CN105537628B - A kind of BOSA encapsulation making methods - Google Patents

Abstract

The invention discloses a kind of high-precision numerical control lathe and BOSA encapsulation making methods, high-precision numerical control lathe includes lathe body, cylinder, vertical hopper, horizontal hopper, fulcrum bearing, knife rest fixed seat and main shaft chuck, cylinder is arranged at outside lathe body, cylinder foot is equipped with cylinder stent, cylinder is fixed in lathe body by cylinder stent, cylinder side is connected with horizontal hopper, horizontal hopper is also connected with cylinder connecting place with vertical hopper, the horizontal hopper other end is arranged in lathe body, and horizontal hopper is fixed on inside lathe body by fulcrum bearing, main shaft chuck is arranged on horizontal hopper side, charging folder is additionally provided between main shaft chuck and horizontal hopper, main shaft chuck opposite side is equipped with extracting jaw, the main shaft chuck, charging folder and extracting jaw side are equipped with knife rest fixed seat, mill principal axis is additionally provided with above main shaft chuck.The numerically controlled lathe can effectively improve the precision and yield rate of BOSA encapsulation, reduce production cost, lift the laser propagation effect of optical signal.

Description

A kind of BOSA encapsulation making methods

Technical field

The present invention relates to BOSA encapsulation process field, is specially a kind of high-precision numerical control lathe and BOSA encapsulation manufacturer Method.

Background technology

BOSA is the Common Component in fiber optic communication, is made of, is used for light emission component TOSA and light-receiving component ROSA The transmission and conversion of optical signal, optical fiber component encapsulation are mainly used for connecting and protecting optical fiber component, and auxiliary completes the biography of optical signal Defeated and conversion, it is also higher and higher to the precision requirement of optical fiber component encapsulation with developing rapidly for Fibre Optical Communication Technology, due to The limitation of technical merit and equipment quality, conventional optical fiber component encapsulation precision is low, rustic, greatly reduces optical fiber component The yield rate and optical signal transmission effect of encapsulation.Being capable of Precision Machining in order to solve the above technical problem, the present invention provides one kind The high precision digital control lathe and BOSA encapsulation making methods of BOSA encapsulation, the numerically controlled lathe can effectively improve the essence of BOSA encapsulation Density and yield rate, reduce production cost, lift the laser propagation effect of optical signal.

The content of the invention

The technical problems to be solved by the invention are realized using following technical scheme：

A kind of high-precision numerical control lathe, including lathe body, cylinder, vertical hopper, horizontal hopper, fulcrum bearing, knife rest are solid Reservation and main shaft chuck, the cylinder are arranged at outside lathe body, are equipped with cylinder stent in cylinder foot, the cylinder passes through Cylinder stent is fixed in lathe body, and the cylinder side is connected with horizontal hopper, in horizontal hopper and cylinder connecting place also It is connected with vertical hopper, the horizontal hopper other end is arranged in lathe body, and horizontal hopper is fixed on car by fulcrum bearing Bed body interior, the main shaft chuck are arranged on horizontal hopper side, and charging folder is additionally provided between main shaft chuck and horizontal hopper, Extracting jaw is equipped with main shaft chuck opposite side, knife rest fixed seat is equipped with the main shaft chuck, charging folder and extracting jaw side, Mill principal axis is additionally provided with above main shaft chuck.

The cylinder, main shaft chuck, charging folder, extracting jaw, knife rest fixed seat and mill principal axis and program control system phase Even.

A kind of BOSA encapsulation making methods, comprise the following steps that：

A. checked before processing inside lathe, clamping cutter, input control program, after setting control program, operator will Semi-finished product BOSA encapsulation is put at the top of vertical hopper, until filling whole vertical hopper, starts high-precision numerical control lathe；

B. the progradation through cylinder, the semi-finished product BOSA encapsulation in vertical hopper is pushed into horizontal hopper, when half Finished product BOSA encapsulation is advanced to horizontal hopper end, and charging folder turns after semi-finished product BOSA encapsulation is gripped at horizontal hopper Send to main shaft chuck；

C. main shaft chuck by the semi-finished product BOSA encapsulation on horizontal hopper it is stable clamp after, program control system adjusts knife The relative position of lathe tool and main shaft chuck in frame fixed seat, main shaft chuck drive semi-finished product BOSA encapsulation to rotate at a high speed, pass through car Knife face work, then lathe tool position is adjusted, get on the bus out in end face cylindrical；

D. after Excircle machining is good, main shaft chuck shuts down, and utilizes charging folder and main shaft chuck synergistic effect conversion half Finished product BOSA encapsulates direction, makes above-mentioned machined surface and milling cutter position correspondence, rotates milling cutter, after cylindrical interior hole milling, hole milling, Using boring cutter bore hole, TOSA connectors machine；

