CN207882514U - A kind of fibre-optical splice assembling equipment - Google Patents

Abstract

The utility model discloses a kind of fibre-optical splices to assemble equipment, it is intended to ceramic member is inserted into the inserting groove of metal connecting piece automatically, its key points of the technical solution are that：A kind of fibre-optical splice assembling equipment, including rack, gantry rotation is connected with rotating disc, rotating disc upper surface offers several slots, rack is equipped with the motor of driving turn disc, rack is equipped with the first feeding device, first feeding device includes the carriage for being fixed in rack, it is fixed in the first charging cylinder of carriage upper surface, it is fixed in the slide unit of the first charging cylinder output shaft, level is slidably connected to the sliding block of slide unit, it is fixed in the first clamping jaw cylinder of sliding block lower face, it is fixed in slide unit and drives the horizontal air cylinder of the sliding block horizontal sliding, the first feeder channel set on rack and for gripping metal connecting piece for the first clamping jaw cylinder, rack is equipped with the plug assembly for ceramic member to be inserted into inserting groove.The utility model can automatic assembling optical fiber connector, improve the production efficiency of fibre-optical splice.

Description

A kind of fibre-optical splice assembling equipment

Technical field

The utility model is related to fibre-optical splice manufacture fields, more specifically, it relates to which a kind of fibre-optical splice assembles equipment.

Background technology

Fibre-optical splice is for connection to the physical interface of fiber optic cable.Existing fibre-optical splice is as shown in figure 4, include metal Connector 25 and ceramic member 26, metal connecting piece 25 offer the through-hole 27 passed through for light, and one end of metal connecting piece 25 Inserting groove 28 is offered, for shown inserting groove 28 with the through-hole 27 in being arranged concentrically, the inserting groove 28 is plugged with ceramic member 26, 26 cylinder setting of ceramic member, and ceramic member 26 offers the aperture 29 passed through for light, the aperture 29 and the through-hole 27 are located at same linear position.

Existing fibre-optical splice assembling mode is by the way that manually ceramic member is inserted into inserting groove, and operation in this way leads to optical fiber The production efficiency of connector is low, and defect rate is high.

Therefore need to propose a kind of new scheme to solve the problems, such as this.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of fibre-optical splices to assemble equipment, Can automatic assembling optical fiber connector, improve the production efficiency of fibre-optical splice.

The above-mentioned technical purpose of the utility model technical scheme is that：A kind of fibre-optical splice assembling Equipment, including rack, the gantry rotation are connected with rotating disc, and turn disc is in axially to be vertically arranged, on the rotating disc End face offers several slots, several slots are uniformly distributed around the rotating disc, and the rack is provided with driving rotation The motor of disk rotation, the rack are provided with the first feeding device that metal connecting piece is put into slot, the first charging dress Set including be fixedly connected on rack carriage, be fixedly connected on the carriage upper surface first charging cylinder, along vertical Direction, which is slidably connected, the carriage and to be fixedly connected on the slide unit of the first charging cylinder output shaft, is slidably connected along level In the slide unit lower face sliding block, be fixedly connected on the sliding block lower face the first clamping jaw cylinder, be fixedly connected on it is described Slide unit simultaneously drives the horizontal air cylinder of the sliding block horizontal sliding, is set to the rack and be used for for the first clamping jaw cylinder gripping gold Belong to the first feeder channel of connector, the rack is provided with the plug assembly for ceramic member to be inserted into inserting groove.

Pass through the first clamping jaw cylinder when needing metal connecting piece being inserted into slot by using above-mentioned technical proposal The metal connecting piece in the first feeder channel is gripped, then drives slide unit the first clamping jaw cylinder to move up by the first charging cylinder Certain distance, while driving sliding block to move in the horizontal direction by horizontal air cylinder, to make the first clamping jaw cylinder and metal connect Part is moved to the surface that rotating disc corresponds to slot, subsequently by the first charging cylinder drive slide unit and the first clamping jaw cylinder to Lower movement makes metal connecting piece be inserted into slot, and the first clamping jaw cylinder unclamps, and then the first charging cylinder drives the first clamping jaw gas Cylinder moves up, and thus metal connecting piece is inserted into corresponding slot, then rotates certain angle by motor-driven rotation disk The next step is spent and entered, and ceramic member is inserted into the inserting groove of metal connecting piece by plug assembly.

