CN106918874B - A kind of manufacturing method of fiber connector and the mold for manufacturing fiber connector - Google Patents
A kind of manufacturing method of fiber connector and the mold for manufacturing fiber connector Download PDFInfo
- Publication number
- CN106918874B CN106918874B CN201710320687.0A CN201710320687A CN106918874B CN 106918874 B CN106918874 B CN 106918874B CN 201710320687 A CN201710320687 A CN 201710320687A CN 106918874 B CN106918874 B CN 106918874B
- Authority
- CN
- China
- Prior art keywords
- positioning
- mould
- hole
- diameter
- socket
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Classifications
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/24—Coupling light guides
- G02B6/36—Mechanical coupling means
- G02B6/38—Mechanical coupling means having fibre to fibre mating means
- G02B6/3807—Dismountable connectors, i.e. comprising plugs
- G02B6/3833—Details of mounting fibres in ferrules; Assembly methods; Manufacture
- G02B6/3865—Details of mounting fibres in ferrules; Assembly methods; Manufacture fabricated by using moulding techniques
Landscapes
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Mechanical Coupling Of Light Guides (AREA)
Abstract
The invention belongs to connector technique fields, are related to a kind of manufacturing method of fiber connector, and the method has used the mold of manufacture fiber connector, mold to be made of pressing die, positioning mould, socket mould, shaping mould;When manufacturing fiber connector, shaping mould is fixedly mounted on the pedestal of press, and socket die sleeve is on shaping mould, and positioning mould is mounted in socket mould, and pressing die is sleeved on outside positioning mould.Mould structure is also claimed in the present invention.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, light-weight.
Description
The application is entitled:It is a kind of manufacture fiber connector mold, application No. is:201610433604.4, application
Day it is:The divisional application of application for a patent for invention on 06 18th, 2016.
Technical field
The invention belongs to connector technique fields, the manufacturing method more particularly, to a kind of fiber connector and manufacture optical fiber
The mold of connector.
Background technology
As communication and the rapid development of observation and control technology, the application of optical fiber are 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 flexible connection,
It is commonly attached using optical fiber connector in flexible connection, optical fiber continuator in the prior art is complicated, makes
Technique is more, cost is higher.In precision ranging equipment, since equipment volume is more small and exquisite, therefore, it is intended that with small volume,
The better simply optical fiber connector of structure.
Invention content
To solve the above-mentioned problems, the purpose of the present invention is a kind of manufacturing method of fiber connector of announcement and a kind of manufactures
The mold of fiber connector, mold can be simple to manufacture the Primary Component in the optical fiber connector of structure, they are using following
Technical solution is realized.
A kind of mold of manufacture fiber connector, it is characterised in that it is by pressing die, positioning mould, socket mould, shaping mould structure
At;When manufacturing fiber connector, shaping mould is fixedly mounted on the pedestal of press, and socket die sleeve is on shaping mould, positioning mould
In socket mould, pressing die is sleeved on outside positioning mould;
The shaping mould is made of pedestal, and the center of pedestal has cylindrical shrinkage pool, and shrinkage pool is the following table not through pedestal
Face, there is the first pillar upwardly extended from shrinkage pool bottom surface center in shrinkage pool, have relative to shrinkage pool axisymmetrical outside shrinkage pool
The first positioning hole of distribution, second location hole, third location hole, the 4th location hole, the location hole of first/second/third/the 4th is all
It is the lower surface not through pedestal, the upper surface of the first pillar is the upper surface for protruding from pedestal, and the first pillar is cylinder
Shape, the diameter of the first pillar are less than the diameter of shrinkage pool;
The socket mould is socketed by socket mould body, the circle ring column shape extended downwardly from socket mould body lower surface center
Body is extended downwardly from socket mould body lower surface center and except the belled body and symmetrical relative to belled body first
Positioning column, the second positioning column, third positioning column, the 4th positioning column are constituted, and are had inside socket mould body along socket mould body axis
The sleeve joint hole of line perforation, the diameter of sleeve joint hole is equal with the internal diameter of belled body, and the axis of sleeve joint hole is mutually be overlapped with the axis of belled body
