CN106141202A - Glass mold once clamp symmetrical turning processing method and device - Google Patents

Abstract

The invention discloses a kind of glass mold once clamps symmetrical turning processing method, comprises the following steps: described glass mold is clamped by the first chuck, and described first chuck is driven it to rotate by the first drive shaft, carries out one end Vehicle Processing；After one end Vehicle Processing terminates, described first chuck drives glass mold to move, to the second chuck, the one end terminated by the second chuck clamping Vehicle Processing, first chuck release glass mold, second chuck is driven it to rotate by the second drive shaft, to one end Vehicle Processing by the first chuck clamping, the spindle central of described first chuck and the second chuck is coaxial and positioned opposite along rotating shaft, and the moving direction of described first chuck is parallel with rotor shaft direction.The invention also discloses the processing unit (plant) being applicable to this processing method.The inventive method can avoid clamping twice the axiality problem of middle generation, and working (machining) efficiency is high.

Description

Glass mold once clamp symmetrical turning processing method and device

Technical field

The present invention relates to turning processing method and the device of a kind of glass mold, particularly relate to a kind of glass mold once Clamp symmetrical turning processing method and device, belong to metallic article processing technique field.

Background technology

The general process step of glass mold is: cast blank, the cooperation face of two half modules of processing, outer surface add Work, die cavity processing, Cooling Holes locating slot etc. are processed.By Chinese patent literature CN102059529A disclosure, existing typically The process for the outer surface of glass mold be, by one end of lathe chuck clamping glass die blank, to mould The other end machines, and then unloads glass mold, by process one end be clamped on lathe chuck and carry out the other end Vehicle Processing.This processing method uses and clamps processing twice, and as the general knowledge in machining field, clamping repeatedly will Cause the increase of error, and then be difficult to ensure that the symmetry of two half modules of glass mold.Manually adjust glass mold axis with The coincidence of lathe spindle axis is high to operative's skill requirement, and effect difference, time-consuming again, therefore this traditional mould is cylindrical adds Work method is inapplicable, to be improved.

And Chinese patent literature CN103753141A discloses a kind of glass mold Excircle machining method and special fixture, casting When making two half module blanks, two end faces at half module are cast with two boss respectively, and the bottom surface of boss is that half module coordinates prolonging of face Extending portion is divided, and the land length of one of them half module is longer than the land length of another half module, by clamping after two half module combinations Boss is clamped by device, secures the two ends of mould simultaneously, so can avoid clamping the axiality brought and symmetry twice Problem, but this method is only applicable to the processing of the less demanding glass mold to two ends end face.When glass mold two ends end Face structure is complicated, it is impossible to when casting boss in advance, the method cannot be implemented.

Content of the invention

For above-mentioned the deficiencies in the prior art, it is an object of the invention to provide a kind of glass mold once clamps symmetrical car Processing method, solves glass mold and repeatedly clamps the problem that processing affects axiality.It is a further object to provide and adopt Device with the inventive method processing glass mold.

The technical scheme is that such: a kind of glass mold once clamp symmetrical turning processing method, including with Lower step: described glass mold is clamped by the first chuck, described first chuck is driven it to rotate by the first drive shaft, carries out one end Vehicle Processing；After one end Vehicle Processing terminates, described first chuck drives glass mold to move by the second chuck clamping to the second chuck One end that Vehicle Processing terminates, the first chuck release glass mold, the second chuck is driven it to rotate by the second drive shaft, to by first One end Vehicle Processing of chuck clamping, the spindle central of described first chuck and the second chuck is coaxial and positioned opposite along rotating shaft, institute The moving direction stating the first chuck is parallel with rotor shaft direction.

Further, after one end Vehicle Processing terminates, described first chuck drives glass mold to move to the second chuck, when the Two chucks and glass mold distance are less than the one end terminated by the second chuck clamping Vehicle Processing during preset distance.

Further, after one end Vehicle Processing terminates, described first chuck drives glass mold to move to the second chuck, when the Two chucks and glass mold pressure are more than the one end terminated by the second chuck clamping Vehicle Processing during predetermined pressure.

