CN101659012A

CN101659012A - Method for processing container glass mold

Info

Publication number: CN101659012A
Application number: CN200910172038A
Authority: CN
Inventors: 蒋士明
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-09-03
Filing date: 2009-09-03
Publication date: 2010-03-03
Anticipated expiration: 2029-09-03
Also published as: CN101659012B

Abstract

The invention relates to a method for processing a mold, in particular to a method for processing a container glass mold. The method comprises the following steps: A. pouring a mold blank; B. fixing the mold blank on a numerical control (NC) machine tool and determining the uniform mold blank processing benchmark; and C. processing each side of the mold blank. By determining the uniform mold blankprocessing benchmark, the method can realize high uniformity of shape and position dimensions and linear dimension of the product and strongly ensure the product quality, thus increasing the qualified rate of the product and lowering the production cost. In addition, after uniforming the mold blank processing benchmark, rotary processing of each side of the mold blank greatly simplifies the production technology, thus achieving the effect of saving labor and time.

Description

A kind of processing method of container glass mold

Technical field

The present invention relates to the processing method of mould, especially a kind of processing method of container glass mold.

Background technology

The processing method of present container glass mold, operation is loaded down with trivial details, and production line is long, each face of die blank is processed separately in the production process, need use multiple processing machine instead, and the continuous conversion of benchmark, thereby can not guarantee the morpheme size, cause the product rejection rate height, the production cost height; In addition owing to do not stipulate in the process that randomness is big especially in unified benchmark, the process, especially in the Milling Process link, because of the no standard benchmark or be difficult to seek benchmark, cause error big so generally can only adopt outer round arris edge during tool setting, cause interchangeability to can not get assurance thus.

Summary of the invention

Problem to be solved by this invention is: the processing method that a kind of container glass mold is provided, this method has been determined unified die blank machining benchmark, can make product morpheme size and linear dimension realize high unity, make product quality obtain strong guarantee, thereby improved product qualified rate, reduced production cost, and behind the unified die blank machining benchmark, each face of revolution processing mold blank is simplified production technology greatly, reaches the saving of labor, saves time, the labour-saving effect.

The object of the present invention is achieved like this: a kind of processing method of container glass mold comprises A casting die blank; Further comprising the steps of:

B is fixed on die blank on the Digit Control Machine Tool, determines unified die blank machining benchmark;

Described unified die blank machining benchmark comprises datum plane, mills and bores processing revolution benchmark, and Vehicle Processing center of circle benchmark, datum plane produces by milling die blank one end end face; Mill brill processing revolution benchmark by on die blank two end end faces, generating the fabrication hole generation; Vehicle Processing center of circle benchmark produces by circular interpolation milling or cover boring template tool blank one end cylindrical;

By datum plane with mill and bore processing revolution benchmark and determine to mill and bore processing revolution axial line, determine Vehicle Processing revolution axial line by datum plane and Vehicle Processing center of circle benchmark, described milling bored processing revolution axial line and Vehicle Processing and turned round axial line and be parallel to each other or overlap, both are all perpendicular to described datum plane, and and the vertical center line of described datum plane intersect;

Each face of C processing mold blank.

Vehicle Processing center of circle benchmark produces by circular interpolation milling or the big end cylindrical of cover boring template tool blank.

Described datum plane produces by the big end end face 10 of milling die blank, on big end end face 10, generate two

fabrication holes

31,32, fabrication hole 31 is positioned on the vertical center line of big end end face 10, angle 〉=45 of fabrication hole 32 and described big end end face vertical center line ° and≤75 °, generate a fabrication hole 33 on die blank small end end face 11, the center of circle of the center of circle of fabrication hole 33 and fabrication hole 31 is coaxial.

Fabrication hole 31 equates with the distance of fabrication hole 32 to big end end face 10 centers of circle.

fabrication holes

34,35, angle 〉=45 of

fabrication hole

34,35 and described big end end face vertical center line ° and≤75 °, on die blank small end end face 11, generate two

fabrication holes

36,37, the center of circle of fabrication hole 36 is coaxial with the center of circle of fabrication hole 34, and the center of circle of fabrication hole 37 is coaxial with the center of circle of fabrication hole 35.

Fabrication hole 34 equates with the distance of fabrication hole 35 to big end end face 10 centers of circle.

Step C comprises: Vehicle Processing die blank inside and outside circle, inner chamber and end face, boring and milling bore revolution processing mold blank inside and outside circle, inner chamber and end face.

