fibre 200 at position 203 of continuing, from
And form the preliminary optical fiber for continuing.
It is the preliminary intensity of optical fiber for continuing of enhancing and the stability of physical property, it is necessary in the portion for tentatively continuing
Position is installed by multiple protection components.As shown in Figure 3-4, these protection components include:It is made up of thermoplastic
First heat-shrink tube 401, installed in the optical fiber 202 of the joints of optical fibre 200 and connecing for the optical fiber 301 of optical cable 300
Continuous position 203;Elastic tube 402, installed in the outside of first heat-shrink tube 401;And second heat-shrink tube
403, installed in the outside of elastic tube 402.Further, protection component also includes tail sleeve 404, from optical cable
300 protective layer 302 is socketed on the second heat-shrink tube 403 and is connected to the housing 202 of the joints of optical fibre 200.
Fig. 5 is the solid of the fibre-optical process equipment 1000 of the embodiment for showing an exemplary of the invention
Schematic diagram;Fig. 6 is to show set using the fibre junction auxiliary of the embodiment of an exemplary of the invention
Standby 1000 the optical fiber for tentatively continuing is arranged on the schematic perspective view on the fibre-optical process equipment shown in Fig. 5;Figure
7 be shown in removing the support frame of fibre junction auxiliary equipment in the case of Fig. 6 after three-dimensional illustrate
Figure.Fig. 9 removes schematic perspective view during support frame in the case of being shown in Fig. 8;Figure 10 is shown in
Schematic perspective view during three holding meanss is opened in the case of Fig. 9;
As shown in Fig. 5-6,9 and 10, a kind of exemplary embodiment of the invention, there is provided at a kind of optical fiber
Reason equipment 1000, for being assembled into the fiber cable joint 2000 with the joints of optical fibre 200 as shown in Figure 1,
The fibre-optical process equipment 1000 includes:Housing 6, is configured to be defined as a casing;Pallet component 4,
In the casing, it is configured for keeping the light of the joints of optical fibre 200 and the joints of optical fibre 200
The fine 202 preliminary optical cable 300 for continuing and the multiple protection components on optical cable 300;Conveying device
7, in the casing, it is configured to for the protection component to be fed sequentially into the joints of optical fibre 200
Optical fiber 202 and the preliminary position 203 of continuing of the optical fiber 301 of optical cable 300;And heater 9, installed in institute
State in casing, be configured for to be transported in the protection component at the preliminary position 203 of continuing extremely
Few one is heated, so that heated protection component produces pyrocondensation.
Figure 11 is shown a kind of schematic perspective view of the interim component of exemplary embodiment of the invention;
Figure 12 is the schematic perspective view for showing interim component shown in Figure 11 when the 3rd holding meanss are opened;Figure 13
It is the close-up schematic view for showing Figure 12.
As figs 11-13, a kind of fibre-optical process equipment 1000 of exemplary embodiment of the invention is gone back
Including the Primary Location device being removably mounted on the pallet component 4, for shifting and positioning optical fiber
Connector 200, the protection component on the optical fiber 301 of optical cable 300 and with the joints of optical fibre 200
The optical fiber 301 that passes through the preliminary optical cable 300 for continuing of fusion splicing devices of optical fiber 202.The Primary Location device bag
Include:First holding meanss 1, are configured for keeping being mounted with advance the joints of optical fibre 200 of optical fiber
Expose the joints of optical fibre 200 in one end of optical fiber 202;Second holding meanss 2, are configured for keeping described
Optical cable 300, the optical fiber of the optical cable 300 tentatively continues with the optical fiber of the joints of optical fibre;And the 3rd keep
Device 3, is arranged between the holding meanss 2 of first holding meanss 1 and second, and is configured for protecting
Hold the protection component including the first heat-shrink tube 401, the heat-shrink tube 403 of elastic tube 402 and second.
Before preliminary subsequent operations are performed, cut using the optical fiber on fibre-optical process equipment 1000 and set
Protective layer 302 outside optical cable 300 is cut and removed by standby 500, recycles optical fiber ablation equipment by optical fiber
Coating 303 outside core is peeled off, and exposes optical fiber 301 to be continued;Afterwards, as shown in Figures 3 and 4, according to
It is secondary that tail sleeve 404, the second heat-shrink tube 403, the heat-shrink tube 401 of elastic tube 402 and first are enclosed within light to be continued
On cable 300;Afterwards, the first holding meanss 1 are arranged on the joints of optical fibre 200 with optical fiber 202,
Second holding meanss are arranged on optical cable 300 in the outside of protection component, using the 3rd holding meanss at least
Fix the second heat-shrink tube 403, the heat-shrink tube 401 of elastic tube 402 and first;Afterwards, in fibre junction equipment
The optical fiber 301 of optical cable 300 is routed on the optical fiber 202 of the joints of optical fibre 200 by the way of thermal welding,
So as to form interim component as shown in figure 11.
