CN102335901A - Rotary installation machine of movable optical-fiber connector - Google Patents

Rotary installation machine of movable optical-fiber connector Download PDF

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Publication number
CN102335901A
CN102335901A CN2011102947271A CN201110294727A CN102335901A CN 102335901 A CN102335901 A CN 102335901A CN 2011102947271 A CN2011102947271 A CN 2011102947271A CN 201110294727 A CN201110294727 A CN 201110294727A CN 102335901 A CN102335901 A CN 102335901A
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China
Prior art keywords
driving wheel
sleeve
push rod
pressure head
active linker
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Granted
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CN2011102947271A
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CN102335901B (en
Inventor
许贵强
魏亚林
王旭
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Henan Communication Cable Co Ltd
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Henan Communication Cable Co Ltd
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Priority to CN 201110294727 priority Critical patent/CN102335901B/en
Publication of CN102335901A publication Critical patent/CN102335901A/en
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Publication of CN102335901B publication Critical patent/CN102335901B/en
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Abstract

The invention discloses a rotary installation machine of a movable optical-fiber connector, which is characterized in that a base is provided with a friction-drive driving wheel in a rotating mode; a pressure head which forms a three-point positioning structure with the outer wheel edge of the driving wheel is installed near the outer wheel edge of the driving wheel; and the pressure head is in drive connection with a reciprocating drive mechanism. The rotary installation machine also comprises a fixture used for stopping a front positioning sleeve to rotate, wherein the fixture is connected with a torque control device for limiting a rotation degree between the front positioning sleeve and a connection sleeve. The phenomenon that the burrs of the workpiece hurt people in the manual assembling process can be avoided, and the assembling efficiency is greatly improved. Meanwhile, the defect that manual assembling and rotary installation can not achieve proper position, and screwing force is small can be overcome, the one-time assembling percent of pass of the movable optical-fiber connector is greatly improved, the phenomenon of pad control increase in the use process can be avoided, and the production and use cost of the movable optical-fiber connector can be lowered.

Description

Fiber active linker spinning machine
Technical field
The present invention relates to a kind of joints of optical fibre make-up machinery, definite saying so relates to a kind of spinning machine of automatic assembling fiber active linker.
Background technology
At present; Existing a kind of fiber active linker such as Fig. 1, shown in Figure 2; This connector mainly comprises prelocalization sleeve 1, outer sleeve 2, contact pin 3, spring 4, branch sleeve 5, rearmounted sleeve 6, snap ring 7 and tail cover 8 compositions; The front end outer peripheral face of prelocalization sleeve 1 be provided be used for plinth location only revolve cooperate only revolve key; Its rear end is provided with internal thread, the front end of branch sleeve 5 corresponding be provided with the external screw thread that spins with prelocalization sleeve 1 internal thread, outer peripheral face in its back-end is provided with and is used for the anti-skid structure that is fixedly connected with rearmounted sleeve 6.During the assembling of this fiber active linker, the fibre core 9 of optical fiber passes tail cover 8, snap ring 7, rearmounted sleeve 6, branch sleeve 5, spring 4 successively and is fixed in the contact pin 3, and branch sleeve 5 passes outer sleeve 2 spinnings and on prelocalization sleeve 1, forms connector.At present, this fiber active linker mainly relies on artificial assembling.During assembling, the front end that the workman pinches prelocalization sleeve 1 on the other hand only revolves the key place, grapples on the other hand the anti-skid structure place, rear end of branch sleeve 5, with branch sleeve 5 and prelocalization sleeve 1 spinning together.The volume of this fiber active linker is less, when therefore assembling certain degree of difficulty is arranged, and causes efficiency of assembling lower; And owing to reasons such as machining accuracies, sharp burr often appears in each parts of this fiber active linker, scratches workman's hand; And if the assembling that puts on one's gloves because parts are less, the workman is difficult to pinch parts with hand on the one hand; The application of force is difficulty comparatively, and the difficulty of assembling increases, and can reduce the feel of workman when assembling on the other hand; The phenomenon that the connector spinning is not in place, the dynamics of screwing is low appears easily; Can cause optical fiber attenuation to increase during use, therefore the assembly quality of this fiber active linker is difficult to improve all the time at present, influences the use of connector.