The invention has the advantages that:

1 owing to given full play to the advantage of Digit Control Machine Tool and determined unified die blank machining benchmark, can realize the product size high unity, make product quality obtain strong guarantee, thereby make mould obtain the interchangeability of height, make glass mold production more specialized simultaneously;

Used anchor clamps kind obviously reduces in 2 productions, and special fixture is fully used, and has significantly reduced the input cost of producing;

3 owing to used special fixture, therefore reduced the clamping time, the turnaround time and the handling time of workpiece, reduced labour intensity; And can process two dies on the special fixture simultaneously and can process in pairs also can not process in pairs and shortened process time and cycle so greatly, obviously improved production efficiency;

4 new technologies are short and sweet, for production management provides advantage;

5 owing to simplified work flow, therefore reduced the kind and the quantity of process equipment, reduced operating post, reaches saving of labor, timesaving effect.

Description of drawings

Fig. 1 be for the cold hole of hanging down that branch such as circumference distributes and wherein the cold hole of hanging down look schematic diagram in the right side of die blank when being positioned on the vertical center line of the big end end face of die blank;

Fig. 2 be for the cold hole of hanging down that branch such as circumference distributes and wherein one hang down cold hole when being positioned on the vertical center line of the big end end face of die blank the master of die blank look schematic diagram;

Fig. 3 be for the cold hole of hanging down that branch such as circumference distributes and wherein the cold hole of hanging down look schematic diagram in the left side of die blank when being positioned on the vertical center line of the big end end face of die blank;

Fig. 4 is for the cold hole of hanging down that branch such as circumference distributes and schematic diagram is looked in the right side of die blank when being positioned on the vertical center line of the big end end face of die blank in none cold hole of hanging down;

Fig. 5 is for the cold hole of hanging down that branch such as circumference distributes and none cold hole of hanging down when being positioned on the vertical center line of the big end end face of die blank the master of die blank look schematic diagram;

Fig. 6 is for the cold hole of hanging down that branch such as circumference distributes and schematic diagram is looked in the left side of die blank when being positioned on the vertical center line of the big end end face of die blank in none cold hole of hanging down;

Fig. 7 is for the cold hole of hanging down that branch such as circumference distributes and cold hole two punch clamping machining state front views when being positioned on the vertical center line of the big end end face of die blank that hang down wherein;

Fig. 8 is for the cold hole of hanging down that branch such as circumference distributes and cold hole two punch clamping machining state vertical views when being positioned on the vertical center line of the big end end face of die blank that hang down wherein;

Fig. 9 is for the cold hole of hanging down that branch such as circumference distributes and the cold hole numerical control scale-division head end clamping position location schematic diagram when being positioned on the vertical center line of the big end end face of die blank that hangs down wherein;

Figure 10 is for the cold hole of hanging down that branch such as circumference distributes and none cold hole of hanging down two punch clamping machining state front views when being positioned on the vertical center line of the big end end face of die blank;

Figure 11 is for the cold hole of hanging down that branch such as circumference distributes and none cold hole of hanging down two punch clamping machining state vertical views when being positioned on the vertical center line of the big end end face of die blank;

Figure 12 is for the cold hole of hanging down that branch such as circumference distributes and none cold hole of hanging down numerical control scale-division head end clamping position location schematic diagram when being positioned on the vertical center line of the big end end face of die blank;

Figure 13 bores the assembling front view that mills two end anchor clamps for BLM-GZ-TYX01-00;

Figure 14 bores the assembling plan view that mills two end anchor clamps for BLM-GZ-TYX01-00;

Figure 15 bores the partial left side view of the assembling plan view that mills two end anchor clamps for BLM-GZ-TYX01-00;

Figure 16 bores the A-A-A cutaway view of the assembling plan view that mills two end anchor clamps for BLM-GZ-TYX01-00;

Figure 17 bores the A-A-A cutaway view of assembling plan view under use pressing plate refill-unit situation that mills two end anchor clamps for BLM-GZ-TYX01-00;

Figure 18 bores the B-B cutaway view of the assembling plan view that mills two end anchor clamps for BLM-GZ-TYX01-00;

Figure 19 is the assembling front view of four sides, BLM-GZ-TYX02-00S (double end dividing head) two top rotary jig;

Figure 20 is the A-A cutaway view of the assembling front view of four sides, BLM-GZ-TYX02-00S (double end dividing head) two top rotary jig;

Figure 21 is the B-B cutaway view of the assembling front view of four sides, BLM-GZ-TYX02-00S (double end dividing head) two top rotary jig;

Figure 22 is the C-C cutaway view of the assembling front view of four sides, BLM-GZ-TYX02-00S (double end dividing head) two top rotary jig;

Figure 23 is that the assembling partial left of four sides, BLM-GZ-TYX02-00S (double end dividing head) two top rotary jig is looked cutaway view;

Figure 24 is the D-D cutaway view of the assembling front view of four sides, BLM-GZ-TYX02-00S (double end dividing head) two top rotary jig.