Fig. 8 is to show to pacify the interim component and support frame 5 of a kind of exemplary embodiment of the invention
Schematic perspective view when on pallet component.As shown in figure 8, Primary Location device also includes support frame 5,
Can including the first binding end 52 removably combined with first holding meanss 1 and the second holding meanss
The second binding end 53 for releasably combining and between the first binding end 52 and the second binding end 52
Handle 51.Support frame 5 has generally u-shaped, is so easy to operating personnel to grasp handle 51.
In a kind of embodiment, the first binding end 52 and first holding meanss of support frame 5 pass through snap
With reference to.Second binding end 53 and the second holding meanss 2 of support frame 5 use magnetic attraction or buckle side
Formula is combined together.
In the case of the interim component shown in Figure 11, by the first binding end 52 and second of support frame 5
Binding end 53 is respectively installed in the first holding meanss 1 and the second holding meanss 2, so as to be formed such as Fig. 8 institutes
The structure shown.In this case, it is possible to hand-held handle 51 and lift whole interim component, can so prevent
The position 203 of continuing of optical fiber 301 and 202 will not be damaged due to being impacted, for example, avoiding generation
Partly or completely disconnect, dislocation etc. bad phenomenon.Will be entirely interim it is possible to further hand-held handle 51
Component is transferred on the pallet component 4 of fibre-optical process equipment 1000, to perform the installation of follow-up protection component
Program (described in detail below).
A kind of exemplary embodiment of the invention, referring to Fig. 5-6, fibre-optical process equipment 1000 also includes
Installation frame 8 in the casing, the installation frame 8 includes:In longitudinal direction and short transverse
Longitudinal wall 81 of upper extension, and the first horizontal horizontal wall 83 of wall 82 and second, first is laterally vertical
The horizontal wall 83 of wall 82 and second be separately mounted to the both sides of longitudinal wall 81 and with longitudinal wall
81 is vertical, so as to form generally U-shaped structure.Housing 6 is for example installed by the connection member of bolt etc
In the outside of installation frame 8, the door 61 for allowing to expose pallet component 4 is provided with housing 6.
Figure 14 is the schematic perspective view of the pallet component for showing a kind of exemplary embodiment of the invention;Figure
15 is another schematic perspective view for showing the pallet component shown in Figure 14, and the 3rd holding meanss are shown in figure.
In a kind of exemplary embodiment, referring to Fig. 8-9,14-15 and 28-29, the pallet component 4 includes:Branch
Support plate 41, is slidably mounted in the described first horizontal horizontal wall of wall 81 and second in a lateral direction
Between 82;First installing mechanism 42, in the support plate 41, is configured for removably
First holding meanss 1 are installed;Second installing mechanism 43, in the support plate 41, is constructed
Into for removably installing second holding meanss 2;And the 3rd installing mechanism, installed in the support
On disk 41, it is configured for that the 3rd holding meanss 3 are removably installed.
As shown in Figures 12 and 13, in a kind of exemplary embodiment, the 3rd holding meanss 3 include being arranged on
The first halfbody 31 in support plate 41 and the second halfbody 32 matched with first halfbody, described the first half
Body 31 combined with the second body 32 with formed respectively with first heat-shrink tube 401, elastic tube 402, second
The accommodating chamber of the exterior contour matching of heat-shrink tube 403 and optical cable 300.So, the first heat-shrink tube 401, elasticity
The heat-shrink tube 403 of pipe 402 and second is maintained in the 3rd holding meanss 3, it is to avoid the first heat-shrink tube 401, bullet
The property heat-shrink tube 403 of pipe 402 and second is moved along optical cable 300 in operation.
Further, the first halfbody 31 is provided with multiple guide posts 311, second halfbody 32 and forms many
The individual bullport 321 for coordinating with the guide post 311 respectively.The body 32 of second halfbody 31 and second is adopted
It is combined together with magnetic attraction or snap, to firmly hold the first heat-shrink tube 401, elastic tube
402 and second heat-shrink tube 403.