The utility model is further arranged to：The plug assembly include the convolution cylinder for being fixedly connected on the rack, It is fixedly connected on the connecting plate of the convolution cylinder output end, is fixedly connected on the connecting plate and for gripping ceramic member Two clamping jaw cylinders are set to the rack and for gripping the second feeder channel of ceramic member for the second clamping jaw cylinder, being fixedly connected In the rack and for by the grafting cylinder of ceramic member indentation inserting groove, the grafting cylinder to be located at right over rotating disc, institute When stating convolution cylinder and driving ceramic member to turn to right over corresponding metal connecting piece by the second clamping jaw cylinder, grafting cylinder and pottery Porcelain piece is located at same linear position.

By using above-mentioned technical proposal, plate is drivingly connected by the cylinder that circles round and the second clamping jaw cylinder deviates from rotating disc side To rotation, makes the second clamping jaw rotational cylinder to the second feed groove location, ceramic member is gripped by the second clamping jaw cylinder, is then passed through Second convolution cylinder is drivingly connected plate and the second clamping jaw cylinder and is rotated towards rotating disc direction, and ceramic member is made to turn to metal company Right over fitting, then being moved down by grafting cylinder output shaft, the output shaft lower face of grafting cylinder is connected to ceramic member, And be inserted into ceramic member in the inserting groove of metal connecting piece, such fibre-optical splice is just completed, and then can take out the optical fiber Connector.

The utility model is further arranged to：The rack is provided with for flattening the metal connecting piece for being inserted into slot Pressing cylinder, the pressing cylinder is between the first feed device and plug assembly, and the pressing cylinder output shaft is in perpendicular It is straight down-set and above rotating disc.

By using above-mentioned technical proposal, after metal connecting piece is inserted into slot by the first clamping jaw cylinder, motor band Turn Moving plate turns an angle, and so that the metal connecting piece is located at and flatten immediately below cylinder, then by flattening cylinder output Elongate axis flattens cylinder output shaft and is connected to metal connecting piece upper surface, and by abutting plate by the upper surface of metal connecting piece Voltage levels make metal connecting piece lower face be connected to slotting 3 bottom surface, and ensure that metal connecting piece is in be vertically arranged.

The utility model is further arranged to：The pressing cylinder output shaft vertically slidably connects casing, institute It states lower end face and is fixedly connected with abutting plate, the abutting plate is connected to metal connecting piece upper surface, and described sleeve pipe inner cavity is set It is equipped with and pushes the spring for abutting the flat cylinder direction movement of backboard tripping, the both ends of the spring are connected to pressing cylinder respectively Output shaft and abutting plate.

By using above-mentioned technical proposal, flattens cylinder driving abutting plate and be connected to metal connecting piece upper surface, to make Metal connecting piece upper surface is in horizontally disposed, and plays certain cushioning effect by spring, and metal connecting piece is avoided to be crushed damage.

The utility model is further arranged to：The rack, which is provided with, to be taken for that will be completed fibre-optical splice out of slot The withdrawing device gone out, the withdrawing device include the link block for being fixedly connected on slider side wall, are fixedly connected on the link block The third clamping jaw cylinder of lower face, when metal connecting piece is inserted into slot by the first clamping jaw cylinder, the third clamping jaw cylinder Right over the slot adjacent with the slot, and grip the fibre-optical splice being completed.