It closes;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 diameter of third positioning column is less than the aperture of third location hole, and the diameter of the 4th positioning column is less than the aperture of the 4th location hole, set
The outer diameter of junctor is less than the aperture of shrinkage pool, and the aperture of sleeve joint hole is more than the diameter of the first pillar;The length of first positioning column is little
In the depth of first positioning hole, the length of the second positioning column is not more than the depth of second location hole, and the length of third positioning column is not
More than 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 small
In the depth of shrinkage pool;
The positioning mould is made of cylindrical positioning mould body, and positioning mould body has the circle upwardly extended from lower surface
Cylindrical positioning die hole, positioning die hole are the upper surfaces not through positioning mould body, position the axis and positioning calligraphy or painting model of die hole
The axis of body overlaps, 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 first pillar
Length, the diameter for positioning mould body is less than the diameter of sleeve joint hole, and the length for positioning mould body is not less than:It is socketed the height of mould body
The sum of the height of degree and belled body;
The circle that the pressing die is connected as one by compacting interconnecting piece, below compacting interconnecting piece and with compacting interconnecting piece
Cylindrical compacting mould body is constituted, and pressing die body interior has the cylindrical compacting that slef-suppression mould body lower surface upwardly extends
The axis in hole, compacting hole is overlapped with the axis of compacting mould body, and compacting hole is through the upper and lower surfaces of of compacting mould body, pressure
For the length of molding ontology not less than the length of positioning mould body, the diameter for suppressing mould body is less than the diameter of sleeve joint hole, compacting hole
Diameter be more than positioning mould body diameter.
The mold of a kind of manufacture fiber connector described above, which is characterized in that the pressing die, positioning mould, socket
Mould, shaping mould material be all steel or iron or alloy.
A kind of manufacturing method of fiber connector, the method have used the mold of manufacture fiber connector, the manufacture
The mold of fiber connector is made of pressing die, positioning mould, socket mould, shaping mould;When manufacturing fiber connector, shaping mould is fixed
On the pedestal of press, socket die sleeve is on shaping mould, and positioning mould is mounted in socket mould, and pressing die is sleeved on positioning
Outside mould;
The shaping mould is made of pedestal, and the center of pedestal has cylindrical shrinkage pool, and shrinkage pool is the following table not through pedestal
Face, there is the first pillar upwardly extended from shrinkage pool bottom surface center in shrinkage pool, have relative to shrinkage pool axisymmetrical outside shrinkage pool
The first positioning hole of distribution, second location hole, third location hole, the 4th location hole, the location hole of first/second/third/the 4th is all
It is the lower surface not through pedestal, the upper surface of the first pillar is the upper surface for protruding from pedestal, and the first pillar is cylinder
Shape, the diameter of the first pillar are less than the diameter of shrinkage pool;The depth of the shrinkage pool is 2.0mm ± 0.5mm;
The socket mould is socketed by socket mould body, the circle ring column shape extended downwardly from socket mould body lower surface center
Body is extended downwardly from socket mould body lower surface center and except the belled body and symmetrical relative to belled body first
Positioning column, the second positioning column, third positioning column, the 4th positioning column are constituted, and are had inside socket mould body along socket mould body axis
The sleeve joint hole of line perforation, the diameter of sleeve joint hole is equal with the internal diameter of belled body, and the axis of sleeve joint hole is mutually be overlapped with the axis of belled body
It closes;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 diameter of third positioning column is less than the aperture of third location hole, and the diameter of the 4th positioning column is less than the aperture of the 4th location hole, set
The outer diameter of junctor is less than the aperture of shrinkage pool, and the aperture of sleeve joint hole is more than the diameter of the first pillar;The length of first positioning column is little
