CN107238896B

CN107238896B - A kind of automatic production method of fiber connector

Info

Publication number: CN107238896B
Application number: CN201710427005.6A
Authority: CN
Inventors: 沈宇杰
Original assignee: Hangzhou Yuhua Technology Co Ltd
Current assignee: Hangzhou Yuhua Technology Co., Ltd.
Priority date: 2016-06-18
Filing date: 2016-06-18
Publication date: 2019-01-01
Anticipated expiration: 2036-06-18
Also published as: CN106019493A; CN107037543A; WO2017215470A1; CN107367798B; CN107037543B; CN107436463B; CN107367798A; CN107238896A; CN106019493B; CN107436463A

Abstract

The invention belongs to connector technique fields, more particularly, to a kind of fiber connector mechanized production system and method, it uses fiber connector automated production mold and system, automated production mold is made of pressing die, positioning mould, socket mould, shaping mould, tabletting.Present invention further teaches a kind of fiber connector mechanized production system and automatic production methods.The automated manufacturing of fiber connector is realized in the present invention, efficiency reaches artificial 40-60 times；And it is safer, human cost can be greatly saved with automatic production incessantly in 24 hours, although other costs increase, the overall cost in addition to raw material declines 80-90%, dramatically saves cost.The present invention has following main advantageous effects: the structure is simple and the manufacture is easy, and the fiber connector size of manufacture is unified, product qualified rate is high, manufacturing speed is fast, at low cost；The optical fiber connector that fiber connector is formed is small in size, light-weight.

Description

A kind of automatic production method of fiber connector

The application is title are as follows: a kind of fiber connector mechanized production system and automatic production method, the applying date are as follows: On June 18th, 2016, application No. is the divisional applications of 201610435408.0 Chinese invention patent application.

Technical field

The invention belongs to connector technique field, more particularly, to a kind of fiber connector automated production mold, from Dynamicization production system and automatic production method.

Background technique

With communication and observation and control technology rapid development, optical fiber using increasing.Usually there are two types of connection sides for optical fiber Formula, one of be welding, this mode needs complicated, expensive connection equipment, and it is slow to connect speed；Two for be flexibly connected, It is commonly attached using optical fiber connector in flexible connection, structure is complicated for optical fiber continuator in the prior art, production Technique is more, higher cost.In precision ranging equipment, since equipment volume is more small and exquisite, therefore, it is intended that have small volume, The better simply optical fiber connector of structure.

On the other hand, being continuously increased with human cost, people are increasingly enhanced the demand of industrial automation, with Industry 4.0 propulsion and deeply, as the manufacturing enterprise of labor-intensive optical fiber connector, fiber connector, for automatic The demand of change is also increasingly enhanced, and applicant helps optical fiber connector manufacturer to design and implement this hair as R&D enterprise It is bright.

Summary of the invention

To solve the above-mentioned problems, an object of the present invention is to disclose fiber connector mechanized production system, this hair Second bright purpose is to disclose the automatic production method of fiber connector, and third object of the present invention is to disclose a kind of use In the mold of automated manufacturing optical fiber connector；They adopt the following technical solutions to realize.

A kind of automated production mold of fiber connector, it is characterised in that it by pressing die 1, positioning mould 2, socket mould 3, Shaping mould 4, tabletting 6 are constituted；

The shaping mould 4 is made of pedestal 41, and the center of pedestal 41 has cylindrical shrinkage pool 43, and shrinkage pool 43 is not through base The lower surface of seat 41, there is the first pillar 44 upwardly extended from 43 bottom surface center of shrinkage pool in shrinkage pool 43, have outside shrinkage pool 43 First positioning hole 421, second location hole 422, third location hole the 423, the 4th relative to the distribution of 43 axisymmetrical of shrinkage pool position Hole 424, first/second/third/the 4th location hole are all the lower surface not through pedestal 41, the upper surface of the first pillar 44 It is the upper surface for protruding from pedestal 41, the first pillar 44 is cylindrical shape, and the diameter of the first pillar 44 is less than the straight of shrinkage pool 43 Diameter；

The socket mould 3 is by socket mould body 31, the circle ring column extended downwardly from socket 31 lower surface center of mould body Shape belled body 32 extends downwardly from socket 31 lower surface center of mould body and is located at except belled body 32 and relative to belled body pair Claim the first positioning column 331, the second positioning column 332, third positioning column 333, the 4th positioning column 334 of distribution to constitute, is socketed calligraphy or painting model There is the sleeve joint hole 321 along socket calligraphy or painting model body axis perforation, the diameter of sleeve joint hole and the internal diameter of belled body are equal, set inside body 31 The axis of the axis and belled body that connect hole coincides；The diameter of first positioning column 331 is less than the aperture of first positioning hole 421, the The diameter of two positioning columns 332 is less than the aperture of second location hole 422, and the diameter of third positioning column 332 is less than third location hole 423 Aperture, less than the aperture of the 4th location hole 424, the outer diameter of belled body 32 is less than shrinkage pool 43 for the diameter of the 4th positioning column 334 Aperture, the aperture of sleeve joint hole 321 are greater than the diameter of the first pillar 44；The length of first positioning column 331 is not more than first positioning hole 421 depth, the length of the second positioning column 332 are not more than the depth of second location hole 422, and the length of third positioning column 332 is not Greater than the depth of third location hole 423, the length of the 4th positioning column 334 is not more than the depth of the 4th location hole 424, belled body 32 Length be not less than shrinkage pool 43 depth；