Glass mold once clamp symmetrical lathe machining device, including frame, the first drive shaft, the first chuck, the first cutter Tool tower, the second drive shaft, the second chuck and the second cutter tower, described first drive shaft and the second drive shaft are symmetrically arranged in described The two ends of frame, described first chuck is arranged at described first drive shaft and is driven rotation, described first cutter by the first drive shaft Tool tower is arranged at the homonymy of the first chuck, and the direction of feed of described first cutter tower is orthogonal to the rotating shaft of described first chuck, institute Stating the second chuck be arranged at described second drive shaft and driven rotation by the second drive shaft, described second cutter tower is arranged at second The homonymy of chuck, the direction of feed of described second cutter tower is orthogonal to the rotating shaft of described second chuck, described first chuck and The spindle central of two chucks is coaxial, and described first chuck can move back and forth along its rotor shaft direction.

Further, being provided with separation baffles between described first chuck and the second chuck, described separation baffles includes can edge Overhead gage that first cutter tower direction of feed moves back and forth and lower baffle plate.

The advantage of technical scheme provided by the present invention is, is arranged symmetrically with two groups of conventional lathe machining devices, and can phase To movement, moving to the second chuck after being clamped processing by the first chuck, the first chuck release after the second chuck clamps is carried out again Processing, although have employed the operation clamping twice, but second time clamps process and can be not necessarily to manual intervention, clamp twice is coaxial Degree is ensured by the first chuck and the axiality of the second chuck own, it is to avoid take apart a die after original time processing, and tune is again The axiality problem producing when clamping.Owing to clamping in process, glass mold is without separating tune, and working (machining) efficiency is high.Right Claim the processing unit (plant) compact conformation arranged, take up an area little, whole manufacturing procedure can be completed as an equipment, again can be as two lists Two different parts processed by only process equipment simultaneously, and utilization rate of equipment and installations is high.

Brief description

Fig. 1 is present configuration schematic diagram.

Detailed description of the invention

Below in conjunction with embodiment, the invention will be further described, but not as a limitation of the invention.

Refer to Fig. 1, glass mold involved in the present invention once clamp symmetrical lathe machining device, including frame the 1st, the One drive shaft the 2nd, the first chuck the 3rd, the first cutter tower the 4th, the second drive shaft the 5th, the second chuck 6 and the second cutter tower 7.Wherein first drive Moving axis 2 and the second drive shaft 5 are by respective driven by servomotor, and are symmetrically arranged in the two ends of frame 1, the first cutter tower 4 He Multiple cutter can be set on the second cutter tower 7 to adapt to different process requirements.First chuck 3 is arranged at the first drive shaft 2 And the first drive shaft 2 is driven rotation, the first cutter tower 4 is arranged at the homonymy of the first chuck 3, the feed side of the first cutter tower 4 To the rotating shaft being orthogonal to the first chuck 3.First drive shaft the 2nd, the first chuck 3 and the first cutter tower 4 constitute first set Vehicle Processing Device.Second chuck 6 is arranged at the second drive shaft 5 and is driven rotation by the second drive shaft 5, and the second cutter tower 7 is arranged at second The homonymy of chuck 6, the direction of feed of the second cutter tower 7 is orthogonal to the rotating shaft of the second chuck 6, the second drive shaft the 5th, the second chuck 6 Constitute the second set lathe machining device with the second cutter tower 7.Two set lathe machining devices are actually disposed with left-right symmetry at machine The two ends of frame 1.One key point of the present invention is, by coaxially arranged for the rotating shaft of the first chuck 3 and the second chuck 6, and One chuck 3 can move back and forth along its rotor shaft direction.It is of course also possible to be that the second chuck 6 can move back and forth along its rotor shaft direction Arranging, the exchange to complete glass mold clamps.It is provided with separation baffles 9 between the first chuck 3 and the second chuck 6, separate gear Plate includes overhead gage 91 and the lower baffle plate 92 that can move back and forth along the first cutter 4 direction of feed.The setting of separation baffles 9 can be by The first set lathe machining device being arranged symmetrically with and the second set lathe machining device are each individually formed two set processing dresses of complementary interference Put two parts of processing simultaneously, the processing method to complete the present invention for the left and right sides after opening, can be connected again.