In the depth of first positioning hole, the length of the second positioning column is not more than the depth of second location hole, and the length of third positioning column is not
More than 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 small
In the depth of shrinkage pool;
The positioning mould is made of cylindrical positioning mould body, and positioning mould body has the circle upwardly extended from lower surface
Cylindrical positioning die hole, positioning die hole are the upper surfaces not through positioning mould body, position the axis and positioning calligraphy or painting model of die hole
The axis of body overlaps, 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 first pillar
Length, the diameter for positioning mould body is less than the diameter of sleeve joint hole, and the length for positioning mould body is not less than:It is socketed the height of mould body
The sum of the height of degree and belled body;
The circle that the pressing die is connected as one by compacting interconnecting piece, below compacting interconnecting piece and with compacting interconnecting piece
Cylindrical compacting mould body is constituted, and pressing die body interior has the cylindrical compacting that slef-suppression mould body lower surface upwardly extends
The axis in hole, compacting hole is overlapped with the axis of compacting mould body, and compacting hole is through the upper and lower surfaces of of compacting mould body, pressure
For the length of molding ontology not less than the length of positioning mould body, the diameter for suppressing mould body is less than the diameter of sleeve joint hole, compacting hole
Diameter be more than positioning mould body diameter;
It is characterized in that the manufacturing method of the fiber connector, when manufacturing fiber connector, shaping mould is fixedly mounted
On the pedestal of press, socket die sleeve is on shaping mould, and positioning mould is mounted in socket mould, and pressing die is sleeved on positioning mould
Outside;The first positioning column is first placed in first positioning hole, the second positioning column is placed in second location hole, and third positioning column is placed in third
Location hole, the 4th positioning column are placed in the 4th location hole, and belled body is placed in shrinkage pool, and sleeve joint hole is sleeved on outside the first pillar, reached at
The relative position of pattern and socket mould is fixed;Then ceramic powder is injected in sleeve joint hole, it is below reaches the first pillar upper surface
Appropriate location is simultaneously kept for a period of time, and compacting ceramic material forms bottom and the fiber-optic fixing-hole of fiber connector ontology;Again will
Positioning mould is put into sleeve joint hole, and positioning die hole is made to be sleeved on outside the first pillar;Then ceramic powder is re-injected in sleeve joint hole, is arrived
Up to socket mould upper surface position below, pressing die is made to move downward, and compacting hole is made to be sleeved on outside positioning mould body, is pressed into conjunction
Suitable position and the top for being kept for a period of time form fiber connector ontology and appearance cable chamber;Complete the idiosome of fiber connector
Manufacture, then be sintered the manufacture for completing fiber connector.
A kind of manufacturing method of fiber connector, the method have used the mold of manufacture fiber connector, the manufacture
The mold of fiber connector is made of pressing die, positioning mould, socket mould, shaping mould;When manufacturing fiber connector, shaping mould is fixed
On the pedestal of press, socket die sleeve is on shaping mould, and positioning mould is mounted in socket mould, and pressing die is sleeved on positioning
Outside mould;
The shaping mould is made of pedestal, and the center of pedestal has cylindrical shrinkage pool, and shrinkage pool is the following table not through pedestal
Face, there is the first pillar upwardly extended from shrinkage pool bottom surface center in shrinkage pool, have relative to shrinkage pool axisymmetrical outside shrinkage pool
The first positioning hole of distribution, second location hole, third location hole, the 4th location hole, the location hole of first/second/third/the 4th is all
It is the lower surface not through pedestal, the upper surface of the first pillar is the upper surface for protruding from pedestal, and the first pillar is cylinder
Shape, the diameter of the first pillar are less than the diameter of shrinkage pool;
The socket mould is socketed by socket mould body, the circle ring column shape extended downwardly from socket mould body lower surface center
Body is extended downwardly from socket mould body lower surface center and except the belled body and symmetrical relative to belled body first
Positioning column, the second positioning column, third positioning column, the 4th positioning column are constituted, and are had inside socket mould body along socket mould body axis