Figure 16 is that the solid of the bottom of the pallet component of the embodiment for showing an exemplary of the invention is shown
It is intended to.In one embodiment, as shown in Fig. 8-10,13 and 16, the pallet component 4 also includes installing
In the drive mechanism 44 of the bottom of the support plate 41, drive mechanism 44 is configured for driving described first
The body 32 of halfbody 31 and second is away from each other.Specifically, in the halfbody 32 of first halfbody 31 and second
On be respectively equipped with least one drive hole 33, the support plate 41 is provided with multiple with the phase of the drive hole 33
Corresponding slit 45, the slit 45 extends along the direction that is transversely to the longitudinal direction perpendicular to optical cable 300.Drive
Motivation structure 44 includes:Two groups of drive pins 441, each described drive pin 441 is from the bottom of the support plate 41
It is inserted into corresponding drive hole 33 through the slit 45;And two movable blocks 442, movable block 442
It is corresponding with the body 32 of first halfbody 31 and second respectively installed in the bottom of the support plate 41,
Drive pin 441 is separately mounted on the movable block 442 described in two groups, and two movable blocks 442 are configured to
Move away from each other or movement close to each other, so as to drive first halfbody, 31 and second body 32 dozens
Open or close.
In one embodiment, drive mechanism 44 also includes:Cam mechanism 443, can be turned by pivot 444
The bottom of the support plate 41 is arranged on dynamicly and is located between two movable blocks 442;Two first guiding
Bar 447, between two lower walls 448 of support plate 41, and through two movable blocks 442;
And multiple back-moving spring (not shown), on the described first guiding bar 447 and positioned at the lower wall
Between 448 and movable block 442.So, in the not applying power on movable block 442 of cam mechanism 443,
Back-moving spring can drive movable block 442 to reset, so that the first halfbody 31 and the second body 32 are closed.
Further, drive mechanism 44 also includes driving handle 445, and driving handle 445 is arranged on described convex
Take turns on the pivot pivot 444 of mechanism 443, to drive the cam mechanism 443 to rotate.
In a kind of alternate embodiment, the drive mechanism also includes:Two leading screws 446, installed in branch
Between two lower walls 448 of support plate 41, and it is screwed with two movable blocks 442;And first
Motor (not shown), is configured for driving the leading screw 446 to rotate, so as to drive movable block 442
It is mobile.
As shown in Fig. 6-7,9 and 16, the fibre-optical process equipment 1000 according to the right embodiment of the present invention is also wrapped
Guide rail mechanism 46 is included, installed in the bottom of the pallet component 4, is slidably connected with installation frame 8.This
Sample, when being operated to fibre-optical process equipment, can pull out pallet component 4, and after this has been completed will
Pallet component 4 is pushed into original position.
Figure 23 is that the clamping device of the conveying device for showing a kind of exemplary embodiment of the invention is opened
Schematic perspective view;Figure 24 is another schematic perspective view for showing the conveying device shown in Figure 23;Figure 25 is
The schematic perspective view of the clamping device closure of the conveying device shown in display Figure 23;Figure 26 is display Figure 24 institutes
Another schematic perspective view figure of the conveying device shown;27 is to show the fibre-optical process equipment using shown in Fig. 5
Schematic perspective view during assembling optical cable joint 2000, wherein the first heat-shrink tube has been transported to the preliminary of optical fiber continuing
Position, and housing be removed;Figure 28 is the close-up schematic view of the left part for showing Figure 27.
Referring to Figure 23-28, in a kind of exemplary embodiment of the invention, the conveying device 7 includes:
Mobile main body 71, is movably mounted on installation frame 8 in a longitudinal direction;And clamping device 75,
In the mobile main body 71, and it is configured for clamping in the protection component, for example
The first heat-shrink tube 401, the heat-shrink tube 403 of elastic tube 402 and second are clamped successively.
In a kind of exemplary embodiment, conveying device 7 also includes:Second leading screw 72, is rotatably mounted
Between the described first horizontal horizontal wall 83 of wall 82 and second, and combined with the mobile main body screw;
Second motor 73, on the described first horizontal wall 82, and is configured for driving described the
Two leading screws 72 rotate, so as to drive the conveying device 7 to move back and forth in a lateral direction;And at least one
Individual second guiding bar 74, between the described first horizontal horizontal wall 83 of wall 82 and second, and wears
The mobile main body 71 is crossed, to guide the mobile main body 71 to move.
In a kind of exemplary embodiment, the clamping device 75 includes:First clamping limb 751;Second folder
Gripping arm 752, is configured for coordinating with first clamping limb 751 clamping a protection component;And
First driving means, are configured for driving the clamping limb 752 of the first clamping limb 751 and second to open
Or closure, to clamp and discharge the first heat-shrink tube 401, the heat-shrink tube 403 of elastic tube 402 or second.
In a kind of exemplary embodiment, the first driving means include:3rd motor 753, installs
In the mobile main body 71;Driving wheel 754, in being rotated by for the 3rd motor 753;
First driven pulley 755, engages with the driving wheel 754, and is connected with first clamping limb 751, to drive
First clamping limb 751 is moved to move;And second driven pulley 756, engaged with first driven pulley 755,
And be connected with second clamping limb 752, to drive second clamping limb 752 to move.For example, actively
The 754, first driven pulley 755 of wheel and the second driven pulley 756 can be arranged to gear structure.Further,
First clamping limb 751 is formed with the liquid of the first driven pulley 755;Second clamping limb 752 and the first driven pulley 756
Liquid is formed.