Summary of the invention
The objective of the invention is: a kind of fiber active linker spinning machine that utilizes the machinery assembling is provided, and it drives the branch sleeve rotation through Mechanical Driven and spins with the prelocalization sleeve, thereby solves the problem that hand assembled efficient is low, spinning is not in place.
Technical scheme of the present invention is: a kind of fiber active linker spinning machine; Comprise base; It is characterized in that; On said base, be rotatably equipped with a driving wheel that drives by actuating unit; Driving wheel is provided with the outer rim that is used to rely on friction-driven fiber active linker branch sleeve, is attached with a pressure head at the outer rim of this driving wheel, and this pressure head has two and spaced apartly is used to be clamped in the clamping part on the branch sleeve outer surface and is provided with the accommodation section that is used to hold branch sleeve between two clamping parts; Be formed for the spacing three-point fix structure that compresses branch sleeve between two clamping parts of pressure head and the outer rim of driving wheel, on pressure head, be connected with driving it compresses or loosens the reciprocating drive mechanism of branch sleeve along the driving wheel radial action, with respect to the driving wheel outer rim; Comprise that also one is used for ending the anchor clamps that spinning is joined the prelocalization sleeve, be connected with the torque control device that is used to limit degree of screwing between prelocalization sleeve and the branch sleeve on these anchor clamps.
On said pressure head, be positioned at its rearward end and also be fixed with the push rod that radially extends along driving wheel, be fixed with said reciprocating drive mechanism in the rear end of this push rod and be in transmission connection, be used to limit the elastic pressuring clamping device that pressure head compresses dynamics away from driving wheel.
Described driving wheel is horizontal axis and is installed on the base, and described push rod is horizontally disposed with, and the extension line of push rod center line passes the axle center of driving wheel, and is only revolving slidable fit on its bearing of trend in a fixed leg that vertically is fixed on the base.
Described elastic pressuring clamping device comprises the adapter sleeve that is fixedly set in the push rod rear end with one heart; Axially slidable fit has a push rod that is in transmission connection with reciprocating drive mechanism in this adapter sleeve; In radially being provided with, the running-on place, rear end of adapter sleeve turns edge; On the periphery of push rod, radially convex with this adapter sleeve in the outward flange that the axial limiting block cooperates that turns edge, between the front end of push rod and push rod rear end, be top-loaded with holddown spring.
Described reciprocating drive mechanism is an electromagnet, and the rear end of said push rod cooperates with this electromagnet armature pushing tow, and between adapter sleeve and fixed leg, is provided with a back-moving spring that is sleeved on the push rod.
On two clamping parts of said pressure head, be separately installed with and be used for the pinch roller that is rotatably assorted with the branch sleeve surface; The axis of two pinch rollers and the parallel axes of driving wheel, the outer rim of this two pinch roller and driving wheel constitutes described three-point fix structure when compressing branch sleeve.
Described anchor clamps comprise a mounting rod that is used to hand; On an end end face of mounting rod, offer the jack that is used for plug-in mounting prelocalization sleeve; The hole wall of jack be provided be used for the prelocalization sleeve on only revolve the key corresponding matching only revolve structure; Described torque control device comprises the pressing plate that is vertically fixed on the mounting rod, is provided with one below the pressing plate and contacts the elastic pressure switch that cooperates, is used to control reciprocating drive mechanism and/or driving wheel actuating unit with pressing plate being positioned on the driving wheel direction of rotation.
Described elastic pressure switch comprises the outer tube that vertically is fixed on the pressing plate below; Vertical slidable fit has one to contact the middle contact that cooperates with pressing plate in the outer tube; Be top-loaded with a compression spring in the bottom of middle contact; Horizontal fixed has a pressing plate on middle contact, is installed with a microswitch that after middle contact pressurized moves, is triggered by pressing plate outside near the base the sleeve pipe.