The tabletting 6 is by cylindrical tabletting ontology 61, the first combination upwardly extended from the upper surface of tabletting ontology 61 Column 63 and the second column 64 are constituted, and 61 center of tabletting ontology has cylindrical crimping hole 62, crimp the axis and pressure in hole 62 The axis of piece ontology 61 coincides, and the first column 63 and the second column 64 are symmetrically dispersed in the two sides for crimping hole 62, the The center of one column 63 has first annular groove 631, and the center of the second column 64 has second annular groove 641；Or Tabletting 6 described in person is made of cylindrical tabletting ontology 61, and 61 center of tabletting ontology has cylindrical crimping hole 62, crimps hole The axis of 62 axis and tabletting ontology 61 coincides；The diameter of the tabletting ontology 61 is slightly less than the diameter of sleeve joint hole 321, pressure The diameter for connecing hole 62 is slightly larger than the diameter of the first pillar 44；

The positioning mould 2 is made of cylindrical positioning mould body 21, and positioning mould body 21, which has from following table, to be prolonged upwardly The cylindrical positioning die hole 211 stretched, positioning die hole 211 are the upper surfaces not through positioning mould body 21, position die hole 211 Axis with positioning mould body 21 axis is overlapped, position die hole 211 diameter slightly larger than the first pillar 44 diameter, positioning mould The depth in hole 211 is not less than the length of the first pillar 44, and the diameter of positioning mould body 21 is less than the diameter of sleeve joint hole 321, positioning The length of mould body 21 is not less than: the height of socket mould body 31 and the sum of the height of belled body 32；

The pressing die 1 is connected as by compacting interconnecting piece 11, positioned at 11 lower section of compacting interconnecting piece and with compacting interconnecting piece 11 The cylindrical compacting mould body 12 of one is constituted, and suppressing inside mould body 12, there is 12 following table of slef-suppression mould body to prolong upwardly The axis of the cylindrical compacting hole 121 stretched, compacting hole 121 is overlapped with the axis of compacting mould body 12, and compacting hole 121 is through pressure The upper and lower surfaces of molding ontology 12, the length of compacting mould body 12 suppresses mould body not less than the length of positioning mould body 21 12 diameter is less than the diameter of sleeve joint hole 321, and the diameter of compacting hole 121 is greater than the diameter of positioning mould body 21；

When manufacturing fiber connector, shaping mould 4 is fixedly mounted on the work station of turntable, and socket mould 3 is sleeved on into On pattern 4, ceramic powder is injected in the sleeve joint hole 321 of socket mould, a period of time is pressed into toward 4 direction of shaping mould in 6 bottom surface of tabletting Tabletting 6 is taken out afterwards, and positioning mould 2 is mounted in socket mould 3, is infused again in the gap formed between positioning mould 2 and sleeve joint hole 321 Enter ceramic powder, the gap formed between positioning mould 2 and sleeve joint hole 321 pushes and kept for a period of time, i.e., real at optical fiber The manufacture of connector.

A kind of fiber connector mechanized production system, it is characterised in that it includes: the installation of socket mould and feedback unit A31, the installation of the first ceramic powder and feedback unit A32, tabletting installation and feedback unit A33, the first compacting and feedback unit A34, tabletting taking-up and feedback unit A35, positioning mould installation and feedback unit A36, the installation of the second ceramic powder and feedback unit A37, pressing die decline and compacting and feedback unit A38, pressing die resets and feedback unit A39, the taking-up of socket mould and feedback list First A3A, positioning mould takes out and feedback unit A3B, embryo material taking-up, placement and feedback unit A3C, shaping mould cleaning and feedback unit The center that A3D, turntable rise rotation drop position alignment and feedback unit A3E and be all bi-directionally connected with any of the above-described unit controls The workbench A21 that unit A30, turntable A11, position are fixed and be located above turntable；Central control unit A30 coordinated control The movement of any of the above-described unit makes feedback signal after the completion of any of the above-described unit movement and is sent to central control unit A30；

The lower part of turntable A11 is equipped with driven rotary part A12, and the outer surface of the lower end driven rotary part A12 is symmetrical Ground is dispersed with multiple groove A121 or the outside of the lower end driven rotary part A12 is equipped with driven gear, the upper table of turntable A11 Face has been sequentially distributed the first work station A111, the second work station A112, third work station A113, the 4th work counterclockwise Station A114, the 5th work station A115, the 6th work station A116, the 7th work station A117, the 8th work station A118, 9th work station A119, the tenth work station A11A, the 11st work station A11B, the 12nd work station A11C, the tenth Three work station A11D, the 14th work station A11E, the turntable of central control unit A30 control rise rotation drop position alignment And feedback unit A3E rotates turntable in the way of one stepping of work station in the counterclockwise direction；

Workbench A21 fixes the position of workbench by being mounted on the important actor 23 of the upper surface workbench A21, workbench edge Counterclockwise be sequentially distributed: the first station hole, second station hole A212,3rd station hole A213, the 4th station hole A214, 5th station hole, the 6th station hole, the 7th station hole A217, eighth station hole A218, the 9th station hole A219, the tenth station Hole, the 11st station hole, twelve-station hole, the 13rd station hole A21D, the 14th station hole A21E；First station hole is located at The surface of first work station A111, second station hole location A212 in the second work station A112 surface, and so on；

First station hole is provided with first passage slot A221,3rd station hole to workbench A21's to the outer of workbench A21 Outer is provided with third channel slot A223, the 5th station hole and is provided with Five-channel slot A225, the 6th station to the outer of workbench A21 Hole is provided with the 6th channel slot A226, the tenth station hole to the outer of workbench A21 and is provided with the tenth channel to the outer of workbench A21 Slot A22A, the 11st station hole are provided with the 11st channel slot A22B, twelve-station hole to workbench to the outer of workbench A21 The outer of A21 is provided with the 12nd channel slot A22C；

The installation of socket mould and feedback unit A31 are mounted in the first station hole, the first ceramic powder is installed and feedback unit A32 is mounted in second station hole, tabletting installation and feedback unit A33 are mounted in 3rd station hole, the first compacting and feedback Unit A34 is mounted in the 4th station hole, tabletting taking-up and feedback unit A35 are mounted in the 5th station hole, positioning mould installation And feedback unit A36 is mounted in the 6th station hole, the installation of the second ceramic powder and feedback unit A37 are mounted on the 7th station hole In, pressing die decline and compacting and feedback unit A38 be mounted in eighth station hole, pressing die reset and feedback unit A39 peace In the 9th station hole, socket mould takes out and feedback unit A3A is mounted in the tenth station hole, positioning mould takes out and feedback list First A3B is mounted in the 11st station hole, and embryo material takes out, placement and feedback unit A3C are mounted in twelve-station hole, form Mould cleaning and feedback unit A3D are mounted in the 13rd station hole, turntable rises rotation drop position alignment and feedback unit A3E peace Inside driven rotary part A12.