The sleeve joint hole of line perforation, the diameter of sleeve joint hole is equal with the internal diameter of belled body, and the axis of sleeve joint hole is mutually be overlapped with the axis of belled body
It closes;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 diameter of third positioning column is less than the aperture of third location hole, and the diameter of the 4th positioning column is less than the aperture of the 4th location hole, set
The outer diameter of junctor is less than the aperture of shrinkage pool, and the aperture of sleeve joint hole is more than the diameter of the first pillar;The length of first positioning column is little
In the depth of first positioning hole, the length of the second positioning column is not more than the depth of second location hole, and the length of third positioning column is not
More than 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 small
In the depth of shrinkage pool;
The positioning mould is made of cylindrical positioning mould body, and positioning mould body has the circle upwardly extended from lower surface
Cylindrical positioning die hole, positioning die hole are the upper surfaces not through positioning mould body, position the axis and positioning calligraphy or painting model of die hole
The axis of body overlaps, 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 first pillar
Length, the diameter for positioning mould body is less than the diameter of sleeve joint hole, and the length for positioning mould body is not less than:It is socketed the height of mould body
The sum of the height of degree and belled body;
The circle that the pressing die is connected as one by compacting interconnecting piece, below compacting interconnecting piece and with compacting interconnecting piece
Cylindrical compacting mould body is constituted, and pressing die body interior has the cylindrical compacting that slef-suppression mould body lower surface upwardly extends
The axis in hole, compacting hole is overlapped with the axis of compacting mould body, and compacting hole is through the upper and lower surfaces of of compacting mould body, pressure
For the length of molding ontology not less than the length of positioning mould body, the diameter for suppressing mould body is less than the diameter of sleeve joint hole, compacting hole
Diameter be more than positioning mould body diameter;
It is characterized in that the manufacturing method of the fiber connector, when manufacturing fiber connector, shaping mould is fixedly mounted
On the pedestal of press, socket die sleeve is on shaping mould, and positioning mould is mounted in socket mould, and pressing die is sleeved on positioning mould
Outside;The first positioning column is first placed in first positioning hole, the second positioning column is placed in second location hole, and third positioning column is placed in third
Location hole, the 4th positioning column are placed in the 4th location hole, and belled body is placed in shrinkage pool, and sleeve joint hole is sleeved on outside the first pillar, reached at
The relative position of pattern and socket mould is fixed;Then ceramic powder is injected in sleeve joint hole, it is below reaches the first pillar upper surface
Appropriate location is simultaneously kept for a period of time, and compacting ceramic material forms bottom and the fiber-optic fixing-hole of fiber connector ontology;Again will
Positioning mould is put into sleeve joint hole, and positioning die hole is made to be sleeved on outside the first pillar;Then ceramic powder is re-injected in sleeve joint hole, is arrived
Up to socket mould upper surface position below, pressing die is made to move downward, and compacting hole is made to be sleeved on outside positioning mould body, is pressed into conjunction
Suitable position and the top for being kept for a period of time form fiber connector ontology and appearance cable chamber;Complete the idiosome of fiber connector
Manufacture, then be sintered the manufacture for completing fiber connector.
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, light-weight.
Description of the drawings
Fig. 1 is the dimensional structure diagram of fiber connector produced by the present invention.
Fig. 2 is the amplified structural schematic diagram of sections of the Fig. 1 along the directions B-B.
Fig. 3 is the dimensional structure diagram after present invention assembling dismantling.
Fig. 4 is the dimensional structure diagram of the three-dimensional pressing die of the present invention.
Fig. 5 is the dimensional structure diagram of the positioning mould of the present invention.
Fig. 6 is the dimensional structure diagram of the socket mould of the present invention.
Fig. 7 is the dimensional structure diagram of the shaping mould of the present invention.
Fig. 8 is the amplified structural schematic diagram of sections of the Fig. 3 along the directions A-A.