In a kind of exemplary embodiment, it is designed with the clamping limb 752 of first clamping limb 751 and second
Depressed part 757, to clamp the first heat-shrink tube 401, the heat-shrink tube 403 of elastic tube 402 or second securely.
Figure 20-22 is the schematic perspective view of the heater for showing a kind of exemplary embodiment of the invention.
Referring to Figure 20-22 and 27-28, in a kind of exemplary embodiment of the invention, the heater 9
Including:Upper heating part 91 and the lower heating part 92 relative with the upper heating part, the upper heating part 91 with
The protection component that lower heating part 92 is configured for clamping between is heated.For example,
First heat-shrink tube 401 or the second heat-shrink tube 403 are heated.
In a kind of exemplary embodiment, the heater 9 also includes:Support pedestal 93, installed in institute
State on longitudinal wall 81 of installation frame 8, the upper heating part 91 is arranged on the peace with lower heating part 92
Fill the front portion of pedestal 81;And second drive device 95, on the support pedestal 93 and it is constructed
Into for driving the upper heating part 91 close to each other with lower heating part 92 or away from each other, discharging and
Clamp heated protection component.
In a kind of exemplary embodiment, second drive device 95 includes:Installed in installation pedestal 81
The 4th whole motors 951;Gear 952, in being rotated by for the 4th motor 951;
Two tooth bars 953, engage with the gear 952 in the both sides of the gear 952 and extend in the height direction,
The upper heating part 91 is separately mounted on two tooth bars 953 with lower heating part 92 so that the tooth
Drive two tooth bars 953 to move in the opposite direction when wheel 952 is rotated, and then drive upper heating part 91
With lower heating part 92 away from or be close to.
In a kind of exemplary embodiment, each in the upper heating part 91 and lower heating part includes:
Supportive body 912, in the tooth bar 953;Electrical heating elements (not shown), installs
On the supportive body 912;And elastic heat conducting portion 911, on the supportive body 912 and cover
Cover the electrical heating elements.This way it is possible to avoid electrical heating elements and the first heat-shrink tube 401 or the second pyrocondensation
The directly contact of pipe 403, prevent the first heat-shrink tube 401 or the second heat-shrink tube 403 because chucking power is bigger or
Temperature is too high and damages.
In a kind of exemplary embodiment, referring to Figure 20-22 and 27-28, the heater 9 is configured to
Move back and forth in a lateral direction.Specifically, the heater 9 also includes:Supporting plate 97, installs
On longitudinal wall 81;3rd leading screw 96, is rotatably installed in the described first horizontal He of wall 82
Between supporting plate 97, and it is screwed with the support pedestal 93;And the 5th motor 98, install
In the supporting plate 97, and it is configured for driving the 3rd leading screw 96 to rotate, so as to drive institute
Heater 9 is stated to move back and forth in a lateral direction.For example, in the operated device of conveying device 7, heating dress
Putting 9 can move between the first clamping device 1 and longitudinal wall 81, not influence the behaviour of conveying device 7
Make.
In a kind of exemplary embodiment, the heater also includes that at least one the 3rd guiding bars (do not show
Go out), between the described first horizontal wall 82 and supporting plate 97, the 3rd guiding bar is described in
Support pedestal 93, to guide the heater 9 to move.
As illustrated in figs 20-22, three protuberances are provided with the rear portion in face of longitudinal wall 81 of support pedestal 93.
The screwed hole 99 of Longitudinal extending is being provided with the protuberance of topmost, the leading screw of screwed hole 99 and the 3rd
96 screw threads coordinate, so as to drive the transverse shifting of heater 9 when the 3rd leading screw 96 is rotated.Positioned at bottom
Two protuberances are designed with a through hole for Longitudinal extending 94, and two the 3rd guiding bars are each passed through through hole 94,
So as to guide the movement of heater 9.Support pedestal is arranged in by by screwed hole 99 and through hole 94
93 rear portion, can simplify the structure of support pedestal 93 so that upper heating part 91 is steady with lower heating part 92
It is mobile.
As shown in figure 17, fibre-optical process equipment according to embodiments of the present invention also includes the confession in casing
Power supply 10, power supply is provided with to each motor and electrical heating elements.
Describe continued with the optical fiber of optical cable 300 in the optical fiber 202 of the joints of optical fibre 200 with reference to the accompanying drawings
Position 203 will be kept filling using the fibre-optical process equipment 1000 of the embodiment of the present invention after tentatively continuing by the 3rd
Put the first heat-shrink tube 401 of 3 holdings, the heat-shrink tube 403 of elastic tube 402 and second and be assembled into the light with optical cable
The operating process of fiber connector 200.