The outer rim of described driving wheel is fixing sheathed rubber sleeve.
In the fiber active linker spinning machine of the present invention; It is fixedly connected sleeve through cooperating the three-point fix structure that forms between pressure head and the driving wheel, and utilizes anchor clamps only to be rotated with to decide the prelocalization sleeve, and the frictional force through driving wheel cooperates the driving branch sleeve to rotate with pressure head; Thereby utilize mechanical installation mode to accomplish screwing of fiber active linker; It compared with prior art not only avoided the burr of workpiece in the hand assembled process phenomenon of hurting sb.'s feelings, and the assembling speed of connector is brought up to one of several second by one of the per minute of original artificial assembling; Make efficiency of assembling greatly improve; Simultaneously, in the spinning process, branch sleeve can cooperate with torque control device through anchor clamps with the dynamics of screwing between the prelocalization sleeve and obtained effective control; Overcome the defective that the hand assembled spinning is not in place and the dynamics of screwing is little; The once assembling qualification rate of fiber active linker is improved greatly, the phenomenon that attenuation increases occurs in having avoided using, reduced the production and the use cost of fiber active linker.
Description of drawings
Fig. 1 is the split structural representation of existing a kind of fiber active linker;
Fig. 2 is the overall structure sketch map after the assembling of existing fiber flexible jumper among Fig. 1;
Fig. 3 is the structural representation (having omitted anchor clamps among the figure) of fiber active linker spinning facility body embodiment one of the present invention;
Fig. 4 is the vertical view of Fig. 3;
Fig. 5 is the structural representation of elastic pressuring clamping device among Fig. 3;
Fig. 6 is the structural representation of pressure switch among Fig. 3;
Fig. 7 is the structural representation of anchor clamps among Fig. 4;
Fig. 8 is the structural representation of the embodiment of the invention two.
The specific embodiment
Embodiment one: the specific embodiment of fiber active linker spinning machine of the present invention is extremely shown in Figure 7 just like Fig. 3; These spinning facility have a base 10; Be installed with a cover motor-driven mechanism 21 on the mounting platform at base 10 tops; Power output shaft in motor-driven mechanism 21 is horizontally disposed with, and on this power output shaft, radially is fixed with a driving wheel 11 that utilizes to be installed of frictional force drives, and this driving wheel 11 adopts rubber wheel to process; And near these driving wheel 11 left side outer rims, be provided with a pressure head 12; On this pressure head 12 towards the leading section of this driving wheel 11 arranged side by side up and down be rotatably equipped with two pinch roller 12-1, the parallel axes of the axis of these two pinch roller 12-1 and driving wheel 11 is formed for the spacing three-point fix structure that compresses branch sleeve 5 thereby make between the outer rim of pressure head 12 and driving wheel 11.Pressure head 12 away from the rear end of driving wheel 11 be connected with one drive this pressure head 12 along the radial action of driving wheel 11, be used for roof pressure or loosen the reciprocating drive mechanism 15 of branch sleeve 5.Further; Be excessive damage driving wheel 11 of the pressure that prevents pressure head 12 or branch sleeve 5 to be installed; Its rear end at pressure head 12 also is fixed with a push rod 13 that radially extends along driving wheel 11, and is fixed with an elastic pressuring clamping device 16 that is in transmission connection with reciprocating drive mechanism 15 in the rear end of this push rod 13.In the present embodiment; Push rod 13 is a cylindrical structure; It is and is horizontally disposed with and is slidedly assemblied in the fixed leg 14 that vertically is fixed on the base 10, and the center line of push rod 13 passes the axle center of driving wheel 11, and its bearing of trend offers