Specific implementation mode
See Fig. 1 to Fig. 8, it is a kind of manufacture fiber connector mold, it is characterised in that it by pressing die 1, positioning mould 2,
It is socketed mould 3, shaping mould 4 is constituted;When manufacturing fiber connector, shaping mould 4 is fixedly mounted on the pedestal of press, is socketed 3 sets of mould
On shaping mould 4, positioning mould 2 is mounted in socket mould 3, and pressing die 1 is sleeved on outside positioning mould 2;
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, the location hole of first/second/third/the 4th 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 31 lower surface center of socket mould body
Shape belled body 32 is extended downwardly from 31 lower surface center of socket mould body and 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
31 inside of body has the sleeve joint hole 321 along socket calligraphy or painting model body axis perforation, and the diameter of sleeve joint hole is equal with the internal diameter of belled body, set
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, the diameter of the 4th positioning column 334 is less than the aperture of the 4th location hole 424, and the outer diameter of belled body 32 is less than shrinkage pool 43
Aperture, the aperture of sleeve joint hole 321 are more 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
More 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 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 overlaps, 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:It is socketed the sum of the height of the height and belled body 32 of mould body 31;
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 there is 12 inside of compacting mould body 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
Molding ontology 12 it is upper and lower surfaces of, compacting mould body 12 length not less than positioning mould body 21 length, suppress mould body
12 diameter is less than the diameter of sleeve joint hole 321, and the diameter of compacting hole 121 is more than the diameter of positioning mould body 21.
The mold of a kind of manufacture fiber connector described above, which is characterized in that the pressing die, positioning mould, socket
Mould, shaping mould material be all steel or iron or alloy.
The principle of the present invention is such:When manufacturing fiber connector, shaping mould 4 is fixedly mounted on the pedestal of press,
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 by
One positioning column 331 is placed in first positioning hole 421, and the second positioning column 332 is placed in second location hole 422, and third positioning column 332 is placed in
Third location hole, the 4th positioning column 334 are placed in the 4th location hole, and belled body 32 is placed in shrinkage pool 43, and sleeve joint hole 321 is sleeved on first
Outside column 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, reached
First pillar, 44 upper surface appropriate location below is simultaneously kept for a period of time, and compacting ceramic material forms fiber connector ontology 5
Bottom and fiber-optic fixing-hole 52;Positioning mould 2 is put into sleeve joint hole 321 again, positioning die hole 211 is made to be sleeved on the first pillar 44
Outside;Then re-inject ceramic powder in sleeve joint hole 321, reach socket 3 upper surface of mould position below, make pressing die 1 to
Lower movement, and so that compacting hole 121 is sleeved on outside positioning mould body 21, be pressed into suitable position and kept for a period of time form optical fiber
The top of connector body 5 and appearance cable chamber 51;The manufacture of the idiosome of fiber connector is completed, then is sintered and completes light
The manufacture of fine connector.
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
It wants other to be suppressed with shrinkage pool 43,44 phase of the first pillar tablet, plate diameter is slightly less than the diameter of shrinkage pool 43, tablet
Corresponding position there is the hole more slightly larger than 44 diameter of the first pillar, tablet can be sleeved on the first pillar 44;When second of compacting, close
Suitable position, the i.e. height on the top of fiber connector ontology 5, according to can demand determine.
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.
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, can be at least two, of course, it is possible to be other
More;Meanwhile first to fourth location hole be not limited to four, can be at least 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.
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, light-weight.