First, equipment 500 is cut by outside optical cable 300 using the optical fiber on fibre-optical process equipment 1000
The protective layer 302 in portion cuts and removes, and recycles optical fiber ablation equipment by the coating 303 outside fiber cores
Peel off, expose optical fiber 301 to be continued;Afterwards, as shown in Figure 3-4, successively by the heat of tail sleeve 404, second
The draw 403, the heat-shrink tube 401 of elastic tube 402 and first are enclosed within optical cable 300 to be continued.
Afterwards, the first holding meanss 1 are arranged on the joints of optical fibre 200 with optical fiber 202, by the
Two holding meanss are arranged on optical cable in the outside of protection component, and the second heat-shrink tube is fixed using the 3rd holding meanss
403rd, the heat-shrink tube 401 of elastic tube 402 and first;Afterwards, using the side of thermal welding in fibre junction equipment
Be routed to the optical fiber 301 of optical cable 300 on the optical fiber 202 of the joints of optical fibre 200 by formula, so as to be formed such as figure
Interim component shown in 11.
Afterwards, first binding end 52 and the second binding end 53 of support frame 5 are respectively installed to the first guarantor
Hold in the holding meanss 2 of device 1 and second;In this case, it is possible to hand-held handle 51 and lift whole interim
Component.
Afterwards, as shown in fig. 6, lifting whole interim component as shown in figure 11, interim component is arranged on
On the pallet component 4 pulled out from the casing of fibre-optical process equipment 1000, afterwards, by the of support frame 5
One binding end 52 and the second binding end 53 are removed from the first holding meanss and the second holding meanss respectively, so that
Form structure as shown in Figure 7.In another existing way, as shown in figure 11 whole face can be lifted
When component, by interim component be arranged on single pallet component 4 on, afterwards, by the first of support frame 5
The binding end 53 of binding end 52 and second is removed from the first holding meanss and the second holding meanss respectively, so that shape
Into structure as shown in Figure 8, then will be mounted with that the pallet component 4 of interim component is arranged on optical fiber processing again
In the casing of equipment 1000, so as to form structure as shown in Figure 7.
Afterwards, as shown in Figure 12,13 and 16, driving handle 445 is operated so that first halfbody 31
Opened with the second body 32, so as to discharge the first heat-shrink tube 401, the heat-shrink tube 403 of elastic tube 402 and second.
Afterwards, as in figs. 17-19, the heater 9 that upper heating part and lower heating part 92 are opened is moved
To the left side of fibre-optical process equipment, conveying device 7 is moved to the position of the 3rd holding meanss, open clamping
First heat-shrink tube defeated 401 is sent to continuing for optical fiber by the clamping limb of mechanism 75 to clamp the first heat-shrink tube 401
Position 203.
Afterwards, as shown in Figure 27-28, the position where heater 9 is moved into the first heat-shrink tube 401;
As illustrated in figs. 29-30, upper heating part and lower heating part 92 are moved into the position of closure, and clamps the first heat
The draw, to carry out the heating predetermined time to the first heat-shrink tube;Afterwards, heating part and lower heating part in opening
92, heater 9 is moved to the left side of fibre-optical process equipment.
Afterwards, as shown in figs. 31-33, conveying device 7 is moved to the position of the 3rd holding meanss;Open folder
The clamping limb of mechanism 75 is held to clamp elastic tube 402, elastic tube 402 is flexibly socketed in for having cooled down
On one heat-shrink tube 401.
Afterwards, as shown in Figure 34-37, conveying device 7 is moved to the position of the 3rd holding meanss, opens folder
The clamping limb of mechanism 75 is held to clamp the second heat-shrink tube 403, the second heat-shrink tube 403 is transported to elastic tube 402
Position and be socketed on elastic tube.
Afterwards, as shown in Figure 38-39, the position where heater 9 is moved into the second heat-shrink tube 403,
Upper heating part and lower heating part 92 are moved into the position of closure, and clamps the second heat-shrink tube, with to the second heat
The draw carries out the heating predetermined time;Afterwards, heating part and lower heating part 92 in opening, by heater 9
Move to the left side of fibre-optical process equipment.
After the scheduled time is cooled down, pallet component is pulled out, from the first installing mechanism and the second installing mechanism
The first holding meanss and the second holding meanss are taken out respectively;Afterwards, dress is kept from the first holding meanss and second
Put the taking-up joints of optical fibre and optical cable respectively;Tail sleeve is socketed on the second heat-shrink tube and is partly installed to
On the joints of optical fibre, so as to be assembled into the fiber cable joint with the joints of optical fibre as shown in Figure 1.