By using above-mentioned technical proposal, horizontal air cylinder push sliding block mobile and make the first clamping jaw cylinder be located at slot just on Fang Shi, sliding block drives third clamping jaw cylinder synchronizing moving, and so that third clamping jaw cylinder is moved to the optical fiber adjacent with the slot and connect Right over head, the first charging cylinder driving slide unit moves down and metal connecting piece is inserted into slot by the first clamping jaw cylinder When, slide unit synchronous drive third clamping jaw cylinder moves down, and grips fibre-optical splice；When passing through the first charging cylinder and horizontal gas When cylinder drives the first clamping jaw cylinder to grip next metal connecting piece, third clamping jaw cylinder, which synchronizes, removes rotating disc, when third is pressed from both sides When pawl cylinder unclamps and fibre-optical splice is made to fall, so that it may to be collected fibre-optical splice.

The utility model is further arranged to：Rack is provided with the digital display counter for being counted to fibre-optical splice, described Digital display counter signal is connected with photoelectric sensor.

By using above-mentioned technical proposal, when fibre-optical splice is fallen down from third clamping jaw cylinder, by photoelectric sensor It detects, and inductive signal is exported to digital display counter, digital display counter is counted, so as to be clear from fibre-optical splice The amount of being completed.

The utility model is further arranged to：The slide unit lower face is fixedly connected with guide rail, and the sliding block is long along guide rail Degree direction is slidably connected to guide rail.

By using above-mentioned technical proposal, it may insure that sliding block slides in horizontal linear direction by guide rail.

The utility model is further arranged to：The motor is stepper motor.

By using above-mentioned technical proposal, the angle for making rotating disc rotate every time by stepper motor is more accurate, improves this The accuracy of utility model.

In conclusion the utility model has the advantages that：

When assembling optical fiber connector, the first charging cylinder driving slide unit and the first clamping jaw cylinder move down and by first Clamping jaw cylinder grips the metal connecting piece in the first feed well, and then the first charging cylinder driving slide unit is moved up and resetted, Horizontal air cylinder drives sliding block to be moved in the horizontal direction towards rotating disc, and the first charging cylinder the when driving slide unit to move down again Metal connecting piece is put into slot by one clamping jaw cylinder close to corresponding slot, the first clamping jaw cylinder, then passes through the first dress Material cylinder and horizontal air cylinder driving clamping jaw cylinder are reset to initial position；Then the certain angle of stepper motor driving turn disc It spends, so that metal connecting piece is turned to and flatten immediately below cylinder, and move down and be connected to by pressing cylinder driving abutting plate Metal connecting piece upper surface makes metal connecting piece upper surface in horizontally disposed by abutting plate；Stepper motor drives rotation again Disk turns an angle, and metal connecting piece is made to turn to immediately below grafting cylinder, and by the second clamping jaw cylinder gripping second into Ceramic member in hopper, and drive the second clamping jaw rotational cylinder, the second clamping jaw cylinder to drive ceramic member rotation by the cylinder that circles round Right over to metal connecting piece, then grafting cylinder exports elongate axis and ceramic member is driven to move down and be inserted into inserting groove, Fibre-optical splice is just completed in this way；Then stepper motor driving turn disc certain angle and facilitate the fibre-optical splice for the Three clamping jaw cylinders grip, and when metal connecting piece is inserted into slot by the first clamping jaw cylinder, third clamping jaw cylinder synchronizes folder The fibre-optical splice being completed is taken, when the first clamping jaw cylinder is moved away from rotating disc by horizontal air cylinder, third clamping jaw cylinder Synchronous drive fibre-optical splice leaves rotating disc, and is collected fibre-optical splice.

Description of the drawings

Fig. 1 is the structural schematic diagram one of the present embodiment；

Fig. 2 is the sectional view of the present embodiment, is mainly used for performance and flattens cylinder, casing and abut plate；

Fig. 3 is the structural schematic diagram two of the present embodiment；

Fig. 4 is the structural schematic diagram of existing fibre-optical splice.

In figure：1, rack；2, rotating disc；3, slot；4, stepper motor；5, carriage；6, the first charging cylinder；7, sliding Platform；8, sliding block；9, the first clamping jaw cylinder；10, horizontal air cylinder；11, the first feeder channel；12, circle round cylinder；13, connecting plate；14、 Second clamping jaw cylinder；15, grafting cylinder；16, cylinder is flattened；17, casing；18, plate is abutted；19, spring；20, link block；21、 Third clamping jaw cylinder；22, digital display counter；23, photoelectric sensor；24, guide rail；25, metal connecting piece；26, ceramic member；27、 Through-hole；28, inserting groove；29, aperture；30, the second feeder channel.