The automated manufacturing of fiber connector is realized in the present invention, efficiency reaches artificial 40-60 times；And more pacify Entirely, human cost can be greatly saved, although other costs increase, except original with automatic production incessantly in 24 hours Overall cost outside material declines 80-90%, dramatically saves cost.

The present invention has following main advantageous effects: the structure is simple and the manufacture is easy, the fiber connector size system of manufacture One, product qualified rate is high, manufacturing speed is fast, at low cost；The optical fiber connector that fiber connector is formed is small in size, light-weight.

Detailed description of the invention

Fig. 1 is the mold that optical fiber connector is manufactured used in the present invention, the schematic perspective view after assembling dismantling.

Fig. 2 is the schematic perspective view of pressing die in the mold of present invention manufacture optical fiber connector.

Fig. 3 is the schematic perspective view of positioning mould in the mold of present invention manufacture optical fiber connector.

Fig. 4 is the schematic perspective view of socket mould in the mold of invention manufacture optical fiber connector.

Fig. 5 is the schematic perspective view of the die for molding mould of invention manufacture optical fiber connector.

Fig. 6 is the amplified structural schematic diagram of section of the Fig. 1 along the direction A-A.

Fig. 7 is the schematic perspective view of tabletting in the mold of invention manufacture optical fiber connector.

Fig. 8 is the schematic perspective view of fiber connector produced by the present invention.

Fig. 9 is the amplified structural schematic diagram of section of the Fig. 8 along the direction B-B.

Figure 10 is the functional block diagram of fiber connector mechanized production system of the present invention.

Figure 11 is the structural schematic diagram of a part of fiber connector mechanized production system of the present invention.

Figure 12 is the top view that Figure 11 is.

Figure 13 is the top view in Figure 10 above turntable.

Specific embodiment

Embodiment 1

See Fig. 1 to Fig. 9, a kind of automated production mold of fiber connector, it is characterised in that it is by pressing die 1, fixed Position mould 2, socket mould 3, shaping mould 4, tabletting 6 are constituted；

Described above is a kind of for manufacturing the mold of manufacture fiber connector automatically, which is characterized in that the pressing die, Positioning mould, socket mould, shaping mould, tabletting material be all steel or iron or alloy.

When the principle of the present invention is such that manufacture fiber connector, shaping mould 4 is fixedly mounted on the work work of turntable On position, socket mould 3 is sleeved on shaping mould 4, and positioning mould 2 is mounted in socket mould 3, and pressing die 1 is sleeved on outside positioning mould 2；First First positioning column 331 is placed in first positioning hole 421, the second positioning column 332 is placed in second location hole 422, third positioning column 332 It is placed in third location hole, the 4th positioning column 334 is placed in the 4th location hole, and belled body 32 is placed in shrinkage pool 43, and 321 sets of sleeve joint hole is the Outside one pillar 44, shaping mould 4 is reached and has been fixed with the relative position for being socketed mould 3；Then ceramic powder is injected in sleeve joint hole 321, It reaches 44 upper surface of the first pillar appropriate location below and is kept for a period of time, compacting ceramic material forms fiber connector sheet The bottom of body 5 and fiber-optic fixing-hole 52；Positioning mould 2 is put into sleeve joint hole 321 again, makes 211 sets of die hole of positioning in the first pillar Outside 44；Then ceramic powder is re-injected in sleeve joint hole 321, is reached socket 3 upper surface of mould position below, is made pressing die 1 It moves downward, and makes 121 sets of compacting hole outside positioning mould body 21, be pressed into suitable position and kept for a period of time form light The top of fine connector body 5 and appearance cable chamber 51；The manufacture of the idiosome of fiber connector is completed, then is sintered and completes The manufacture of fiber connector.

After the completion of compacting, pressing die 1 is withdrawn, takes out positioning mould 2, socket mould 3 is withdrawn, takes out idiosome, that is, complete optical fiber The manufacture of connector since idiosome also has greater hardness, therefore can be taken out conveniently, will not deform；Then it clears up in shaping mould 4 Residue.

When suppressing for the first time, appropriate location, i.e. high and low position can determine the height of the bottom of fiber connector ontology 5；It needs The tabletting with shrinkage pool 43,44 phase of the first pillar that will be other is suppressed, and pellet diameter is slightly less than the diameter of shrinkage pool 43, tabletting Corresponding position there is the crimping hole more slightly larger than 44 diameter of the first pillar, tabletting can cover on the first pillar 44；Second of compacting When, suitable position, the i.e. height on the top of fiber connector ontology 5, according to can demand determine.

Mold in the present invention can produce different length, various sizes of fiber connector.

In the present invention, first to fourth positioning column is not limited to four, at least can be two, of course, it is possible to be other More；Meanwhile first to fourth location hole be not limited to four, at least can be two, of course, it is possible to be other multiple, only It wants that positioning column can be accommodated.

In the present invention, the depth of shrinkage pool 43 is 2.0mm ± 0.5mm.

In the present invention, the length of socket mould body 31 is 8mm~25mm.