Fibre-optical process equipment using above-mentioned various embodiments of the invention can will include the first pyrocondensation
Pipe, elastic tube and the second heat-shrink tube are arranged on the optical fiber for tentatively continuing in interior protection component, so as to form tool
There is the fiber cable joint of the joints of optical fibre.The fibre-optical process equipment can be realized to the first heat-shrink tube, elastic tube and
The installation of two heat-shrink tubes, and being heated to the first heat-shrink tube and the second heat-shrink tube so that the first heat-shrink tube and
Second heat-shrink tube produces pyrocondensation effect, bond strength is improve, so as to improve the effect of assembling optical fiber connector
Rate, and improve the performance of the joints of optical fibre.In addition, shifting and installing the process of the preliminary optical fiber for continuing
In, can prevent the position of continuing of optical fiber will not damage due to being impacted, for example, avoiding generation office
Portion such as is fully disconnected, misplaces at the bad phenomenon.Further, whole transfer and installation process are simple, behaviour
Facilitate, improve the finished product rate and production efficiency of the joints of optical fibre.
It will be understood to those skilled in the art that embodiment described above is all exemplary, and this
The technical staff in field can make improvements, and the structure described in various embodiments is in not recurring structure
Or independent assortment can be carried out in the case of the conflict in terms of principle.
Although with reference to accompanying drawing, the present invention is described, and the embodiment disclosed in accompanying drawing is intended to this hair
Bright preferred embodiment is illustrative, and it is not intended that to a kind of limitation of the invention.
Although some embodiments of this present general inventive concept have been shown and have illustrated, those of ordinary skill in the art
It will be understood that, in the case of the principle without departing substantially from this present general inventive concept and spirit, these embodiments can be done
Go out to change, the scope of the present invention is limited with claim and their equivalent.
It should be noted that word " including " other elements or step are not excluded for, word "a" or "an" is not
Exclude multiple.In addition, the scope that any element label of claim should not be construed as limiting the invention.
Claims (29)
1. a kind of fibre-optical process equipment, for being assembled into the light with the joints of optical fibre (200)
Cable joint (2000), the fibre-optical process equipment includes:
Housing (6), is configured to be defined as a casing;
Pallet component (4), in the casing, is configured for keeping optical fiber connection
The preliminary optical cable (300) for continuing of the optical fiber of device (200) and the joints of optical fibre (200), with
And the multiple protection components on optical cable (300);
Conveying device (7), in the casing, be configured to by it is described protection component according to
The secondary optical fiber for being transported to the joints of optical fibre and the preliminary position continued of the optical fiber of optical cable;And
Heater (9), in the casing, is configured for to be transported to
State at least one of preliminary protection component at position for continuing to be heated, so that heated
Protection component produces pyrocondensation.
2. fibre-optical process equipment according to claim 1, also including installed in the case
Internal installation frame (8), the installation frame includes:
Longitudinal wall (81), and
First horizontal wall (82) and the second horizontal wall (83), are separately mounted to described vertical
To the both sides of wall and vertical with longitudinal wall.
3. fibre-optical process equipment according to claim 2, also including removably installing
Primary Location device on the pallet component, the Primary Location device includes:
First holding meanss (1), are configured for keeping the joints of optical fibre;
Second holding meanss (2), are configured for keeping the optical cable;And
3rd holding meanss (3), be arranged on first holding meanss and the second holding meanss it
Between, and be configured for keeping the protection component.
4. fibre-optical process equipment according to claim 3, wherein, the pallet component
Including:
Support plate (41), is slidably mounted in the described first horizontal wall in a lateral direction
And second between horizontal wall;
First installing mechanism (42), in the support plate, is configured for removable
First holding meanss are installed with unloading;
Second installing mechanism (43), in the support plate, is configured for removable
Second holding meanss are installed with unloading;And
3rd installing mechanism, in the support plate, is configured for removably pacifying
Fill the 3rd holding meanss.
5. fibre-optical process equipment according to claim 4, wherein, the Primary Location
Device also includes support frame (5), including is removably combined with first holding meanss
The second binding end (53) that first binding end (52) is removably combined with the second holding meanss,
And the handle (51) between the first binding end and the second binding end.
6. fibre-optical process equipment according to claim 4, wherein,
The protection component includes:
First heat-shrink tube (401), installed in optical fiber and the optical cable of the joints of optical fibre
The position of continuing of optical fiber;
Elastic tube (402), installed in the outside of first heat-shrink tube;And
Second heat-shrink tube (303), installed in the outside of the elastic tube,
3rd holding meanss include the first halfbody (31) in the support plate and with institute
State the second halfbody (32) that the first halfbody is separably combined, first halfbody and second
Body combine with formed respectively with first heat-shrink tube, elastic tube, the second heat-shrink tube and optical cable
The accommodating chamber of exterior contour matching.