Specific implementation mode

With reference to the accompanying drawings and examples, the utility model is described in detail.

One kind handle money connector assembling equipment, as depicted in figs. 1 and 2, including rack 1, rack 1 are rotatably connected to rotating disc 2, It is in be vertically arranged, and 2 upper surface of rotating disc is opened up there are six slot 3 that rotating disc 2, which rotates axial, and metal connecting piece 25 can be inserted partly Enter in slot 3, and six slots 3 are uniformly distributed rack 1 around rotating disc 2 and are provided with the motor that driving rotating disc 2 rotates, electricity Machine is stepper motor 4, and the angle for making rotating disc 2 rotate every time by stepper motor 4 is more accurate, improves the accurate of the utility model Property.Rack 1 is provided with the first feeding device for metal connecting piece 25 to be put into slot 3, and the first feeding device includes fixing It is connected to the carriage 5 of rack 1, for carriage 5 close to the side wall of rotating disc 2,5 upper surface of carriage is fixedly connected with the first dress Expect that cylinder 6, the first charging 6 output shaft of cylinder are arranged straight down, the first charging 6 output shaft of cylinder is fixedly connected with slide unit 7, sliding Platform 7 is vertically slidably connected to 5 side wall of carriage, and the lower face of slide unit 7 slidably connects sliding block 8 in the horizontal direction, and The lower face of sliding block 8 is fixedly connected with the first clamping jaw cylinder 9, and the one end of slide unit 7 far from rotating disc 2 is fixedly connected with horizontal air cylinder 10, the output shaft of horizontal air cylinder 10 is in horizontally disposed, and 10 output shaft of horizontal air cylinder is fixedly connected with sliding block 8, is also opened in rack 1 Equipped with the first feeder channel 11 for placing metal connecting piece 25, the metal connecting piece 25 in the first feeder channel 11 is positioned over for first Clamping jaw cylinder 9 grips.In this way when needing metal connecting piece 25 being inserted into slot 3, first is gripped by the first clamping jaw cylinder 9 Then metal connecting piece 25 in feeder channel 11 drives 7 first clamping jaw cylinder 9 of slide unit to move up by the first charging cylinder 6 Certain distance, while driving sliding block 8 to move in the horizontal direction by horizontal air cylinder 10, to make the first clamping jaw cylinder 9 and metal Connector 25 is moved to the surface that rotating disc 2 corresponds to slot 3, subsequently drives slide unit 7 and first by the first charging cylinder 6 Clamping jaw cylinder 9 moves down, and metal connecting piece 25 is made to be inserted into slot 3, and the first clamping jaw cylinder 9 unclamps, then the first charging gas Cylinder 6 drives the first clamping jaw cylinder 9 to move up, and thus metal connecting piece 25 is inserted into corresponding slot 3, then passes through stepping Motor 4 drives rotating disc 2 to turn an angle and enters the next step.