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 (7)
1. a kind of manufacturing method of fiber connector, the method has used the mold of manufacture fiber connector, the manufacture light
The mold of fine connector is made of pressing die, positioning mould, socket mould, shaping mould;When manufacturing fiber connector, shaping mould fixes peace
On the pedestal of press, socket die sleeve is on shaping mould, and positioning mould is mounted in socket mould, and pressing die is sleeved on positioning mould
Outside;
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 in shrinkage pool the first pillar upwardly extended from shrinkage pool bottom surface center, have outside shrinkage pool and be distributed relative to shrinkage pool axisymmetrical
First positioning hole, second location hole, third location hole, the 4th location hole, the location hole of first/second/third/the 4th 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;The depth of the shrinkage pool is 2.0mm ± 0.5mm;
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 is extended downwardly from socket mould body lower surface center and except the belled body and symmetrical relative to belled body first is fixed
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 is equal with the internal diameter of belled body, 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, and the diameter of the 4th positioning column is less than the aperture of the 4th location hole, socket
The outer diameter of body is less than the aperture of shrinkage pool, and the aperture of sleeve joint hole is more 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 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 of die hole and positioning mould body
Axis overlaps, 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 mould body height 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 upper and lower surfaces of, the pressing die of compacting mould body
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 more than the diameter of positioning mould body;
It is characterized in that the manufacturing method of the fiber connector, when manufacturing fiber connector, shaping mould is fixedly mounted on pressure
On the pedestal of machine, socket die sleeve is on shaping mould, and positioning mould is mounted in socket mould, and pressing die is sleeved on outside positioning mould;First
First positioning column is placed in first positioning hole, the second positioning column is placed in second location hole, and third positioning column is placed in third location hole,
4th positioning column is placed in the 4th location hole, and belled body is placed in shrinkage pool, and sleeve joint hole is sleeved on outside the first pillar, has reached shaping mould and set
The relative position for connecing mould is fixed;Then ceramic powder is injected in sleeve joint hole, reaches the first pillar upper surface appropriate location below
And being kept for a period of time, compacting ceramic material forms bottom and the fiber-optic fixing-hole of fiber connector ontology;Positioning mould is put again
Enter in sleeve joint hole, positioning die hole is made to be sleeved on outside the first pillar;Then ceramic powder is re-injected in sleeve joint hole, reaches socket mould
Upper surface position below, makes pressing die move downward, and compacting hole is made to be sleeved on outside positioning mould body, is pressed into suitable position
And it is kept for a period of time form the top of fiber connector ontology and holds cable chamber;The manufacture of the idiosome of fiber connector is completed,
It is sintered the manufacture for completing fiber connector again.
2. a kind of manufacturing method of fiber connector, the method has used the mold of manufacture fiber connector, the manufacture light
The mold of fine connector is made of pressing die, positioning mould, socket mould, shaping mould;When manufacturing fiber connector, shaping mould fixes peace
On the pedestal of press, socket die sleeve is on shaping mould, and positioning mould is mounted in socket mould, and pressing die is sleeved on positioning mould
Outside;
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 in shrinkage pool the first pillar upwardly extended from shrinkage pool bottom surface center, have outside shrinkage pool and be distributed relative to shrinkage pool axisymmetrical
First positioning hole, second location hole, third location hole, the 4th location hole, the location hole of first/second/third/the 4th 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 is extended downwardly from socket mould body lower surface center and except the belled body and symmetrical relative to belled body first is fixed
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 is equal with the internal diameter of belled body, 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, and the diameter of the 4th positioning column is less than the aperture of the 4th location hole, socket
The outer diameter of body is less than the aperture of shrinkage pool, and the aperture of sleeve joint hole is more 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 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 of die hole and positioning mould body
Axis overlaps, 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 mould body height 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 upper and lower surfaces of, the pressing die of compacting mould body
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 more than the diameter of positioning mould body;
It is characterized in that the manufacturing method of the fiber connector, when manufacturing fiber connector, shaping mould is fixedly mounted on pressure
On the pedestal of machine, socket die sleeve is on shaping mould, and positioning mould is mounted in socket mould, and pressing die is sleeved on outside positioning mould;First
First positioning column is placed in first positioning hole, the second positioning column is placed in second location hole, and third positioning column is placed in third location hole,
4th positioning column is placed in the 4th location hole, and belled body is placed in shrinkage pool, and sleeve joint hole is sleeved on outside the first pillar, has reached shaping mould and set
The relative position for connecing mould is fixed;Then ceramic powder is injected in sleeve joint hole, reaches the first pillar upper surface appropriate location below
And being kept for a period of time, compacting ceramic material forms bottom and the fiber-optic fixing-hole of fiber connector ontology;Positioning mould is put again
Enter in sleeve joint hole, positioning die hole is made to be sleeved on outside the first pillar;Then ceramic powder is re-injected in sleeve joint hole, reaches socket mould
Upper surface position below, makes pressing die move downward, and compacting hole is made to be sleeved on outside positioning mould body, is pressed into suitable position
And it is kept for a period of time form the top of fiber connector ontology and holds cable chamber;The manufacture of the idiosome of fiber connector is completed,
It is sintered the manufacture for completing fiber connector again.