Among the figure: 1 Vehicle Processing center of circle benchmark, 2 datum planes, 3 mill brill processing revolution benchmark, 4 location-plates, 5 lathe table tops, 6 location compound plates, the big end end face of 10 die blanks, 11 die blank small end end faces, the fabrication hole of the big end of 31 die blanks, the fabrication hole of the big end of 32 die blanks, the fabrication hole of 33 die blank small ends, the fabrication hole of the big end of 34 die blanks, the fabrication hole of the big end of 35 die blanks, the fabrication hole of 36 die blank small ends, the fabrication hole of 37 die blank small ends, 38 location via holes, 39 centres of gyration point, 40 NC dividing heads, 51 right locating pins, 52 right corner degree locating pins, 54 compound plate locators, 55T type groove nut, 56 hexagon socket cap head screws, 57 magnet rings are responded to slim hydraulic cylinder, and 58 magnet rings are responded to slim hydraulic cylinder, 60 bearing blocks, 62T type groove nut, 63 hexagon socket cap head screws, 64 hexagon socket cap head screws, 65 screw mandrels, 67 base plates, 68 bearing block cover plates, 69 dividing head bed hedgehopping pieces, 70 positioning keys, 71 left locating pins, 72 tops, 73 sliding axles, 74 hydraulic cylinder piston knock-off joints, 76 screw rodb bases, 77 screws, 78 positioning keys, 79 steel bushings, 80 transformation of the way soket head cap screws, 81 brake block, 82 FK15140X2 double end NC dividing heads, 91 datum plates, 92 pressing plate guide pads, 93 pressing plate guide pad cover plates, 94 pressing plates, 95 right gusset pieces, 96 right gusset piece alignment pin, 97 Left-wing Federation's fishplate bars, 98 gyroaxises, 99 bearing blocks, 100 angle orientation pins, 101 bearing block cover plates, 102 base plates, 103 dividing head bed hedgehopping pieces, 104 arm-ties, 105 pull bars, 1062-M8T type nut, 107 planar top stromas, 108 limited block A, 109 spacing blocks, 110 limited block cross bars, 111 pressing plate refill-units, 112 positioning keys, 113 positioning keys, 114T type groove nut, 115 hexagon socket cap head screws, 116 magnet rings are responded to slim hydraulic cylinder, 117 magnet rings are responded to slim hydraulic cylinder, 118FK15150B NC dividing head, 119 hexagon socket cap head screws, 120 hex nuts, hexagonal flush end holding screw in 121,122 interior hexagonal flush end holding screws, 123 hexagon socket cap head screws, 124 hexagon socket cap head screws, 125 hexagon socket cap head screws, 126 hexagon socket cap head screws, 130 supportings, 131 anchor clamps centre of gyration lines, 132 die blanks.

The specific embodiment

The invention will be further described below in conjunction with the drawings and specific embodiments.

The concrete operation of the embodiment of the invention one is as follows:

1, goes out product figure according to customer requirement and glass mold technical specification;

2, decomposing by product figure requirement, and propose production early-stage preparations such as reasonable process technology and required anchor clamps, cutter, measurer, programming, here is exactly to adopt the present invention to come processing mold;

3, casting die blank carries out the proportioning casting by pattern and company standard, and annealing in process;

The equipment that uses is casting a complete set of equipment, and frock clamp is the moulding wooden model, will test after producing, and the check emphasis is constituent analysis and the inspection of outward appearance casting flaw; Use measurer to be spectroanalysis instrument, range estimation; Inspection frequency is 1/batch of spectrum analysis, and range estimation is inspection entirely.

4, die blank is fixed on the Digit Control Machine Tool, determines unified die blank machining benchmark;

The equipment that uses is the vertical boring-mill work of the Digit Control Machine Tool of 3060VMC center as the model that the abundant lathe of Taiwan good fortune limited company produces, and the frock clamp that uses bores as BLM-GZ-TYX01-00 and mills two end anchor clamps.

Described unified die blank machining benchmark comprises Vehicle Processing center of circle benchmark, datum plane mills and bores processing revolution benchmark, determines that above three benchmark realize by the boring-mill work center first road manufacturing procedure, come processing mold with these three benchmark from start to finish in the processing, can not be destroyed.

The generation of three benchmark does not have sequence requirement, but by professional etiquette, generally is to do datum plane earlier, then does to mill and bores processing revolution benchmark, does Vehicle Processing center of circle benchmark at last.