only spin slot 13-1 in the outer surface upper edge of push rod 13; On fixed leg 14, be installed with one and stretch into this and end among the spin slot 13-1 and and end the jackscrew 14-1 that spin slot 13-1 both sides cell wall block cooperates, be slidingly matched thereby make to form only to revolve between push rod 13 and the fixed leg 14 with this; Elastic pressuring clamping device 16 comprises an adapter sleeve 16-1 who is fixedly set in push rod 13 rearward end with one heart; Endwisely slip in this adapter sleeve 16-1 and be equipped with a push rod 16-2 who is in transmission connection with reciprocating drive mechanism 15; Turn edge on the trepanning inwall of adapter sleeve 16-1 rear end, being equipped with; Be positioned at push rod 16-2 on the outer peripheral face of adapter sleeve 16-1 trepanning and convex with the outward flange that cooperates with the above-mentioned axial limiting block that turns edge, and between the rear end face of push rod 16-2 and push rod 13, be top-loaded with the holddown spring 16-3 that is used to adjust pressure head 12 thrusts; Reciprocating drive mechanism 15 is an electromagnet; This electromagnet armature 15-1 cooperates with the rear end pushing tow of push rod 16-2; Thereby can drive pressure heads 12 and branch sleeve 5 is pressed on the outer rim of driving wheel 11 through push rod 16-2 compression holddown spring 16-3, promotion push rod 13, simultaneously, on the push rod 13 between adapter sleeve 16-1 and the fixed leg 14, be set with back-moving spring 17; So that after the electromagnet dead electricity, drive adapter sleeve 16-1 drive push rod 13 and reset with pressure head 12.
It also comprises anchor clamps that are used for fixing prelocalization sleeve 1 in the fiber active linker; As shown in Figure 7; These anchor clamps are a mounting rod of being convenient to hand 18; On an end end face of mounting rod 18, offer the jack 18-2 that is used for plug-in mounting prelocalization sleeve 1; And be provided with on the hole wall of jack 18-2 be used for prelocalization sleeve 1 on only revolve the key corresponding matching only revolve structure, concrete, this only revolve structure be opened on the sidewall of jack 18-2 aperture with prelocalization sleeve 1 on only revolve that the corresponding card of key joins opening 18-3.Simultaneously; For guaranteeing the degree of screwing after fiber active linker assembles; It also is being connected with the torque control device 20 that is used to limit degree of screwing between prelocalization sleeve 1 and the branch sleeve 5 on anchor clamps; In the present embodiment; This torque control device 20 comprises the pressing plate 18-1 that is vertically fixed on the mounting rod 18, and on the base 10 below this pressing plate 18-1, vertically is fixed with an elastic pressure switch that is triggered by this pressing plate 18-1, and this elastic pressure switch 20 comprises an outer tube 20-1 who vertically is fixed on the base 10 of pressing plate 18-1 below; Vertical slidable fit has one to be used for contacting the middle contact 20-2 that cooperates with pressing plate 18-1 in this outer tube 20-1; And in this centre the bottom of contact 20-2 is top-loaded with a preloading spring 20-4, horizontal fixed has a contact arm 20-3 on middle contact 20-2, the contact that this contact arm 20-3 passes near the microswitch 20-5 with being fixed on outer tube 20-1 side by side of the corresponding slotted hole of offering on the outer tube 20-1 sidewall contacts and cooperates.Further; The dynamics of tightening for ease of the adjustment fiber active linker; The bottom of this outer sleeve 20-1 vertically extends through the bottom surface of base downwards; And being installed with an adjustment screw 20-6 in the trepanning below middle contact 20-2, preloading spring 20-4 top is contained between this adjustment screw 20-6 and the middle contact 20-2.
Further, for making things convenient for the use of mounting rod 18, its be positioned at also vertically be fixed with side by side on the wing base 10 of driving wheel 11 and pressure head 12 cooperation places two place mounting rod 18 when being used in spinning Support bracket 19.