Embodiment 2

See Figure 10 to Figure 13, a kind of fiber connector mechanized production system, it is characterised in that it includes: socket mould Installation and feedback unit A31, the installation of the first ceramic powder and feedback unit A32, tabletting installation and feedback unit A33, the first pressure System and feedback unit A34, tabletting taking-up and feedback unit A35, positioning mould installation and feedback unit A36, the second ceramic powder peace Dress and feedback unit A37, pressing die decline and compacting and feedback unit A38, pressing die resets and feedback unit A39, socket mould It takes out and feedback unit A3A, positioning mould taking-up and feedback unit A3B, embryo material taking-up, placement and feedback unit A3C, shaping mould is clear Wash and feedback unit A3D, turntable rise rotation drop position alignment and feedback unit A3E and with all two-way company of any of the above-described unit The workbench A21 that the central control unit A30 that connects, turntable A11, position are fixed and be located above turntable；Center control is single The movement of first any of the above-described unit of A30 coordinated control makes feedback signal after the completion of any of the above-described unit movement and is sent to center Control unit A30；

The installation of socket mould and feedback unit A31 are mounted in the first station hole, the first ceramic powder is installed and feedback unit A32 is mounted in second station hole, tabletting installation and feedback unit A33 are mounted in 3rd station hole, the first compacting and feedback Unit A34 is mounted in the 4th station hole, tabletting taking-up and feedback unit A35 are mounted in the 5th station hole, positioning mould installation And feedback unit A36 is mounted in the 6th station hole, the installation of the second ceramic powder and feedback unit A37 are mounted on the 7th station hole In, pressing die decline and compacting and feedback unit A38 be mounted in eighth station hole, pressing die reset and feedback unit A39 peace In the 9th station hole, socket mould takes out and feedback unit A3A is mounted in the tenth station hole, positioning mould takes out and feedback list First A3B is mounted in the 11st station hole, and embryo material takes out, placement and feedback unit A3C are mounted in twelve-station hole, form Mould cleaning and feedback unit A3D are mounted in the 13rd station hole, turntable rises rotation drop position alignment and feedback unit A3E peace Inside driven rotary part A12；

It is fixedly installed with a shaping mould 4 on each work station of turntable, starts fiber connector automated production System；

The installation of socket mould and feedback unit A31 are moved along first passage slot A221 to be taken socket mould 3 and is sleeved on the first work Outside the shaping mould 4 of station, feedback signal is sent after the completion to central control unit, it is counterclockwise that central control unit controls turntable A work station is rotated, makes to move on to the second work station at the first work station originally, remaining is also successively moved down One work station；

Central control unit obtain originally at the first work station have been moved to the second work station really after, instruction First ceramic powder installation and feedback unit A32 movement, to socket mould sleeve joint hole 321 in inject the first ceramic powder to make a reservation for Position after, send feedback signal to central control unit, central control unit control turntable rotates a job counterclockwise Station makes to move on to third work station at the second work station originally, remaining also successively moves down a work station；

Central control unit obtain originally at the second work station have been moved to third work station really after, center Control unit instructs tabletting installation and feedback unit A33 to act along third channel slot A223, and tabletting is installed in place toward shaping mould 4 Afterwards, feedback signal is sent to central control unit, and central control unit control turntable rotates a work station counterclockwise, makes The 4th work station originally is moved on at third work station, remaining also successively moves down a work station；

Central control unit obtain originally at the third work station have been moved to the 4th work station really after, center After pressing certain time and distance, it is single to center control to send feedback signal by the first compacting of control unit instruction and feedback unit A34 Member, central control unit control turntable rotate a work station counterclockwise, make the shifting originally at the 4th work station To the 5th work station, remaining also successively moves down a work station；

Central control unit obtain originally at the 4th work station have been moved to the 5th work station really after, center Control unit instruction tabletting taking-up and feedback unit A35 are moved along Five-channel slot A225, after taking out tabletting, send feedback signal To central control unit, central control unit control turntable rotates a work station counterclockwise, makes to be in the 5th work originally Make to move on to the 6th work station at station, remaining also successively moves down a work station；

Central control unit obtain originally at the 5th work station have been moved to the 6th work station really after, center Control unit instruction positioning mould installation and feedback unit A36 are moved along the 6th channel slot A226, and positioning mould 2 is mounted on socket mould 3 In, feedback signal is sent to central control unit, and central control unit control turntable rotates a work station counterclockwise, makes The 7th work station originally is moved on at the 6th work station, remaining also successively moves down a work station；

Central control unit obtain originally at the 6th work station have been moved to the 7th work station really after, center Control unit instructs the installation of the second ceramic powder and feedback unit A37, after completing second of injection ceramic powder, sends feedback letter Number central control unit is given, central control unit control turntable rotates a work station counterclockwise, makes originally in the 7th The 8th work station is moved on at work station, remaining also successively moves down a work station；

Central control unit obtain originally at the 7th work station have been moved to the 8th work station really after, center Control unit instructs pressing die decline and compacting and feedback unit A38, after completing predetermined stroke, pressure and the compacting of time, hair Feedback signal is sent back to central control unit, central control unit control turntable rotates a work station counterclockwise, makes original The 9th work station is moved on at the 8th work station, remaining also successively moves down a work station；

Central control unit obtain originally at the 8th work station have been moved to the 9th work station really after, center Control unit instructs pressing die reset and feedback unit A39, after pressing die returns to home position, sends feedback signal and controls to center Unit processed, central control unit control turntable rotate a work station counterclockwise, make to be at the 9th work station originally Move on to the tenth work station, remaining also successively moves down a work station；

Central control unit obtain originally at the 9th work station have been moved to the tenth work station really after, center Control unit instruction socket mould takes out and feedback unit A3A is moved along the tenth channel slot A22A, after taking out socket mould, sends feedback For signal to central control unit, central control unit control turntable rotates a work station counterclockwise, makes originally in the The 11st work station is moved on at ten work stations, remaining also successively moves down a work station；