Datum plane 2 generally is to produce by the big end end face of milling die blank, also can produce under the particular case by milling die blank small end end face, such as the short situation in the face of cylinder of the big end cylindrical of die blank, be to produce datum plane 2 in the present embodiment by the big end end face of milling die blank; Mill brill processing revolution benchmark 3 by on die blank two end end faces, generating the fabrication hole generation; Vehicle Processing center of circle benchmark 1 produces by circular interpolation milling or the big end cylindrical of cover boring template tool blank, is exactly the center of circle of datum plane 2.

By datum plane 2 with mill and bore processing revolution benchmark 3 and determine to mill and bore processing revolution axial line, mill and bore processing revolution axial line and be by milling and bore processing revolution benchmark 3 and perpendicular to the straight line of datum plane 2.Determine Vehicle Processing revolution axial line by datum plane 2 and Vehicle Processing center of circle benchmark 1, Vehicle Processing revolution axial line is by Vehicle Processing center of circle benchmark 1 and perpendicular to the straight line of datum plane 2.Mill and bore processing revolution axial line and Vehicle Processing and turn round correlation between the axial line: be parallel to each other or overlap, all perpendicular to datum plane 2, and and datum plane 2 vertical center line intersect, that is to say just to have produced to mill and bore processing revolution axial line with respect to Vehicle Processing revolution axial line translation certain distance (〉=0) on the vertical center line of datum plane 2.The small-sized die blank of general processing can make Vehicle Processing revolution axial line bore processing and turn round axial line and overlap with milling, the die blank of machining large, Vehicle Processing is turned round axial line and milled between the brill processing revolution axial line is exactly the relation that is parallel to each other, in the present embodiment, Vehicle Processing is turned round axial line and milled between the brill processing revolution axial line is exactly the relation that is parallel to each other.

As Fig. 1, Fig. 2, shown in Figure 3, two fabrication holes 31 of processing on the big end end face 10 of die blank, 32, fabrication hole 31 is positioned on the vertical center line of big end end face 10, the center of circle of fabrication hole 31 is just milled and is bored processing revolution benchmark 3, the angle of fabrication hole 32 and the vertical center line of big end end face 10 should 〉=45 ° and≤75 °,, be decided to be 60 ° here, because 60 is 10,12,15 multiple, we wish to try one's best and do fabrication hole by vertical cold hole in the processing, and the vertical cold hole on the general die blank is by circle distribution and alternate 10 to 12.5 degree, as long as and other places do not produce interference, the probability maximum that the cold hole of hanging down is arranged on 60 ° the position, so 60 ° is best angle, can certainly select 45 °, 48 °, 50 °, 52 °, 55 °, 62 °, 65 °, 68 °, 70 °, 72,75 ° of equal angles only need in processing technology hole, relevant position.Fabrication hole 31 and fabrication hole 32 can equate to the distance in big end end face 10 centers of circle also can be unequal, if unequal, needs to make the location-plate of corresponding specification, if equate, just can determine the location-plate of a standard specification, so that repeated use.For the ease of production, energy-conservation, fabrication hole 31 equates with the distance of fabrication hole 32 to big end end face 10 centers of circle in the present embodiment.Fabrication hole 33 of processing on the die blank small end end face 11, the center of circle of the center of circle of fabrication hole 33 and fabrication hole 31 is coaxial, by datum plane 2 with mill and bore processing revolution benchmark 3 and determine to mill and bore processing revolution axial line, the just circle center line connecting of fabrication hole 31 and fabrication hole 33.Fabrication hole 32 is used for angle orientation and plays gearing.

Generally all need the vertical cold hole of processing on die blank, unified regulation is not done in position, number, footpath, center for the vertical cold hole on the die blank in the production, generally is by circle distribution and alternate 10 to 12.5 degree, needs only with other places and does not produce interference.Though the actual conditions in the mould manufacturing enterprise are so at present, for convenience, realize standardized production, we wish to try one's best and do fabrication hole by vertical cold hole, and the cold Kongzui that hangs down thus carries out standardized designs well.Fabrication hole is of a size of Present embodiment is exactly that the satisfactory cold hole of hanging down is all arranged on the position of

fabrication hole

31,31,33, and just can do fabrication hole by vertical cold hole this moment, if do not have, the processing technology hole is just passable.

Concrete operations are as follows: the die joint (also claiming the joint close face in the industry) with die blank is the clamping datum plane, locate with three supporting-points, the pressing mold tool blank face of cylinder then, mill die blank two ends end face, each hole comprises the hole that needs on the vertical cold hole that is used for determining benchmark and the product design figure etc. on the some punch die blank two end end faces, brill mills the vertical cold hole etc. that hinge processing is used for determining benchmark, overlaps the big end cylindrical of boring template tool blank, mills homalocephalus.