In concrete the application, the break-make of electromagnet is controlled by floor push.During use; Prelocalization sleeve 1 in the fiber active linker is inserted among the jack 18-2 of mounting rod 18; And the key that only revolves on the prelocalization sleeve 1 is snapped in the opening 18-3 on the mounting rod 18, then with behind each parts such as outer sleeve 2, contact pin 3, spring 4, branch sleeve 5 suit successively, earlier branch sleeve 5 is screwed in the internal thread of prelocalization sleeves 1 one with hand; Promptly elder generation connects each parts on the fiber active linker but does not screw through branch sleeve 5 and prelocalization sleeve 1; Hand-held then mounting rod 18 is positioned over it on Support bracket 19, guarantees that pressing plate 18-1 is pressed on the middle contact 20-2 of elastic pressure switch 20, and hand-held mounting rod 18 is pressed in the anti-skid structure of branch sleeve 5 rear ends on the outer rim of driving wheel 11; After motor-driven mechanism 21 starts; Start electromagnet through floor push, electromagnet armature 15-1 is through the push rod 16-2 compression holddown spring 16-3 of elastic pressuring clamping device 16, and this holddown spring 16-3 moves pressure head 12 to the right at the elastic force rear drive push rod 13 that has overcome back-moving spring 17; Two pinch roller 12-1 on the pressure head 12 cooperate with the outer rim of driving wheel 11 through the three-point fix structure on the spacing outer rim that is pressed on driving wheel 11 of branch sleeve 5; At this moment, the difference of elastic force is the pre-pressing force of branch sleeve 5 between holddown spring 16-3 and the back-moving spring 17, and driving wheel 11 cooperates with two pinch roller 12-1 on the pressure head 12 rotates branch sleeve 5; Because the pressing plate 18-1 on the mounting rod 18 is formed by elastic pressure switch 20 blocks and only revolves cooperation at this moment; Be tightened in the prelocalization sleeve 1 thereby branch sleeve 5 is driven by driving wheel 11, after branch sleeve 5 and prelocalization sleeve 1 were screwed, branch sleeve 5 drove prelocalization sleeve 1 and rotates; Prelocalization sleeve 1 drives mounting rod 18 unitary rotation; Pressing plate 18-1 triggers microswitch 20-5 through middle contact 20-2 after having overcome preloading spring 20-4, the electromagnet dead electricity resets, and push rod 13 cooperates mobile down resetting at back-moving spring 17 with the branch sleeve 16-1 of elastic pressuring clamping device 16; Hand-held mounting rod 18 takes off the connector of assembled, prepares the assembling of screwing of next connector.
Embodiment two: as shown in Figure 8, present embodiment two is torque control device with the difference of embodiment one.Concrete; Be used for mounting rod 18 that spinning only joins prelocalization sleeve 1 for dividing a body structure; This mounting rod 18 is by being positioned at Handheld Division 18-4 that the rear portion is used to hand and being positioned at the installation portion 18-5 that the front portion is used for plug-in mounting prelocalization sleeve 1 and forming; Wherein, on the front end face of Handheld Division 18-4, offer connecting hole, convex with the inserting section of pegging graft and being rotatably assorted in the rear end of installation portion 18-5 with this connecting hole.Its torque control device is to be made up of the damping layer 18-5 that rotates between prevention Handheld Division 18-4 that establishes at pad between the inner hole wall of the outer peripheral face of this inserting section and connecting hole and the installation portion 18-5.
During use; The staff is held on the Handheld Division 18-4 of mounting rod 18 rear ends; This Handheld Division 18-4 utilizes the damping action of damping layer 18-6 that installation portion 18-5 is only revolved; It is after the branch sleeve in the fiber active linker 5 is tightened in the prelocalization sleeve 1, and the installation portion 18-5 of branch sleeve 5 through prelocalization sleeve 1 drive installation bar 18 front ends rotates after overcoming the damping force of damping layer, has certain dynamics of screwing between branch sleeve 5 and the prelocalization sleeve 1 thereby make.