Central control unit obtain originally at the tenth work station have been moved to the 11st work station really after, in Centre control unit instruction positioning mould takes out and feedback unit A3B is moved along the 11st channel slot A22B, after taking out positioning mould, sends Feedback signal rotates a work station counterclockwise, makes to locate originally to central control unit, central control unit control turntable The 12nd work station is moved on at the 11st work station, remaining also successively moves down a work station；

Central control unit obtain originally at the 11st work station have been moved to the 12nd work station really after, Central control unit instruction is placed and feedback unit A3C is moved along the 12nd channel slot A22C, the machine in placement and feedback unit After tool hand taking-up embryo material is placed into designated position, feedback signal is sent to central control unit, central control unit control rotation Platform rotates a work station counterclockwise, makes to move on to the 13rd work station at the 12nd work station originally, remaining Also successively move down a work station；

Central control unit obtain originally at the 12nd work station have been moved to the 13rd work station really after, Central control unit instructs shaping mould cleaning and feedback unit A3D, the Pneumatic cleaning device in shaping mould cleaning and feedback unit Shaping mould is cleaned by the inswept position of regulation, time, pressure using high pressure, after the completion of cleaning, sends feedback signal To central control unit, central control unit control turntable rotates a work station counterclockwise, makes originally in the 13rd The 14th work station is moved on at work station, remaining also successively moves down a work station；

Central control unit obtain originally at the 13rd work station have been moved to the 14th work station really after, Central control unit coordination determines whether exception, and stop working sending alarm if having exception, if without exception stop one section of rule The fixed time, then central control unit control turntable rotates a work station counterclockwise, makes to be in the 14th work originally Make to move on to the first work station at station, remaining also successively moves down a work station；

It circuits sequentially, other each work stations also circuit sequentially, and due to each moment, remove the 14th work station Outside, all working at other work stations, one work station of every movement be by the time in all stations it is longest subject to；And Not only to judge whether itself is completed before movement every time, also to judge whether other work stations have been fully completed, only After being fully completed, central control unit just controls turntable and moves down a work station counterclockwise.

System described above, automatically in the method for manufacture fiber connector, first and second described ceramic powder is all It can be for nano aluminium oxide or nano silicon oxide or nano silicon carbide ceramic or the ceramic powder by weight, by following original The ceramic powder that material is constituted is made: silicon carbide: 60~70 parts, zirconium oxide: 10~20 parts, silica: 15~25 parts, titanium dioxide: 4~ 6 parts, polyethylene wax: 1~2 part, ammonium polyacrylate: 1~3 part, polyvinyl alcohol: 0.3~0.5 part, yttrium oxide: 0.1~0.3 part, Oleic acid: 2~4 parts, the light stabilizer of commercially available model 622: 0.05~0.15 part, the ultraviolet radiation absorption of commercially available model UV-327 Agent: 0.04~0.10 part, the anti-yellowing agent of commercially available model KT-023 or V78-PTDS: 0.1~0.3 part；Or the ceramics By weight, it is made of the ceramic powder that following raw material is constituted: silicon carbide: 60 parts, zirconium oxide: 10 parts, silica: 15 parts, titanium White powder: 4 parts, polyethylene wax: 1 part, ammonium polyacrylate: 1 part, polyvinyl alcohol: 0.3 part, yttrium oxide: 0.1 part, oleic acid: 2 parts, city Sell the light stabilizer of model 622: 0.05 part, the ultraviolet absorbing agent of commercially available model UV-327: 0.04 part, commercially available model The anti-yellowing agent of KT-023 or V78-PTDS: 0.1 part；Or the ceramics are by weight, the ceramics being made of following raw material Powder is made: silicon carbide: 65 parts, zirconium oxide: 15 parts, silica: 20 parts, titanium dioxide: 5 parts, polyethylene wax: 1.5 parts, polyacrylic acid Ammonium: 2 parts, polyvinyl alcohol: 0.4 part, yttrium oxide: 0.2 part, oleic acid: 3 parts, the light stabilizer of commercially available model 622: 0.10 part, city Sell the ultraviolet absorbing agent of model UV-327: 0.07 part, the anti-yellowing agent of commercially available model KT-023 or V78-PTDS: 0.2 Part；Or the ceramics are by weight, are made of the ceramic powder that following raw material is constituted: silicon carbide: 70 parts, zirconium oxide: 20 parts, Silica: 25 parts, titanium dioxide: 6 parts, polyethylene wax: 2 parts, ammonium polyacrylate: 3 parts, polyvinyl alcohol: 0.5 part, yttrium oxide: 0.3 Part, oleic acid: 4 parts, the light stabilizer of commercially available model 622: 0.15 part, the ultraviolet absorbing agent of commercially available model UV-327: 0.10 part, the anti-yellowing agent of commercially available model KT-023 or V78-PTDS: 0.3 part；Or it is described ceramics by weight, by with The ceramic powder that lower raw material is constituted is made: silicon carbide: 68 parts, zirconium oxide: 12 parts, silica: 18 parts, titanium dioxide: 4 parts, polyethylene Wax: 1.6 parts, ammonium polyacrylate: 2.2 parts, polyvinyl alcohol: 0.36 part, yttrium oxide: 0.18 part, oleic acid: 3 parts, commercially available model 622 light stabilizer: 0.08 part, the ultraviolet absorbing agent of commercially available model UV-327: 0.09 part, commercially available model KT-023 or The anti-yellowing agent of V78-PTDS: 0.24 part.

The formula of above-mentioned ceramic powder is successively known as: a wide range of formula, the first formula, the second formula, third formula, the 4th Formula is represented sequentially as #1, #2, # using the product serial number expression in the present invention made of above-mentioned material by said sequence respectively 3,#4,#5；This product of commercially available model W0.25 Ceramic manufacturing is expressed as #6；100 samples are respectively taken, by test, are obtained Following tests result.