5, rough mill: with

fabrication hole

31,32,33 is the clamping benchmark, and pressing mold tool blank two end end faces are rough milled the Hough face, lower interface, joint close interface on the surfacing;

The equipment that uses is the vertical boring-mill work of 3060VMC Digit Control Machine Tool center, and the frock clamp that uses is four sides, BLM-GZ-TYX02-00 two top rotary jig.

6, surfacing: preheated mold blank to 800～850 ℃, by surfacing figure requirement surfacing alloy nickel powder, and slow cooling after 600～650 ℃ of insulations 2 hours in resistance furnace;

The equipment that uses has surfacing torch, oxygen cylinder, acetylene cylinder, resistance furnace.

7, finish-milling I: with

fabrication hole

31,32,33 is the clamping benchmark, clamp mould blank two end end faces, finish-milling Hough face, thick finish-milling abnormity inner chamber;

8, thick finish turning I: the cylindrical that the big end of clamp mould blank has been processed, thick finish turning cylindrical, endoporus and each step thereof;

The equipment that uses is the CJK6150 numerically controlled lathe, and the frock clamp that uses is the soft dog chuck of φ 300 four paws self-centering hydraulic pressure.

9, thick finish turning II: clamp mould blank small end cylindrical, the thick right boring endoporus each several part of school circle;

10, type in the finishing impression: clamp mould blank two end end faces, the alignment two side faces is found type in the finishing impression of center accurately;

The equipment that uses is SKDX5060 finishing impression machine, and the frock clamp of use is homemade anti-top anchor clamps.

11, interior type polishing: the big end cylindrical of clamp mould blank, school circle polishing;

The equipment that uses is the C620 engine lathe, and the frock clamp that uses is φ 250 four paws self-centering chucks, and the cutter of use is the polishing knife bar, and machined parameters: rotating speed is 1000r/min, and feed speed is 100mm/r.

12, finish-milling II: with

fabrication hole

31,32,33 is the clamping benchmark, pressing mold tool blank two end end faces, finish-milling vacuum tank, air discharge duct, concave, mill low, the Hough muscle mills void, mill ellipse; Turn round 180 ° of thick finish-milling locating slots, bore and mill vest eye, clothes-hook plane and assembling screw thereof; Turn round thick finish-milling two side faces; Calibration revolution saw blade mills cooling bath etc. and remains operation on four sides;

13, drilling deep hole: the folder cylindrical, the alignment bad mold joint is found the center of circle accurately, drilling deep hole;

The equipment that uses is the ZK4050 NC deep hole drilling machine, and the frock clamp of use is homemade special fixture, and the cutter of use is the lengthening fluted drill, and the permission linear speed is 45m/min.

14, hinge deep hole: the folder cylindrical, the alignment bad mold joint is found the center of circle accurately, the hinge deep hole;

The equipment that uses is WDF500C-2CNC deep hole ream machine, and the frock clamp of use is the special fixture with machine, and the cutter that uses is the deep hole reamer, and the permission linear speed is 40m/min.

15, inner chamber is carved characters: require to engrave appropriate font and pattern according to customer requirement and drawing;

The equipment that uses is the X4222A three dimensional pantograph engraving machine, and the frock clamp of use is the homemade anchor clamps that incline.

16, inner chamber electric spark: require to engrave appropriate font and pattern according to customer requirement and drawing;

The equipment that uses is the numerical control electric spark machine.

17, bore core: bore each aperture of inner chamber;

The equipment 1 that uses is the Z406B-1 bench drill, and the frock clamp of use is the homemade anchor clamps that incline; The equipment 2 that uses is the homemade anchor clamps that incline as the little hole processor of DB703 electric spark high speed, the frock clamp of use.

18, boring: bore each hole of residue and comprise inclined hole;

The equipment that uses is the Z4116 bench drill.

19, tapping: attack each screw;

The equipment that uses is attacked dual-purpose machine as the desk-top brill of ZS4112C.

20, plane mark: on large end face, carve signs such as pattern number, model;

The equipment that uses is the X4222A three dimensional pantograph engraving machine.

21, polishing: die-face (inner chamber) is carried out the light decorations, and surface roughness≤0.2 μ m is noted size when polishing;

The equipment that uses is pneumatic or electronic bistrique, and the grinding tool that uses is emery cloth, sand paper.