The present invention is not limited to the foregoing description; In the foregoing description; Pressure head can directly be connected with reciprocating drive mechanism; For example pressure head directly is connected with electromagnet armature and realizes compressing and loosening of pressure head, also can holddown spring directly is fixed on electromagnet armature and the pressure head or holddown spring directly is fixed on realization pre-compacted function on electromagnet armature and the push rod that the pressure head rear end is connected; The above-mentioned reciprocating drive unit that is used for drive ram can also adopt like cylinder, motor-driven pinion and rack except that electromagnet or connect the conventional drive units such as linear electric motors of alternating current, and the clutch end of these drive units also can adopt type of drive commonly used such as wedge system that the inclined-plane cooperates or lever transmission to drive push rod or pressure head to control compressing of pressure head and loosen; Only revolve structure except that adopting jackscrew and ending spin slot cooperates between push rod and the fixed leg, the through hole cooperation realization of the corresponding respective shapes of offering in the push rod that also can adopt square, oval, polygon top section and the fixed leg; The torque control device of above-mentioned anchor clamps that are used for fixing the prelocalization sleeve and corresponding matching also can adopt conventional torque spanner, the clamping jaw and the installation of Torque Control realization prelocalization sleeve and the control of the power of screwing that utilize torque spanner to carry; Near except that using microswitch, can also being employed in pressing plate in the elastic pressure switch photoelectric detection switch is installed; Mobile realization through detecting pressing plate is to the control of pretightning force, and the above-mentioned various different structures or the equivalent deformation means of shape are all within protection scope of the present invention.
In the fiber active linker spinning machine of the present invention; Pressure head cooperates the branch sleeve that forms in the three-point fix pressed fiber flexible jumper with driving wheel; Driving wheel drives the branch sleeve rotation through friction mode and accomplishes itself and being connected of prelocalization sleeve, and makes fiber active linker be able to through the mechanical system completion assembly work of screwing, and it compared with prior art; Not only can avoid the burr on each parts of connector to hurt sb.'s feelings; And the efficient of machinery assembling is greatly improved, simultaneously, and in the spinning process; The dynamics of screwing of fiber active linker is through fixedly the anchor clamps and the cooperation between the torque control device of prelocalization sleeve have obtained effective assurance; And realized the screw unification of dynamics of fiber active linker, the once assembling qualification rate of fiber active linker is improved greatly, thereby reduced the production and the use cost of fiber active linker.

Claims (8)

1. fiber active linker spinning machine; Comprise base; It is characterized in that; On said base, be rotatably equipped with a driving wheel that drives by actuating unit; Driving wheel is provided with the outer rim that is used to rely on friction-driven fiber active linker branch sleeve, is attached with a pressure head at the outer rim of this driving wheel, and this pressure head has two and spaced apartly is used to be clamped in the clamping part on the branch sleeve outer surface and is provided with the accommodation section that is used to hold branch sleeve between two clamping parts; Be formed for the spacing three-point fix structure that compresses branch sleeve between two clamping parts of pressure head and the outer rim of driving wheel, on pressure head, be connected with driving it compresses or loosens the reciprocating drive mechanism of branch sleeve along the driving wheel radial action, with respect to the driving wheel outer rim; Comprise that also one is used for ending the anchor clamps that spinning is joined the prelocalization sleeve, be connected with the torque control device that is used to limit degree of screwing between prelocalization sleeve and the branch sleeve on these anchor clamps.
2. fiber active linker spinning machine according to claim 1; It is characterized in that; On said pressure head, be positioned at its rearward end and also be fixed with the push rod that radially extends along driving wheel, be fixed with said reciprocating drive mechanism in the rear end of this push rod and be in transmission connection, be used to limit the elastic pressuring clamping device that pressure head compresses dynamics away from driving wheel.
3. fiber active linker spinning machine according to claim 2; It is characterized in that; Described driving wheel is horizontal axis and is installed on the base; Described push rod is horizontally disposed with, and the extension line of push rod center line passes the axle center of driving wheel, and is only revolving slidable fit on its bearing of trend in a fixed leg that vertically is fixed on the base.