From upper table, it is apparent that product made of ceramic powder in the present invention has and more excellent resistance to fall, is resistance to Pressure, resistance to complex environment, resistance to highlighter-fastness energy.

The present invention is not limited to above-mentioned preferred forms, it should be understood that design of the invention can be by other various shapes Formula is implemented to use, they also fall in protection scope of the present invention.

Claims

1. a kind of automatic production method of fiber connector, it is characterised in that it has used a kind of for manufacturing optical fiber company automatically The mold of connector and a kind of fiber connector mechanized production system；

A kind of mold for manufacturing fiber connector automatically is by pressing die, positioning mould, socket mould, shaping mould, tabletting structure At；

The shaping mould is made of pedestal, and the center of pedestal has cylindrical shrinkage pool, and shrinkage pool is the lower surface not through pedestal, There is the first pillar upwardly extended from shrinkage pool bottom surface center in shrinkage pool, have outside shrinkage pool relative to the distribution of shrinkage pool axisymmetrical First positioning hole, second location hole, third location hole, the 4th location hole, first/second/third/the 4th location hole is all not pass through The lower surface of pedestal is worn, the upper surface of the first pillar is the upper surface for protruding from pedestal, and the first pillar is cylindrical shape, the The diameter of one pillar is less than the diameter of shrinkage pool；

It is described socket mould by socket mould body, from socket mould body lower surface center extend downwardly circle ring column shape belled body, It extends downwardly and is located at except belled body and symmetrical first fixed relative to belled body from socket mould body lower surface center Position column, the second positioning column, third positioning column, the 4th positioning column are constituted, and are had inside socket mould body along socket calligraphy or painting model body axis The sleeve joint hole of perforation, the diameter of sleeve joint hole and the internal diameter of belled body are equal, and the axis of sleeve joint hole and the axis of belled body coincide； The diameter of first positioning column is less than the aperture of first positioning hole, and the diameter of the second positioning column is less than the aperture of second location hole, the The diameter of three positioning columns is less than the aperture of third location hole, aperture of the diameter less than the 4th location hole of the 4th positioning column, socket The outer diameter of body is less than the aperture of shrinkage pool, and the aperture of sleeve joint hole is greater than the diameter of the first pillar；The length of first positioning column is not more than The depth of first positioning hole, the length of the second positioning column are not more than the depth of second location hole, and the length of third positioning column is little In the depth of third location hole, the length of the 4th positioning column is not more than the depth of the 4th location hole, and the length of belled body is not less than The depth of shrinkage pool；

The tabletting is by cylindrical tabletting ontology, the first column and the second knot that upwardly extend from the upper surface of tabletting ontology Zygostyle is constituted, and tabletting body center has cylindrical crimping hole, and the axis for crimping the axis and tabletting ontology in hole coincides, the One column and the second column are symmetrically dispersed in the two sides in crimping hole, and the center of the first column has first annular recessed The center of slot, the second column has second annular groove；Or the tabletting is made of cylindrical tabletting ontology, tabletting sheet Body center has cylindrical crimping hole, and the axis for crimping the axis and tabletting ontology in hole coincides；The tabletting ontology it is straight Diameter is slightly less than the diameter of sleeve joint hole, and the diameter for crimping hole is slightly larger than the diameter of the first pillar；

The positioning mould is made of cylindrical positioning mould body, and positioning mould body has the cylinder upwardly extended from lower surface Positioning die hole, positioning die hole is the upper surface not through positioning mould body, positions the axis and positioning mould body of die hole Axis is overlapped, and the diameter for positioning die hole is slightly larger than the diameter of the first pillar, and the depth for positioning die hole is not less than the length of the first pillar Degree, the diameter for positioning mould body are less than the diameter of sleeve joint hole, and the length for positioning mould body is not less than: be socketed the height of mould body with The sum of height of belled body；

The cylinder that the pressing die is connected as one by compacting interconnecting piece, below compacting interconnecting piece and with compacting interconnecting piece Compacting mould body constitute, pressing die body interior has the cylindrical compacting hole that upwardly extends of slef-suppression mould body lower surface, The axis of compacting hole is overlapped with the axis of compacting mould body, and compacting hole is through the upper and lower surfaces of compacting mould body, pressing die The length of ontology not less than positioning mould body length, suppress mould body diameter be less than sleeve joint hole diameter, compacting hole it is straight Diameter is greater than the diameter of positioning mould body；

When manufacturing fiber connector, shaping mould is fixedly mounted on the work station of turntable, and socket die sleeve is mounted on shaping mould, Ceramic powder is injected in the sleeve joint hole of socket mould, takes out tabletting after a period of time is pressed toward shaping mould direction in tabletting bottom surface, it is fixed Position mould is mounted in socket mould, ceramic powder is re-injected in the gap formed between positioning mould and sleeve joint hole, along positioning mould The gap formed between sleeve joint hole pushes and is kept for a period of time, that is, realizes the manufacture of fiber connector；

The pressing die, positioning mould, socket mould, shaping mould material be all alloy；

A kind of fiber connector mechanized production system includes: the installation of socket mould and feedback unit, the first ceramic powder Installation and feedback unit, tabletting installation and feedback unit, the first compacting and feedback unit, tabletting taking-up and feedback unit, positioning Mould installation and feedback unit, the installation of the second ceramic powder and feedback unit, pressing die decline and compacting and feedback unit, pressing die Reset and feedback unit, socket mould takes out and feedback unit, positioning mould taking-up and feedback unit, embryo material taking-up, placement and feedback Unit, shaping mould cleaning and feedback unit, turntable rise rotation drop position alignment and feedback unit and with any of the above-described unit all The workbench that the central control unit that is bi-directionally connected, turntable, position are fixed and be located above turntable；Central control unit association The movement of any of the above-described unit of regulation system makes feedback signal and is sent to center control list after the completion of any of the above-described unit movement Member；