22, chamfering: each edge chamfering deburring inner chamber of outer surface is kept acute angle;

23, eventually inspection: each size to the finished product mould checks comprehensively, correspondingly carries out record and files for future reference;

24, assembling: adorn cooling tube, vexed vacuum screw, go up clothes-hook, handle screw etc. is installed;

25, packing: remove greasy dirt, last antirust oil, wrapping.

The concrete operation of the embodiment of the invention two is as follows:

Operation 1～3 is with embodiment one;

Datum plane 2 generally is to produce by the big end end face of milling die blank, in particular cases also can produce by milling die blank small end end face, such as the short situation in the face of cylinder of the big end cylindrical of die blank, be to produce datum plane 2 in the present embodiment by the big end end face of milling die blank; Mill brill processing revolution benchmark 3 by on die blank two end end faces, generating the fabrication hole generation; Vehicle Processing center of circle benchmark 1 produces by circular interpolation milling or the big end cylindrical of cover boring template tool blank, is exactly the center of circle of datum plane 2.

As Fig. 4, Fig. 5, shown in Figure 6, two fabrication holes 34 of processing on the big end end face 10 of die blank, 35, fabrication hole 34,35 with the angle of the vertical center line of big end end face 10 should 〉=45 ° and≤75 °,, be decided to be 60 ° here, because 60 is 10,12,15 multiple, we wish to try one's best to do fabrication hole by vertical cold hole in the processing, and the vertical cold hole on the general die blank is by circle distribution and alternate 10 to 12.5 degree, as long as do not produce interference with other places, the probability maximum that the cold hole of hanging down is arranged on 60 ° the position, so 60 ° is best angle, can certainly select 45 °, 48 °, 50 °, 52 °, 55 °, 62 °, 65 °, 68 °, 70 °, 72,75 ° of equal angles only need in processing technology hole, relevant position.Two fabrication holes 36,37 of processing on die blank small end end face 11, fabrication hole 36 is coaxial with the center of circle of fabrication hole 34, and fabrication hole 37 is coaxial with the center of circle of fabrication hole 35.Just can determine centre of gyration point 39 by fabrication hole 34,35,36,37, the location-plate 4 by using the first end of numerical control scale-division and the location compound plate 6 of the other end just can be set up to mill and bore processing and turn round benchmark 3.

Generally all need the vertical cold hole of processing on die blank, unified regulation is not done in position, number, footpath, center for the vertical cold hole on the die blank in the production, generally is by circle distribution and alternate 10 to 12.5 degree, needs only with other places and does not produce interference.Though the actual conditions in the mould manufacturing enterprise are so at present, for convenience, realize standardized production, we wish to try one's best and do fabrication hole by vertical cold hole, and the cold Kongzui that hangs down thus carries out standardized designs well.Fabrication hole is of a size of φ 7H7, and present embodiment is exactly that the satisfactory cold hole of hanging down is all arranged on the position of

fabrication hole

34,35,36,37, and just can do fabrication hole by vertical cold hole this moment, if do not have, the processing technology hole is just passable.

Operation 5～25 is with embodiment one.

Process the vertical center line that revolution benchmark 3 can pass through the big end end face of die blank in order to determine to mill to bore, mill in theory and bore the center of circle that processing revolution benchmark 3 preferably passes through big end end face, but consider many reasons such as use, design of Clamping Apparatus of cutter, the center of circle that can only depart from big end end face sometimes.On the big end end face 10 of die blank two fabrication holes 31,32 are arranged among the embodiment 1, wherein fabrication hole 32 is not on the vertical center line of big end end face, play angle orientation and gearing, it is exactly a rotating central hole to fabrication hole 31 so on the vertical center line of big end end face, and its center of circle is to mill bores processing revolution benchmark 3; On the big end end face 10 of die blank two fabrication holes 34 are arranged among the embodiment 2,35, fabrication hole 34,35 on the vertical center line of big end end face, therefore just need location compound plate 6 that plays the grafting effect of processing in addition, on the compound plate 6 of location, there are two location pins to insert in two fabrication holes 38 of die blank small end end face 11, allow centre of gyration point 39 still by the big vertical center line of holding end face, centre of gyration point 39 is to mill and bores processing revolution benchmark 3, therefore the necessary standardization in footpath, the center of fabrication hole and aperture, otherwise, the location compound plate does not just have the foundation of design, and the location compound plate has just been determined good corresponding specification in the practical operation before Mould Machining.

As Fig. 7, Fig. 8, shown in Figure 9, the use of location-plate is described with regard to the situation of embodiment one, can process two die blanks simultaneously man-hour in actual adding, all can in pairs in pairs or not, what Fig. 7, Fig. 8, Fig. 9 showed is that the fabrication hole that anchor clamps are positioned on the die blank is the cold hole of hanging down here, and the vertical cold hole on the die blank is that branch such as circumference distributes and wherein a vertical cold hole be positioned at situation on the vertical center line of the big end end face 10 of die blank.