4. fiber active linker spinning machine according to claim 3; It is characterized in that; Described elastic pressuring clamping device comprises the adapter sleeve that is fixedly set in the push rod rear end with one heart; Axially slidable fit has a push rod that is in transmission connection with reciprocating drive mechanism in this adapter sleeve; Turn edge in the running-on place, rear end of adapter sleeve radially is provided with, on the periphery of push rod, radially convex with this adapter sleeve in the outward flange that the axial limiting block cooperates that turns edge, between the front end of push rod and push rod rear end, be top-loaded with holddown spring.
5. fiber active linker spinning machine according to claim 4; It is characterized in that; Described reciprocating drive mechanism is an electromagnet, and the rear end of said push rod cooperates with this electromagnet armature pushing tow, and between adapter sleeve and fixed leg, is provided with a back-moving spring that is sleeved on the push rod.
6. fiber active linker spinning machine according to claim 1; It is characterized in that; On two clamping parts of said pressure head, be separately installed with and be used for the pinch roller that is rotatably assorted with the branch sleeve surface; The axis of two pinch rollers and the parallel axes of driving wheel, the outer rim of this two pinch roller and driving wheel constitutes described three-point fix structure when compressing branch sleeve.
7. fiber active linker spinning machine according to claim 1; It is characterized in that; Described anchor clamps comprise a mounting rod that is used to hand; On an end end face of mounting rod, offer the jack that is used for plug-in mounting prelocalization sleeve; The hole wall of jack be provided be used for the prelocalization sleeve on only revolve the key corresponding matching only revolve structure, described torque control device comprises the pressing plate that is vertically fixed on the mounting rod, is provided with one below the pressing plate and contacts the elastic pressure switch that cooperates, is used to control reciprocating drive mechanism and/or driving wheel actuating unit with pressing plate being positioned on the driving wheel direction of rotation.
8. fiber active linker spinning machine according to claim 7; It is characterized in that; Described elastic pressure switch comprises the outer tube that vertically is fixed on pressing plate below, and vertical slidable fit has one to contact the middle contact that cooperates with pressing plate in the outer tube, is top-loaded with a compression spring in the bottom of middle contact; Horizontal fixed has a pressing plate on middle contact, is installed with a microswitch that after middle contact pressurized moves, is triggered by pressing plate outside near the base the sleeve pipe.
CN 201110294727 2011-09-28 2011-09-28 Rotary installation machine of movable optical-fiber connector Expired - Fee Related CN102335901B (en)

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CN102335901B CN102335901B (en) 2013-06-12

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CN103009052A (en) * 2013-01-11 2013-04-03 山东太平洋光缆有限公司 Automatic neck bush crimping machine of optical fiber connector
CN111713477A (en) * 2020-07-23 2020-09-29 丘春连 Agricultural is with integrative device that spouts medicine watering in strawberry garden
CN112415682A (en) * 2020-10-30 2021-02-26 桂林东衡光通讯技术有限公司 Special tool for AOC jumper wire tail pushing sleeve
CN117464614A (en) * 2023-12-28 2024-01-30 杭州华翊科技有限公司 Tool for separating compressor and combustion chamber shell of turbojet engine

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CN103009052A (en) * 2013-01-11 2013-04-03 山东太平洋光缆有限公司 Automatic neck bush crimping machine of optical fiber connector
CN111713477A (en) * 2020-07-23 2020-09-29 丘春连 Agricultural is with integrative device that spouts medicine watering in strawberry garden
CN112415682A (en) * 2020-10-30 2021-02-26 桂林东衡光通讯技术有限公司 Special tool for AOC jumper wire tail pushing sleeve
CN117464614A (en) * 2023-12-28 2024-01-30 杭州华翊科技有限公司 Tool for separating compressor and combustion chamber shell of turbojet engine
CN117464614B (en) * 2023-12-28 2024-04-02 杭州华翊科技有限公司 Tool for separating compressor and combustion chamber shell of turbojet engine

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