7. fibre-optical process equipment according to claim 6, wherein, first halfbody
Be provided with multiple guide posts (311), described the second half formed in vivo it is multiple respectively with the guiding
The bullport (321) that post coordinates.
8. fibre-optical process equipment according to claim 7, wherein, described the first half
At least one drive hole (33) is respectively equipped with body and the second halfbody,
3rd installing mechanism includes two groups of drive pins (441), and each described drive pin is from institute
The bottom for stating support plate is inserted into corresponding drive hole through the support plate.
9. fibre-optical process equipment according to claim 8, wherein, in the support plate
Multiple slits (45) corresponding with the drive hole are provided with, the slit is along perpendicular to optical cable
Be transversely to the longitudinal direction direction extension, each described drive pin is inserted into phase through the slit
In the drive hole answered, to allow drive pin transverse shifting in the slit, so that the
One halfbody and the second halfbody are away from each other.
10. fibre-optical process equipment according to claim 9, wherein, the pallet component
Also include the drive mechanism (44) installed in the support plate bottom, be configured for driving
First halfbody and the second body away from each other, to discharge first heat-shrink tube, elastic tube
With the second heat-shrink tube.
11. fibre-optical process equipments according to claim 10, wherein, the driving machine
Structure includes:
Two movable blocks (442), installed in the bottom of the support plate, respectively with described first
Halfbody and the second body are corresponding, and drive pin described in two groups is separately mounted on the movable block,
Two movable blocks are configured to move away from each other or movement close to each other, so as to drive described
First halfbody and the second body are opened or closed.
12. fibre-optical process equipments according to claim 11, the drive mechanism is also wrapped
Include:
Cam mechanism (443), the support plate is installed in rotation on by pivot (444)
Bottom is simultaneously located between two movable blocks;
Two first guiding bar (447), installed in support plate two lower walls (448) it
Between, and through two movable blocks;And
Multiple back-moving springs, on the described first guiding bar and positioned at the lower wall and shifting
Between motion block.
13. fibre-optical process equipments according to claim 12, wherein, the driving machine
Structure also includes driving handle (445), on the pivot of the cam mechanism, to drive
State cam mechanism rotation.
14. fibre-optical process equipments according to claim 11, wherein, the driving machine
Structure also includes:
First leading screw (446), between two lower walls (448) of support plate, and
It is screwed respectively with two movable blocks;And
First motor, is configured for driving the first leading screw rotation.
15. fibre-optical process equipments according to claim 6, wherein, second halfbody
It is combined together using magnetic attraction or snap with the second body.
16., according to any one of claim 1-15 described fibre-optical process equipment, also include
Guide rail mechanism (46), installed in the bottom of the pallet component, is tied with being slided with installation frame
Close.
17. according to any one of claim 2-15 described fibre-optical process equipment, wherein,
The conveying device (7) includes:
Mobile main body (71), is movably mounted on the installation frame in a longitudinal direction;
And
Clamping device (75), in the mobile main body, and is configured for clamping
One in the protection component.
18. fibre-optical process equipments according to claim 17, wherein, the conveying dress
Putting also includes:
Second leading screw (72), is rotatably installed between the described first and second horizontal walls,
And combined with the mobile main body screw;
Second motor (73), on the described first horizontal wall, and is configured to
For driving second leading screw to rotate, so as to drive the conveying device past in a lateral direction
It is multiple mobile;And
At least one second guiding bar (74), installed in the described first and second horizontal walls it
Between, and through the mobile main body, to guide the mobile main body to move.
19. fibre-optical process equipments according to claim 17, wherein, the clamping machine
Structure includes:
First clamping limb (751);
Second clamping limb (752), is configured for coordinating to clamp with first clamping limb
One protection component;And
First driving means, are configured for driving first clamping limb and the second clamping limb
Open or close.
20. fibre-optical process equipments according to claim 19, wherein, described first drives
Dynamic device includes:
3rd motor (753), in the mobile main body;
Driving wheel (754), in being rotated by for the 3rd motor;
First driven pulley (755), engages with the driving wheel, and connects with first clamping limb
Connect, to drive first clamping limb to move;And
Second driven pulley (756), engages with first driven pulley, and is clamped with described second
Arm is connected, to drive second clamping limb to move.
21. fibre-optical process equipments according to claim 19, wherein, first folder
Depressed part (757) is designed with gripping arm and the second clamping limb.
22. according to any one of claim 2-21 described fibre-optical process equipment, wherein,
The heater includes:Upper heating part (91) and the lower heating relative with the upper heating part
Portion (92), the upper heating part is configured for clamping between with lower heating part
One protection component heated.