As Figure 10, Figure 11, shown in Figure 12, the use of location-plate and location compound plate is described with regard to the situation of embodiment two, wherein locate compound plate and play a grafting, can process two die blanks simultaneously man-hour in actual adding, all can in pairs in pairs or not, what Figure 10 and Figure 11 showed is that the fabrication hole that anchor clamps are positioned on the die blank is the cold hole of hanging down here, and the vertical cold hole on the mould is the situation that branch such as circumference distributes and do not have vertical cold hole on the vertical center line of the big end end face 10 of die blank.When fabrication hole can't be used vertical cold hole or not exist the cold Kong Shike that hangs down to come the processing technology hole with reference to embodiment two, for location-plate on the anchor clamps and location compound plate, because its making simply can design, make temporarily, at embodiment two in this case, also can process two location via holes 38 that are used for being connected as shown in Figure 6 with the location compound plate, can be processed into the M6 hole, embodiment two just produces centre of gyration point 39.

If there is no or can't be, then can be by other holes or processing technology hole in addition by vertical cold hole.Such as the blank mould that has, the cold hole of at all not hanging down has only several screw holes; Be square or leg-of-mutton such as the dies cavity that has again, in designing mould, in order to consider the balance of chilling temperature, the cold hole of hanging down also and then is arranged in square or leg-of-mutton, in these cases, locating hole just can not be used the cold hole of hanging down, just need be by other holes or other processing technology hole, need interim design simultaneously and make the design of location-plate and location compound plate location-plate and location compound plate and make fairly simplely, concrete operations are exactly with reference to embodiment

Each face of step C processing mold blank comprises Vehicle Processing die blank inside and outside circle, inner chamber and end face, and boring and milling bores revolution processing mold blank inside and outside circle, inner chamber and end face.It specifically is exactly operation 5～24, add man-hour milling to bore, utilize scientific and technological content higher boring-mill work central apparatus and special fixture, by milling brill processing revolution axial line and setting the three-dimensional processing in multiplex's part coordinate system realization four sides, except being not orthogonal to the hole of datum line, all can be under the situation of a clamping thick fine finishining such as other plane, curved surface, hole, groove be finished, and that is to say, single operation various in the traditional handicraft has been become corresponding work step in this operation.

Be the Digit Control Machine Tool boring-mill work center of 3060VMC except the model that can select for use the abundant lathe of Taiwan good fortune limited company to produce in the processing, the model that can also select for use the Little Big Man lathe Co., Ltd in Ningxia to produce is the Digit Control Machine Tool boring-mill work center of VTC-200BN.

The model that the abundant lathe of the Taiwan good fortune limited company that embodiment adopts produces is the Digit Control Machine Tool boring-mill work center of 3060VMC; requirement to lathe in this technology is: the long 1000mm of table top; the wide 600mm of table top; Z axle destage face is not less than 600mm and differs and be decided to be Z axle stroke; the tool magazine capacity is not less than 24; system configuration can be controlled 〉=4, and can get involved the control of hydraulic system.What cutter adopted is the standard cutter of high rigidity, and the configuration tool setting gauge is used for, and the boring-mill work center is long to the cutter of cutter, the mensuration of point of a knife tactical diameter.

Compare traditional processing method, compound milling machine, surface grinding machine, plain-milling machine have been eliminated, still can be used for roughing as for engine lathe, in order to enhance productivity, numerically controlled lathe preferably transform the hydraulic pressure four paws as or two jaw self-centering chucks (are recommended as Φ 300-Φ 350, be the V-type claw type when using two pawls), claw adopts soft pawl, also can use the numerically controlled lathe of band hydraulic system.

The programmer at boring-mill work center understands four preferably settings of five-axle linkage and origin, workpiece coordinate; The machining center operative employee can skillfully operate vertical machining centre and understand the actual use of frock clamp.Programming in the practical application to note following some:

A. when using BLM-GZ-TYX01-00 to bore to mill two end anchor clamps that mould product is carried out the first road Milling Process:

The setting of origin system: X, Y, Z axle initial point can be set at the centre of gyration line of anchor clamps and the intersection point of anchor clamps symmetrical center line; With dial gauge school anchor clamps datum plate Y direction, then A axle initial point is made as 0 ° when smoothing;

Workpiece coordinate system is set: G54, G55 are set in the die face of the big outer nose circle of workpiece die blank respectively, and G56, G57 are set in the die face of the little outer nose circle of workpiece die blank respectively;

It is long that programming and operation the time need be set cutter, and the length compensation and the radius compensation of attention cutter, particularly for compensating X, Y, Z value on cylindrical and perpendicular to the hole of centre of gyration line.