3. a kind of manufacturing method of fiber connector according to claim 1 or claim 2, it is characterised in that the set
The length for connecing mould body is 8mm~25mm.
4. a kind of manufacturing method of fiber connector according to claim 3, it is characterised in that the pressing die, positioning
Mould, socket mould, shaping mould material be all iron or alloy.
5. a kind of manufacturing method of fiber connector according to claim 1 or claim 2, it is characterised in that the pressure
Molding, positioning mould, socket mould, shaping mould material be all iron or alloy.
6. a kind of mold of manufacture fiber connector, is made of pressing die, positioning mould, socket mould, shaping mould;It is characterized in that system
When making fiber connector, shaping mould is fixedly mounted on the pedestal of press, and on shaping mould, positioning mould is mounted on socket die sleeve
It is socketed in mould, pressing die is sleeved on outside positioning mould;
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 in shrinkage pool the first pillar upwardly extended from shrinkage pool bottom surface center, have outside shrinkage pool and be distributed relative to shrinkage pool axisymmetrical
First positioning hole, second location hole, third location hole, the 4th location hole, the location hole of first/second/third/the 4th 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 is extended downwardly from socket mould body lower surface center and except the belled body and symmetrical relative to belled body first is fixed
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 is equal with the internal diameter of belled body, 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, and the diameter of the 4th positioning column is less than the aperture of the 4th location hole, socket
The outer diameter of body is less than the aperture of shrinkage pool, and the aperture of sleeve joint hole is more 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 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 of die hole and positioning mould body
Axis overlaps, 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 mould body height 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 upper and lower surfaces of, the pressing die of compacting mould body
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 more than the diameter of positioning mould body;
The length of the socket mould body is 8mm~25mm.
7. a kind of mold of manufacture fiber connector according to claim 6, which is characterized in that the pressing die, positioning
Mould, socket mould, shaping mould material be all iron or alloy.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710320687.0A CN106918874B (en) | 2016-06-18 | 2016-06-18 | A kind of manufacturing method of fiber connector and the mold for manufacturing fiber connector |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610433604.4A CN105911648B (en) | 2016-06-18 | 2016-06-18 | A kind of mould for manufacturing fiber connector |
CN201710320687.0A CN106918874B (en) | 2016-06-18 | 2016-06-18 | A kind of manufacturing method of fiber connector and the mold for manufacturing fiber connector |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610433604.4A Division CN105911648B (en) | 2016-06-18 | 2016-06-18 | A kind of mould for manufacturing fiber connector |
Publications (2)
Publication Number | Publication Date |
---|---|
CN106918874A CN106918874A (en) | 2017-07-04 |
CN106918874B true CN106918874B (en) | 2018-10-16 |
Family
ID=56751338
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610433604.4A Active CN105911648B (en) | 2016-06-18 | 2016-06-18 | A kind of mould for manufacturing fiber connector |