As shown in figures 1 and 3, rack 1 is provided with the plug assembly for ceramic member 26 to be inserted into inserting groove 28, grafting dress The convolution cylinder 12 including being fixedly connected on rack 1 is set, axial convolution 12 output end of cylinder rotation is in horizontally disposed, and the gas that circles round Cylinder 12 is fixedly connected with connecting plate 13 close to the side wall of rotating disc 2, the output end for the cylinder 12 that circles round, and connecting plate 13 is fixedly connected There is the second clamping jaw cylinder 14, the second clamping jaw cylinder 14 can transport ceramic member 26 to the surface of metal connecting piece 25, in rack 1 There is the second feeder channel 30 placed for ceramic member 26 in end face, and the ceramic member 26 in the second feeder channel 30 is for the second clamping jaw cylinder 14 Gripping；And rack 1 is also fixedly connected with is inserted into inserting for inserting groove 28 by the ceramic member 26 right over metal connecting piece 25 Cylinder 15 is connect, 15 output shaft of grafting cylinder is in be arranged straight down, and grafting cylinder 15 is located at right over rotating disc 2.It is logical in this way It crosses convolution cylinder 12 and is drivingly connected plate 13 and the second clamping jaw cylinder 14 away from the rotation of 2 direction of rotating disc, make the second clamping jaw cylinder 14 30 position of the second feeder channel is turned to, ceramic member 26 is gripped by the second clamping jaw cylinder 14, then passes through the second convolution cylinder 12 It is drivingly connected plate 13 and the second clamping jaw cylinder 14 to rotate towards 2 direction of rotating disc, and ceramic member 26 is made to turn to metal connecting piece Right over 25, then moved down by 15 output shaft of grafting cylinder, the output shaft lower face of grafting cylinder 15 is connected to ceramics Part 26, and ceramic member 26 is inserted into the inserting groove 28 of metal connecting piece 25, such fibre-optical splice is just completed, then can be with Take out the fibre-optical splice.

As depicted in figs. 1 and 2, rack 1 is additionally provided with the pressing for flattening the metal connecting piece 25 for being inserted into slot 3 Cylinder 16 flattens 16 output shaft of cylinder in setting straight down and positioned at 2 top of rotating disc, and flattens cylinder 16 and be located at first Between feed device and plug assembly, the output sleeve for flattening cylinder 16 is equipped with casing 17, the vertically company of sliding of casing 17 It is connected to the output shaft for flattening cylinder 16, and 17 lower face of casing is fixedly connected with and abuts plate 18, abutting plate 18 can be connected to pair Answer the upper surface of metal connecting piece 25 in slot 3,17 inner cavity of casing that spring 19 is installed, the both ends of the surface of spring 19 are connected to respectively It flattens 16 output shaft machine of cylinder and abuts plate 18.After metal connecting piece 25 is inserted into slot 3 by the first clamping jaw cylinder 9 in this way, Stepper motor 4 drives rotating disc 2 to turn an angle, and so that the metal connecting piece 25 is located at and flatten immediately below cylinder 16, then Elongate axis is exported by flattening cylinder 16, to make abutting plate 18 be connected to 25 upper surface of metal connecting piece, and by abutting plate 18, by the upper surface voltage levels of metal connecting piece 25, make 25 lower face of metal connecting piece be connected to 3 bottom surface of slot, and ensure metal Connector 25 is in be vertically arranged；And certain cushioning effect is played by spring 19, metal connecting piece 25 is avoided to be crushed damage.

The fibre-optical splice being completed is taken out out of slot 3 for convenience, as shown in Figure 1, rack 1 is provided with taking-up dress It sets, withdrawing device includes being fixedly connected on the link block 20 of 8 side wall of sliding block, and the lower face of link block 20 is fixedly connected with third folder Pawl cylinder 21.When horizontal air cylinder 10 pushes sliding block 8 to move and the first clamping jaw cylinder 9 is made to be located at 3 surface of slot in this way, sliding block 8 21 synchronizing moving of third clamping jaw cylinder is driven, and third clamping jaw cylinder 21 is made to be moved to the fibre-optical splice adjacent with the slot 3 just Top, the first charging cylinder 6 drive slide unit 7 to move down and metal connecting piece 25 are inserted into slot 3 by the first clamping jaw cylinder 9 When interior, 7 synchronous drive third clamping jaw cylinder 21 of slide unit moves down, and grips fibre-optical splice；When by first charging cylinder 6 and When horizontal air cylinder 10 drives the first clamping jaw cylinder 9 to grip next metal connecting piece 25, third clamping jaw cylinder 21, which synchronizes to remove, to be turned Moving plate 2, when third clamping jaw cylinder 21 unclamps and fibre-optical splice is made to fall, so that it may to be collected fibre-optical splice.