E. similar, conversion semi-finished product BOSA encapsulation direction, repeat the above steps C and D, adds in TOSA connector opposites Work goes out fiber cable joint, and a ROSA connector is processed between TOSA connectors and fiber cable joint a side；

F. semi-finished product BOSA encapsulation direction is changed, passes through the milling cutter milling flat on remaining unprocessed three end face respectively；

G. semi-finished product BOSA encapsulation direction is changed, makes the opposite of ROSA connectors corresponding with the milling cutter edge of a knife, in the end face Side mills out a tiny injecting hole；

H. after injecting hole processes, main shaft chuck stops rotating, and knife rest is removed, and extracting jaw is by main shaft chuck BOSA encapsulation is removed, and is collected through collection device.

In above-mentioned steps, each end face of BOSA encapsulation and the size of each connector can be pre- in program control system as needed First set, a variety of hexagon workpieces can be processed.

The device have the advantages that：

（1）A kind of high-precision numerical control lathe, is equipped with mill principal axis and knife rest fixed seat, you can to add at the same time inside lathe Work revolving body can also be processed workpiece planarization, the cylinder of lathe, main shaft chuck, charging folder, extracting jaw, knife in the present invention Frame fixed seat and mill principal axis are connected with program control system, specific time that above-mentioned component operates in process, frequency Rate and rotating speed can strictly be controlled according to specific work pieces process situation preset in advance, and to the process of workpiece, be effectively improved The precision and yield rate of finished product；

（2）Using high-precision numerical control lathe to BOSA encapsulation be processed, can make semi-finished product BOSA encapsulate in each surface more Add precision, effectively lift its yield rate, and the processing of BOSA encapsulation is through programme-control, it is high in machining efficiency, reduce the waste of manpower.

Brief description of the drawings

Fig. 1 is high-precision numerical control lathe structure schematic diagram of the present invention；

Fig. 2 is BOSA encapsulating structures schematic diagram of the present invention；

Fig. 3 is BOSA encapsulation injecting hole schematic diagram of the present invention；

Marked in figure：1- lathe bodies, 2- cylinders, the vertical hoppers of 3-, the horizontal hoppers of 4-, 5- fulcrum bearings, 6- knife rests are fixed Seat, 7- main shaft chucks, 8- cylinder stents, 9- charging folders, 10- extracting jaws, 11- mill principal axis, 12-TOSA connectors, 13- optical cables connect Head, 14-ROSA connectors, 15- injecting holes.

Embodiment

In order to make the technical means, the creative features, the aims and the efficiencies achieved by the present invention easy to understand, tie below Closing attached drawing, the present invention is further explained.

As shown in Figure 1, a kind of high-precision numerical control lathe, including lathe body 1, cylinder 2, vertical hopper 3, horizontal hopper 4, Fulcrum bearing 5, knife rest fixed seat 6 and main shaft chuck 7, cylinder 2 are arranged at outside lathe body 1, and cylinder branch is equipped with 2 bottom of cylinder Frame 8, cylinder 2 are fixed in lathe body 1 by cylinder stent 8, and 2 side of cylinder is connected with horizontal hopper 4, in horizontal hopper 4 Also it is connected with 2 connecting place of cylinder with vertical hopper 3, horizontal 4 other end of hopper is arranged in lathe body 1, and horizontal hopper 4 passes through Fulcrum bearing 5 is fixed on inside lathe body 1, and main shaft chuck 7 is arranged on horizontal 4 side of hopper, in main shaft chuck 7 and horizontal hopper Charging folder 9 is additionally provided between 4, extracting jaw 10 is equipped with 7 opposite side of main shaft chuck, in main shaft chuck 7, charging folder 9 and extracting jaw 10 Side is equipped with knife rest fixed seat 6, and mill principal axis 11 is additionally provided with above main shaft chuck 7.

Cylinder 2, main shaft chuck 7, charging folder 9, extracting jaw 10, knife rest fixed seat 6 and mill principal axis 11 and programme-control system System is connected.