23. fibre-optical process equipments according to claim 22, wherein, the heating dress
Putting also includes:
Support pedestal (93), it is described above to add on longitudinal wall of the installation frame
Hot portion is arranged on the front portion of the installation pedestal with lower heating part;And
Second drive device (95), supports on pedestal and is configured for driving installed in described
Move the upper heating part close to each other with lower heating part or away from each other.
24. fibre-optical process equipments according to claim 23, wherein, described second drives
Dynamic device includes:
4th motor (951);
Gear (952), in being rotated by for the 4th motor;
Two tooth bars (953), engage and in height side in the both sides of the gear with the gear
Upwardly extend, the upper heating part is separately mounted on two tooth bars with lower heating part, is made
Two tooth bars are driven to move in the opposite direction when obtaining the pinion rotation.
25. fibre-optical process equipments according to claim 22, wherein, the upper heating
Each in portion and lower heating part includes:
Supportive body (912), in the tooth bar;
Electrical heating elements, on the supportive body;And
Elastic heat conducting portion (911), on the supportive body and covers electrical heating unit
Part.
26. according to any one of claim 22-25 described fibre-optical process equipment, wherein,
The heater is configured to move back and forth in a lateral direction.
27. fibre-optical process equipments according to claim 26, wherein, the heating dress
Putting also includes:
Supporting plate (97), on longitudinal wall;
3rd leading screw (96), be rotatably installed in the described first horizontal wall and supporting plate it
Between, and combined with the support base thread;And
5th motor (98), in the supporting plate, and is configured for driving
The dynamic 3rd leading screw rotation, so as to drive the heater back and forth to move in a lateral direction
It is dynamic.
28. fibre-optical process equipments according to claim 27, wherein, the heating dress
Put and also include at least one the 3rd guiding bars, installed in the described first horizontal wall and supporting plate it
Between, the 3rd guiding bar passes through the support pedestal, to guide the heater to move.
29., according to any one of claim 1-28 described fibre-optical process equipment, also include
Power supply in casing.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510483354.0A CN106707417A (en) | 2015-08-07 | 2015-08-07 | Optical fiber processing equipment |
PCT/CN2016/093540 WO2017024992A1 (en) | 2015-08-07 | 2016-08-05 | Optical fibre processing apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510483354.0A CN106707417A (en) | 2015-08-07 | 2015-08-07 | Optical fiber processing equipment |
Publications (1)
Publication Number | Publication Date |
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CN106707417A true CN106707417A (en) | 2017-05-24 |
Family
ID=58924211
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201510483354.0A Pending CN106707417A (en) | 2015-08-07 | 2015-08-07 | Optical fiber processing equipment |
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CN (1) | CN106707417A (en) |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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US20050123253A1 (en) * | 2003-11-12 | 2005-06-09 | Ryuichiro Sato | Apparatus and method for heat-treatment of optical fiber reinforcing member and optical fiber fusion splicing apparatus |
JP2007065026A (en) * | 2005-08-29 | 2007-03-15 | Furukawa Electric Co Ltd:The | Heater for heat-shrinkable sleeve, optical fiber fusion splicing machine using the same, and method for reinforcing fusion splicing of optical fiber |
CN102349011A (en) * | 2009-03-11 | 2012-02-08 | 住友电气工业株式会社 | Optical fiber holder and fusion welding apparatus |
US20140157830A1 (en) * | 2012-10-04 | 2014-06-12 | Fujikura Ltd. | Optical fiber fusion splice system |
CN205027933U (en) * | 2015-08-07 | 2016-02-10 | 泰科电子(上海)有限公司 | Optic fibre treatment facility |
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2015
- 2015-08-07 CN CN201510483354.0A patent/CN106707417A/en active Pending
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20050123253A1 (en) * | 2003-11-12 | 2005-06-09 | Ryuichiro Sato | Apparatus and method for heat-treatment of optical fiber reinforcing member and optical fiber fusion splicing apparatus |
JP2007065026A (en) * | 2005-08-29 | 2007-03-15 | Furukawa Electric Co Ltd:The | Heater for heat-shrinkable sleeve, optical fiber fusion splicing machine using the same, and method for reinforcing fusion splicing of optical fiber |
CN102349011A (en) * | 2009-03-11 | 2012-02-08 | 住友电气工业株式会社 | Optical fiber holder and fusion welding apparatus |
US20140157830A1 (en) * | 2012-10-04 | 2014-06-12 | Fujikura Ltd. | Optical fiber fusion splice system |
CN205027933U (en) * | 2015-08-07 | 2016-02-10 | 泰科电子(上海)有限公司 | Optic fibre treatment facility |
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