The lower part of turntable is equipped with driven rotary part, and the outer surface of driven rotary part lower end is symmetrically distributed multiple recessed The outside of slot or driven rotary part lower end is equipped with driven gear, and the upper surface of turntable has been sequentially distributed the first work counterclockwise Make station, the second work station, third work station, the 4th work station, the 5th work station, the 6th work station, the 7th Work station, the 8th work station, the 9th work station, the tenth work station, the 11st work station, the 12nd work work Position, the 13rd work station, the 14th work station, the turntable of central control unit control rise rotation drop position alignment and return Feedback unit rotates turntable in the way of one stepping of work station in the counterclockwise direction；

Workbench fixes the position of workbench by being installed on the workbench the important actor on surface, workbench in the counterclockwise direction according to It is secondary to be distributed with: the first station hole, second station hole, 3rd station hole, the 4th station hole, the 5th station hole, the 6th station hole, Seven station holes, eighth station hole, the 9th station hole, the tenth station hole, the 11st station hole, twelve-station hole, the 13rd work Position hole, the 14th station hole；First station hole is located at the surface of the first work station, second station hole is located at the second work work The surface of position, and so on；

First station hole is provided with first passage slot to the outer of workbench, 3rd station hole is provided with third to the outer of workbench and leads to Road slot, the 5th station hole are provided with Five-channel slot, the 6th station hole to the outer of workbench and are provided with the 6th to the outer of workbench Channel slot, the tenth station hole are provided with the tenth channel slot, the 11st station hole to the outer of workbench and are provided with to the outer of workbench 11st channel slot, twelve-station hole are provided with the 12nd channel slot to the outer of workbench；

The installation of socket mould and feedback unit are mounted in the first station hole, the installation of the first ceramic powder and feedback unit are mounted on the In two station holes, tabletting installation and feedback unit are mounted in 3rd station hole, the first compacting and feedback unit are mounted on the 4th In station hole, tabletting taking-up and feedback unit are mounted in the 5th station hole, positioning mould installation and feedback unit are mounted on the 6th In station hole, the second ceramic powder is installed and feedback unit is mounted in the 7th station hole, pressing die declines and suppresses and feedback Unit, which is mounted in eighth station hole, pressing die resets and feedback unit is mounted in the 9th station hole, is socketed mould takes out and returns Feedback unit is mounted in the tenth station hole, positioning mould is taken out and feedback unit is mounted in the 11st station hole, and embryo material takes out, puts It sets and feedback unit is mounted in twelve-station hole, shaping mould cleaning and feedback unit are mounted in the 13rd station hole, revolve Turntable rises rotation drop position alignment and feedback unit is mounted on inside driven rotary part；

The automatic production method of the fiber connector are as follows:

It is fixedly installed with a shaping mould on each work station of turntable, starts fiber connector mechanized production system；

The installation of socket mould and feedback unit move the shaping mould for taking socket mould and being sleeved on the first work station along first passage slot Outside, feedback signal is sent after the completion to central control unit, and central control unit control turntable rotates a job counterclockwise Station makes to move on to the second work station at the first work station originally, remaining also successively moves down a work station；

Central control unit obtain originally at the first work station have been moved to the second work station really after, instruction first Ceramic powder installation and feedback unit movement, after injecting the first ceramic powder to scheduled position into the sleeve joint hole of socket mould, Feedback signal is sent to central control unit, central control unit control turntable rotates a work station counterclockwise, makes original Third work station is moved on to be at the second work station, remaining also successively moves down a work station；

Central control unit obtain originally at the second work station have been moved to third work station really after, center control Unit instructs tabletting installation and feedback unit to act along third channel slot, after tabletting is installed in place toward shaping mould, sends feedback letter Number give central control unit, central control unit control turntable rotate a work station counterclockwise, make to be in third originally The 4th work station is moved on at work station, remaining also successively moves down a work station；

Central control unit obtain originally at the third work station have been moved to the 4th work station really after, center control The first compacting of unit instruction and feedback unit after pressing certain time and distance, send feedback signal to central control unit, center Control unit control turntable rotates a work station counterclockwise, makes to move on to the 5th work at the 4th work station originally Make station, remaining also successively moves down a work station；

Central control unit obtain originally at the 4th work station have been moved to the 5th work station really after, center control Unit instructs tabletting taking-up and feedback unit, after taking out tabletting, sends feedback signal to central control unit, central control unit Control turntable rotates a work station counterclockwise, makes to move on to the 6th work station at the 5th work station originally, Remaining also successively moves down a work station；

Central control unit obtain originally at the 5th work station have been moved to the 6th work station really after, center control Unit instructs positioning mould installation and feedback unit, and positioning mould is mounted in socket mould, sends feedback signal to central control unit, Central control unit control turntable rotates a work station counterclockwise, makes to move on to the at the 6th work station originally Seven work stations, remaining also successively moves down a work station；

Central control unit obtain originally at the 6th work station have been moved to the 7th work station really after, center control Unit instructs the installation of the second ceramic powder and feedback unit, after completing second of injection ceramic powder, sends feedback signal in Control unit is entreated, central control unit control turntable rotates a work station counterclockwise, makes originally in the 7th work work The 8th work station is moved on at position, remaining also successively moves down a work station；

Central control unit obtain originally at the 7th work station have been moved to the 8th work station really after, center control Unit instructs pressing die decline and compacting and feedback unit, after completing predetermined stroke, pressure and the compacting of time, sends feedback letter Number central control unit is given, central control unit control turntable rotates a work station counterclockwise, makes originally in the 8th The 9th work station is moved on at work station, remaining also successively moves down a work station；

Central control unit obtain originally at the 8th work station have been moved to the 9th work station really after, center control Unit instructs pressing die to reset and feedback unit, after pressing die returns to home position, sends feedback signal to central control unit, Central control unit control turntable rotates a work station counterclockwise, makes to move on to the at the 9th work station originally Ten work stations, remaining also successively moves down a work station；