As shown in Figure 2,3, a kind of BOSA encapsulation making methods, comprise the following steps that：

A. checked before processing inside lathe, clamping cutter, input control program, after setting control program, operator will Semi-finished product BOSA encapsulation is put into from the vertical top of hopper 3, until filling whole vertical hopper 3, starts high-precision numerical control lathe；

B. the progradation through cylinder 2, the semi-finished product BOSA encapsulation in vertical hopper 3 is pushed into horizontal hopper 4, When semi-finished product BOSA encapsulation is advanced to horizontal 4 end of hopper, charging folder 9 encapsulates semi-finished product BOSA at horizontal hopper 4 Main shaft chuck 7 is transferred to after gripping；

C. main shaft chuck 7 by the semi-finished product BOSA encapsulation on horizontal hopper 4 it is stable clamp after, program control system tune The relative position of lathe tool and main shaft chuck 7 in knife rest fixed seat 6 is saved, main shaft chuck 7 drives semi-finished product BOSA encapsulation to rotate at a high speed, By lathe tool face work, then lathe tool position is adjusted, got on the bus out in end face cylindrical；

D. after Excircle machining is good, main shaft chuck 7 shuts down, and is turned using charging folder 9 and the synergistic effect of main shaft chuck 7 Semi-finished product BOSA encapsulation direction is changed, makes above-mentioned machined surface and milling cutter position correspondence, rotation mill principal axis 11, in cylindrical interior hole milling, After hole milling, using boring cutter bore hole, TOSA connectors 12 machine；

E. similar, conversion semi-finished product BOSA encapsulation direction, repeat the above steps C and D, in 12 opposite of TOSA connectors On process fiber cable joint 13, one between TOSA connectors 12 and fiber cable joint 13 processes a ROSA connector 14 on side；

F. semi-finished product BOSA encapsulation direction is changed, passes through the milling cutter milling flat on remaining unprocessed three end face respectively；

G. semi-finished product BOSA encapsulation direction is changed, makes the opposite of ROSA connectors 14 corresponding with the milling cutter edge of a knife, in the end face Side mill out a tiny injecting hole 15；

H. after injecting hole 15 processes, main shaft chuck 7 stops rotating, and knife rest is removed, and extracting jaw 10 is by main shaft chuck 7 On BOSA encapsulation remove, collected through collection device.

In above-mentioned steps, each end face of BOSA encapsulation and the size of each connector can be pre- in program control system as needed First set, a variety of hexagon workpieces can be processed.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the present invention is not limited to the above embodiments, and the above embodiments and description only describe the original of the present invention Reason, without departing from the spirit and scope of the present invention, various changes and modifications of the present invention are possible, these changes and improvements It all fall within the protetion scope of the claimed invention.The claimed scope of the invention is by appended claims and its equivalent circle It is fixed.

Claims (1)

1. a kind of BOSA encapsulation making methods, it is characterised in that comprise the following steps that：

A. checked before processing inside lathe, clamping cutter, input control program, after setting control program, operator will half into Product BOSA encapsulation is put at the top of vertical hopper (3), until filling whole vertical hopper (3), starts high-precision numerical control lathe；

B. through cylinder（2）Progradation, by vertical hopper（3）In semi-finished product BOSA encapsulation be pushed into horizontal hopper（4）In, When semi-finished product BOSA encapsulation is advanced to horizontal hopper（4）End, charging folder（9）Semi-finished product BOSA is encapsulated from horizontal hopper （4）Main shaft chuck is transferred to after place's gripping（7）；

C. main shaft chuck（7）By horizontal hopper（4) semi-finished product BOSA encapsulation on it is stable clamp after, program control system is adjusted Knife rest fixed seat（6）Interior lathe tool and main shaft chuck（7）Relative position, main shaft chuck（7）Drive semi-finished product BOSA encapsulation at a high speed Rotation, by lathe tool face work, then adjusts lathe tool position, gets on the bus out in end face cylindrical；

D. after Excircle machining is good, main shaft chuck（7）Shut down, pressed from both sides using charging（9）And main shaft chuck（7）Synergistic effect Semi-finished product BOSA encapsulation direction is changed, makes end face and the milling cutter position correspondence of above-mentioned Vehicle Processing, rotates mill principal axis（11）, outside Hole milling in circle, after hole milling, uses boring cutter bore hole, TOSA connectors（12）Machine；

E. similar, conversion semi-finished product BOSA encapsulation direction, repeat the above steps C and D, in TOSA connectors（12）Add in opposite Work goes out fiber cable joint（13）, in TOSA connectors（12）And fiber cable joint（13）Between a side on process a ROSA connector （14）；

F. semi-finished product BOSA encapsulation direction is changed, passes through the milling cutter milling flat on remaining unprocessed three end face respectively；

G. semi-finished product BOSA encapsulation direction is changed, makes ROSA connectors（14）Opposite it is corresponding with the milling cutter edge of a knife, in the end face Side mills out a tiny injecting hole（15）；

H. injecting hole（15）After processing, main shaft chuck（7）Stop rotating, knife rest is removed, extracting jaw（10）By main shaft chuck （7）On BOSA encapsulation remove, collected through collection device.