The concrete processing method of the present embodiment is as follows: glass mold is clamped by the first chuck 3, and the first chuck 3 is by first Drive shaft 2 drives it to rotate, and the first chuck 3 drives glass mold 10 to rotate, the first cutter tower 4 feed to glass mold 10 one End machines；After one end Vehicle Processing terminates, the first chuck 3 drives glass mold to move to the second chuck 6, such as the second chuck 6 also for being movably arranged then relative movement the first chuck 3 and the second chuck 6 simultaneously.When the first chuck 3 move axially or One chuck 3 and the second chuck 6 move to axial so that the second chuck 6 and glass mold 10 spacing are less than preset distance, than During such as 1mm, then the servomotor driving the second chuck 6 is detected its axial thrust, stop when axial thrust is more than predetermined thrust The only movement of the first chuck 3 and the second chuck 6, and by the second chuck 6 clamping glass mould 10 processed one end；Second After chuck 6 clamping completes, the first chuck 3 discharges glass mold, and the second chuck 6 is driven it to rotate by the second drive shaft 5, drives glass Glass mould 10 rotates, the second cutter tower 7 feed to one end Vehicle Processing being clamped by the first chuck 3 before until completing entirely to process Require.

Claims (5)

1. a glass mold once clamp symmetrical turning processing method, it is characterised in that comprise the following steps: described glass molds Tool is by the first chuck clamping, and described first chuck is driven it to rotate by the first drive shaft, carries out one end Vehicle Processing；One end Vehicle Processing After end, described first chuck drives glass mold to move, to the second chuck, the one end terminated by the second chuck clamping Vehicle Processing, First chuck release glass mold, the second chuck is driven it to rotate by the second drive shaft, to one end car by the first chuck clamping Processing, the spindle central of described first chuck and the second chuck is coaxial and positioned opposite along rotating shaft, the movement of described first chuck Direction is parallel with rotor shaft direction.

2. glass mold according to claim 1 once clamp symmetrical turning processing method, it is characterised in that: one end car adds After work terminates, described first chuck drives glass mold to move to the second chuck, when the second chuck is less than with glass mold distance The one end terminated by the second chuck clamping Vehicle Processing during preset distance.

3. glass mold according to claim 1 once clamp symmetrical turning processing method, it is characterised in that: one end car adds After work terminates, described first chuck drives glass mold to move to the second chuck, when the second chuck is more than with glass mold pressure The one end terminated by the second chuck clamping Vehicle Processing during predetermined pressure.

4. a glass mold once clamp symmetrical lathe machining device, it is characterised in that: include frame, the first drive shaft, the One chuck, the first cutter tower, the second drive shaft, the second chuck and the second cutter tower, described first drive shaft and the second drive shaft Being symmetrically arranged in the two ends of described frame, described first chuck is arranged at described first drive shaft and is turned by the first drive shaft driving Dynamic, described first cutter tower is arranged at the homonymy of the first chuck, and the direction of feed of described first cutter tower is orthogonal to described first The rotating shaft of chuck, described second chuck is arranged at described second drive shaft and is driven rotation, described second cutter by the second drive shaft Tool tower is arranged at the homonymy of the second chuck, and the direction of feed of described second cutter tower is orthogonal to the rotating shaft of described second chuck, institute Stating the first chuck and the spindle central of the second chuck being coaxial, described first chuck can move back and forth along its rotor shaft direction.

5. glass mold according to claim 4 once clamp symmetrical lathe machining device, it is characterised in that: described first Being provided with separation baffles between chuck and the second chuck, described separation baffles includes to move back and forth along the first cutter tower direction of feed Overhead gage and lower baffle plate.