CN201710320687.0A Active CN106918874B (en) | 2016-06-18 | 2016-06-18 | A kind of manufacturing method of fiber connector and the mold for manufacturing fiber connector |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610433604.4A Active CN105911648B (en) | 2016-06-18 | 2016-06-18 | A kind of mould for manufacturing fiber connector |
Country Status (1)
Country | Link |
---|---|
CN (2) | CN105911648B (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108162141B (en) * | 2016-06-18 | 2019-10-25 | 台州市黄岩康亿丰塑业有限公司 | A method of the manufacture simple fiber connector of structure |
TWI624703B (en) * | 2016-10-27 | 2018-05-21 | 凌國基 | Positioning mold of optical fiber connector |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2000343205A (en) * | 1999-06-04 | 2000-12-12 | Ykk Corp | Manufacture of amorphous alloy formed stock |
JP3808258B2 (en) * | 1999-11-04 | 2006-08-09 | Ykk株式会社 | Method and apparatus for manufacturing cast molded article having fine hole |
JP2003131076A (en) * | 2001-10-23 | 2003-05-08 | Akutowan:Kk | Resinous ferrule and method for molding the same |
JP4908452B2 (en) * | 2008-04-21 | 2012-04-04 | 住友電気工業株式会社 | Manufacturing method of optical connection parts |
-
2016
- 2016-06-18 CN CN201610433604.4A patent/CN105911648B/en active Active
- 2016-06-18 CN CN201710320687.0A patent/CN106918874B/en active Active
Also Published As
Publication number | Publication date |
---|---|
CN105911648B (en) | 2017-09-29 |
CN105911648A (en) | 2016-08-31 |
CN106918874A (en) | 2017-07-04 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106918874B (en) | A kind of manufacturing method of fiber connector and the mold for manufacturing fiber connector | |
CN104994189B (en) | A kind of waterproof mobile phone shell and preparation method thereof | |
CN107351229B (en) | A kind of double-pore structure fiber connector die for manufacturing | |
CN108162141B (en) | A method of the manufacture simple fiber connector of structure | |
CN205835626U (en) | A kind of mould manufacturing double-pore structure fiber connector | |
CN106079040B (en) | A kind of method for manufacturing double-pore structure fiber connector | |
CN205826909U (en) | A kind of mould manufacturing fiber connector | |
CN207667154U (en) | A kind of magnetic toy with interpolation function | |
CN208178176U (en) | A kind of especially big gong hydraulic machine | |
CN212045701U (en) | Double-guide device for injection mold frame | |
CN214188003U (en) | Mold for molding mobile phone shell | |
CN208195404U (en) | A kind of bend forming die of Metal buttons | |
CN201483718U (en) | Bottle blank and lifting ring integrated mold | |
CN206796383U (en) | A kind of Height Adjustable injection mold | |
CN219047179U (en) | Forming die is used in production of yak meat ball | |
CN211251010U (en) | Combined plastic mould | |
CN216938281U (en) | Lost foam structure for casting large-size special-shaped cast iron pipe | |
CN205967407U (en) | Powder metallurgy forming device | |
CN212874192U (en) | Magnet of polyurethane base | |
CN212325673U (en) | Integrated electroforming hard gold jewelry | |
CN216506417U (en) | Injection molding structure | |
CN206796305U (en) | One kind deadweight treadmill belt mould | |
CN209036471U (en) | One kind setting tool with mould | |
CN207207102U (en) | A kind of linkage double moldses device of System of Hollow Blow Shaping Machine | |
CN202826487U (en) | Mould |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
TA01 | Transfer of patent application right |
Effective date of registration: 20180828 Address after: 239400 west of Qingping Mountain Road, south of Baling Lake Road, north of Jiashan Avenue and east of Fushan Road, Mingguang Economic Development Zone, Anhui Province Applicant after: Huayuan high tech Cable Co., Ltd. Address before: 215131 room 49, 1 building, Xiangcheng District, Yuan Long Street, Suzhou, Jiangsu Applicant before: SUZHOU GAOJINGTEZHUAN INFORMATION TECHNOLOGY CO., LTD. |
|
TA01 | Transfer of patent application right | ||
GR01 | Patent grant | ||
GR01 | Patent grant |