In order to facilitate the fibre-optical splice quantity collected is calculated, as shown in Figure 1, rack 1 is equipped with and counts to fibre-optical splice Digital display counter 22,22 signal of digital display counter are connected with photoelectric sensor 23, and the test side direction of photoelectric sensor 23 is simultaneously leaned on Fibre-optical splice is bordering on from the side that third clamping jaw cylinder 21 is fallen.In this way when fibre-optical splice is fallen down from third clamping jaw cylinder 21 When, it being detected by photoelectric sensor 23, and inductive signal is exported to digital display counter 22, digital display counter 22 is counted, from And it is clear how the fibre-optical splice amount of being completed.

When horizontal air cylinder 10 drives sliding block 8 to move in the horizontal direction, in order to ensure sliding block 8 is slided in horizontal linear direction It moves, as shown in figure 3,7 lower face of slide unit is fixedly connected with guide rail 24,24 length direction of guide rail is in horizontally disposed, the sliding of sliding block 8 company It is connected to guide rail 24.It may insure that sliding block 8 slides in horizontal linear direction by guide rail 24 in this way.

When assembling optical fiber connector, the first charging cylinder 6 drives slide unit 7 and the first clamping jaw cylinder 9 to move down and pass through First clamping jaw cylinder 9 grips the metal connecting piece 25 in the first feed well, and then the first charging cylinder 6 drives slide unit 7 to moving up It moves and resets, horizontal air cylinder 10 drives sliding block 8 to be moved in the horizontal direction towards rotating disc 2, and the first charging cylinder 6 drives cunning again Metal connecting piece 25 is put into slotting by the first clamping jaw cylinder 9 close to corresponding slot 3, the first clamping jaw cylinder 9 when platform 7 moves down In slot 3, then clamping jaw cylinder is driven to be reset to initial position by the first charging cylinder 6 and horizontal air cylinder 10；Then stepping electricity Machine 4 drives rotating disc 2 to turn an angle, and so that metal connecting piece 25 is turned to and flattens immediately below cylinder 16, and by flattening gas The driving of cylinder 16 abuts plate 18 and moves down and be connected to 25 upper surface of metal connecting piece, makes metal connecting piece 25 by abutting plate 18 Upper surface is in horizontally disposed；Stepper motor 4 drives rotating disc 2 to turn an angle again, so that metal connecting piece 25 is turned to slotting It connects immediately below cylinder 15, and the ceramic member 26 in the second feed well is gripped by the second clamping jaw cylinder 14, and pass through the cylinder that circles round 12 driving the second clamping jaw cylinder 14 rotations, the second clamping jaw cylinder 14 drive ceramic member 26 to turn to right over metal connecting piece 25, Then grafting cylinder 15 exports elongate axis and drives ceramic member 26 to move down and be inserted into inserting groove 28, and such fibre-optical splice is just It is completed；Then stepper motor 4 drives rotating disc 2 to turn an angle and facilitate the fibre-optical splice for third clamping jaw cylinder 21 Gripping, and when metal connecting piece 25 is inserted into slot 3 by the first clamping jaw cylinder 9, third clamping jaw cylinder 21 has synchronized gripping The fibre-optical splice being completed, when first clamping jaw cylinder 9 is moved away from rotating disc 2 by horizontal air cylinder 10, third clamping jaw cylinder 21 synchronous drive fibre-optical splices leave rotating disc 2, and are collected fibre-optical splice.

The above is only the preferred embodiment of the utility model, and the scope of protection of the utility model is not limited merely to Above-described embodiment, technical solution belonging to the idea of the present invention belong to the scope of protection of the utility model.It should refer to Go out, for those skilled in the art, it is without departing from the principle of the utility model it is several improvement and Retouching, these improvements and modifications also should be regarded as the scope of protection of the utility model.