Central control unit obtain originally at the 9th work station have been moved to the tenth work station really after, center control Unit instruction socket mould takes out and feedback unit, after taking out socket mould, sends feedback signal to central control unit, center control Unit control turntable rotates a work station counterclockwise, makes to move on to the 11st work at the tenth work station originally Station, remaining also successively moves down a work station；

Central control unit obtain originally at the tenth work station have been moved to the 11st work station really after, center control Unit instruction positioning mould processed takes out and feedback unit, after taking out positioning mould, sends feedback signal to central control unit, center control Unit control turntable processed rotates a work station counterclockwise, makes to move on to the 12nd at the 11st work station originally Work station, remaining also successively moves down a work station；

Central control unit obtain originally at the 11st work station have been moved to the 12nd work station really after, center Control unit instruction is placed and feedback unit, after the manipulator taking-up embryo material in placement and feedback unit is placed into designated position, Feedback signal is sent to central control unit, central control unit control turntable rotates a work station counterclockwise, makes original The 13rd work station is moved on to be at the 12nd work station, remaining also successively moves down a work station；

Central control unit obtain originally at the 12nd work station have been moved to the 13rd work station really after, center Control unit instructs shaping mould cleaning and feedback unit, and the Pneumatic cleaning device in shaping mould cleaning and feedback unit uses high pressure Shaping mould is cleaned by the inswept position of regulation, time, pressure, after the completion of cleaning, feedback signal is sent and is controlled to center Unit processed, central control unit control turntable rotate a work station counterclockwise, make to be in the 13rd work station originally Place moves on to the 14th work station, remaining also successively moves down a work station；

Central control unit obtain originally at the 13rd work station have been moved to the 14th work station really after, center Control unit coordination determines whether exception, and stop working sending alarm if having exception, if without exception stop as defined in one section Time, then central control unit control turntable rotates a work station counterclockwise, makes originally in the 14th work work The first work station is moved on at position, remaining also successively moves down a work station；

It circuiting sequentially, other each work stations also circuit sequentially, due to each moment, in addition to the 14th work station, All working at its work station, one work station of every movement be by the time in all stations it is longest subject to；And every time Not only to judge whether itself is completed before movement, also to judge whether other work stations have been fully completed, only all After the completion, central control unit just controls turntable and moves down a work station counterclockwise.

2. a kind of automatic production method of fiber connector according to claim 1, it is characterised in that the ceramic powder Expect for nano aluminium oxide or nano silicon oxide or nano silicon carbide ceramic or the ceramic powder by weight, by following original The ceramic powder that material is constituted is made: silicon carbide: 60~70 parts, zirconium oxide: 10~20 parts, silica: 15~25 parts, titanium dioxide: 4 ~6 parts, polyethylene wax: 1~2 part, ammonium polyacrylate: 1~3 part, polyvinyl alcohol: 0.3~0.5 part, yttrium oxide: 0.1~0.3 Part, oleic acid: 2~4 parts, the light stabilizer of commercially available model 622: 0.05~0.15 part, the ultraviolet light of commercially available model UV-327 Absorbent: 0.04~0.10 part, the anti-yellowing agent of commercially available model KT-023 or V78-PTDS: 0.1~0.3 part；Or it is described Ceramic powder by weight, is made of the ceramic powder that following raw material is constituted: silicon carbide: 60 parts, zirconium oxide: 10 parts, oxidation Silicon: 15 parts, titanium dioxide: 4 parts, polyethylene wax: 1 part, ammonium polyacrylate: 1 part, polyvinyl alcohol: 0.3 part, yttrium oxide: 0.1 part, oil Acid: 2 parts, the light stabilizer of commercially available model 622: 0.05 part, the ultraviolet absorbing agent of commercially available model UV-327: 0.04 part, The anti-yellowing agent of commercially available model KT-023 or V78-PTDS: 0.1 part；Or the ceramic powder is by weight, by following The ceramic powder that raw material is constituted is made: silicon carbide: 65 parts, zirconium oxide: 15 parts, silica: 20 parts, titanium dioxide: 5 parts, polyethylene Wax: 1.5 parts, ammonium polyacrylate: 2 parts, polyvinyl alcohol: 0.4 part, yttrium oxide: 0.2 part, oleic acid: 3 parts, commercially available model 622 Light stabilizer: 0.10 part, the ultraviolet absorbing agent of commercially available model UV-327: 0.07 part, commercially available model KT-023 or V78- The anti-yellowing agent of PTDS: 0.2 part；Or the ceramic powder is by weight, is made of the ceramic powder that following raw material is constituted: Silicon carbide: 70 parts, zirconium oxide: 20 parts, silica: 25 parts, titanium dioxide: 6 parts, polyethylene wax: 2 parts, ammonium polyacrylate: 3 parts, poly- Vinyl alcohol: 0.5 part, yttrium oxide: 0.3 part, oleic acid: 4 parts, the light stabilizer of commercially available model 622: 0.15 part, commercially available model The ultraviolet absorbing agent of UV-327: 0.10 part, the anti-yellowing agent of commercially available model KT-023 or V78-PTDS: 0.3 part；Or institute It states ceramic powder by weight, is made of the ceramic powder that following raw material is constituted: silicon carbide: 68 parts, zirconium oxide: 12 parts, oxygen SiClx: 18 parts, titanium dioxide: 4 parts, polyethylene wax: 1.6 parts, ammonium polyacrylate: 2.2 parts, polyvinyl alcohol: 0.36 part, yttrium oxide: 0.18 part, oleic acid: 3 parts, the light stabilizer of commercially available model 622: 0.08 part, the ultraviolet radiation absorption of commercially available model UV-327 Agent: 0.09 part, the anti-yellowing agent of commercially available model KT-023 or V78-PTDS: 0.24 part.