Claims (8)

1. a kind of fibre-optical splice assembles equipment, including rack（1）, it is characterised in that：The rack（1）It is rotatably connected to rotating disc （2）, rotating disc（2）Axial rotation is in be vertically arranged, the rotating disc（2）Upper surface offers several slots（3）, several Slot（3）Around the rotating disc（2）It is uniformly distributed, the rack（1）It is provided with driving rotating disc（2）The motor of rotation, institute State rack（1）It is provided with metal connecting piece（25）It is put into slot（3）The first feeding device, first feeding device includes It is fixedly connected on rack（1）Carriage（5）, be fixedly connected on the carriage（5）First charging cylinder of upper surface（6）、 Vertically be slidably connected the carriage（5）And it is fixedly connected on the first charging cylinder（6）The slide unit of output shaft （7）, along level be slidably connected to the slide unit（7）The sliding block of lower face（8）, be fixedly connected on the sliding block（8）Lower face First clamping jaw cylinder（9）, be fixedly connected on the slide unit（7）And drive the sliding block（8）The horizontal air cylinder of horizontal sliding（10）、 It is set to the rack（1）And for supplying the first clamping jaw cylinder（9）Grip metal connecting piece（25）The first feeder channel（11）, institute State rack（1）It is provided with for by ceramic member（26）It is inserted into inserting groove（28）Plug assembly.

2. a kind of fibre-optical splice according to claim 1 assembles equipment, it is characterised in that：The plug assembly includes fixing It is connected to the rack（1）Convolution cylinder（12）, be fixedly connected on the convolution cylinder（12）The connecting plate of output end（13）、 It is fixedly connected on the connecting plate（13）And for gripping ceramic member（26）The second clamping jaw cylinder（14）, be set to the rack （1）And for supplying the second clamping jaw cylinder（14）Grip ceramic member（26）The second feeder channel（30）, be fixedly connected on the rack （1）And it is used for ceramic member（26）It is pressed into inserting groove（28）Grafting cylinder（15）, the grafting cylinder（15）Positioned at rotating disc （2）Surface, the convolution cylinder（12）Pass through the second clamping jaw cylinder（14）Drive ceramic member（26）Corresponding metal is turned to connect Fitting（25）When surface, grafting cylinder（15）With ceramic member（26）Positioned at same linear position.

3. a kind of fibre-optical splice according to claim 2 assembles equipment, it is characterised in that：The rack（1）It is arranged useful In slot will be inserted into（3）Metal connecting piece（25）The pressing cylinder flattened（16）, the pressing cylinder（16）Positioned at first Between feed device and plug assembly, the pressing cylinder（16）Output shaft is in setting straight down and is located at rotating disc（2）On Side.

4. a kind of fibre-optical splice according to claim 3 assembles equipment, it is characterised in that：The pressing cylinder（16）Output Axis vertically slidably connects casing（17）, described sleeve pipe（17）Lower face is fixedly connected with abutting plate（18）, described to support Fishplate bar（18）It is connected to metal connecting piece（25）Upper surface, described sleeve pipe（17）Inner cavity, which is provided with, pushes the abutting plate（18）The back of the body The flat cylinder of tripping（16）The spring of direction movement（19）, the spring（19）Both ends be connected to pressing cylinder respectively（16）Output Axis and abutting plate（18）.

5. a kind of fibre-optical splice according to claim 2 assembles equipment, it is characterised in that：The rack（1）It is arranged useful In fibre-optical splice will be completed from slot（3）The withdrawing device of interior taking-up, the withdrawing device include being fixedly connected on sliding block （8）The link block of side wall（20）, be fixedly connected on the link block（20）The third clamping jaw cylinder of lower face（21）, described first Clamping jaw cylinder（9）By metal connecting piece（25）It is inserted into slot（3）When, the third clamping jaw cylinder（21）Positioned at the slot（3） Adjacent slot（3）Surface, and grip the fibre-optical splice being completed.

6. a kind of fibre-optical splice according to claim 5 assembles equipment, it is characterised in that：Rack（1）Be provided with for pair The digital display counter that fibre-optical splice counts（22）, the digital display counter（22）Signal is connected with photoelectric sensor（23）.

7. a kind of fibre-optical splice according to claim 1 assembles equipment, it is characterised in that：The slide unit（7）Lower face is solid Surely it is connected with guide rail（24）, the sliding block（8）Along guide rail（24）Length direction is slidably connected to guide rail（24）.

8. a kind of fibre-optical splice according to claim 1 assembles equipment, it is characterised in that：The motor is stepper motor （4）.