B. when using BLM-GZ-TYX02-00D (single head dividing head) or four sides, BLM-GZ-TYX02-00S (double end dividing head) two top rotary jig that mould product is carried out comprehensive process:

The setting of origin system: the X initial point is an anchor clamps location-plate left surface, and Y initial point, Z initial point are separated time in the symmetry of anchor clamps centre of gyration line or two anchor clamps centre of gyration lines; After installing location-plate, the last plane of calibration location-plate, and as 0 ° of origin of coordinates of A axle;

Because of anchor clamps centre of gyration line and work centre line are two straight lines that are parallel to each other or overlap, thus workpiece coordinate system G54-G59 must be established, X, the desirable same point of Y initial point, but the Z initial point is inequality, should note during programming;

It is long to set cutter when programming and operation, and notes the length compensation and the radius compensation of cutter.

The ball-type rubbing head can be installed in boring-mill work in the heart carry out rough polishing, to alleviate buffer's labour intensity by rotating at a high speed.

Below the BLM-GZ-TYX01-00 brill being milled two end anchor clamps describes.

This sleeve clamp is used for becoming roughcast milling biend, cover boring or circular interpolation milling cylindrical in the vertical boring-mill work, bores and mill hinge two end locating holes, each hole of some Kong Erduan.

As Figure 13～shown in Figure 180, for clamping workpiece on Digit Control Machine Tool, designed this sleeve clamp, comprised with lower member: datum plate 91, pressing plate guide pad 92, pressing plate guide pad cover plate 93, pressing plate 94, right gusset piece 95, right gusset piece alignment pin 96, Left-wing Federation's fishplate bar 97, gyroaxis 98, bearing block 99, angle orientation pin 100, bearing block cover plate 101, base plate 102, dividing head bed hedgehopping piece 103, arm-tie 104, pull bar 105,2-M8T type nut 106, planar top stroma 107, limited block A 108, spacing block 109, limited block cross bar 110, pressing plate refill-unit 111, positioning key 112, positioning key 113.Die blank 132 is clipped on the lathe, four supportings 130 are arranged under every die blank, one of them supporting needs to adjust in good time, produces anchor clamps centre of gyration line 131.

BLM-GZ-TYX01-00 bores the using method of milling two end anchor clamps:

1. the assembling of anchor clamps:

At first by Figure 13～each part of combination shown in Figure 180 and assemble, adjust anchor clamps, required accessory when T type groove uses for anchor clamps with nut (M16) 114 needn't be loaded onto anchor clamps when anchor clamps assemble.

2. the installation of anchor clamps, step is as follows:

2.1 four T type grooves nut (M16) 114 is put in the appropriate location in the corresponding T type groove of lathe earlier, anchor clamps are winched on the lathe table top, with four hexagon socket cap head screw 115 (GB/T70.1-2000, M16 * 50) put into anchor clamps installing hole and screw in T type groove with the screw of nut 114, needn't be fastening;

2.2 a long limit and fastening hexagon socket cap head screw 115 with dial gauge alignment anchor clamps datum plate 91;

2.3 responding to slim hydraulic cylinder 116 (GB/T15622-1995, MCX-SD40 * 20) and magnet ring at magnet ring responds to and connects hydraulic oil pipe (inserting the hole on the hydraulic cylinder is PT1/4) on the slim hydraulic cylinder 117 (GB/T15622-1995, MCX-SD40 * 10) respectively;

2.4 responding to slim hydraulic cylinder 116 (GB/T15622-1995, MCX-SD40 * 20) and magnet ring at magnet ring responds to and connects data wire respectively on the slim hydraulic cylinder 117 (GB/T15622-1995, MCX-SD40 * 10) and be connected with machine tool system;

2.5 connecting data-interface on FK15150B NC dividing head 118 is connected with machine tool system;

2.6 whether open each action of lathe and gauging fixture normal.

3. the application of anchor clamps:

3.1 when processing casual labourer part, must unload rear fender, be replaced into pressing plate refill-unit 111, and adjust by hexagon socket cap head screw (M8 * 35) 119 and to make arm-tie 104 stressed uniform balances, stable action;

3.2 when changing specification of workpieces:

Make piece-holder firmly and suitable activity space arranged 3.2.1 must adjust hex nut-C level (M16) 120;

3.2.2 must adjust planar top stroma 107 contact is gone up in position;

3.2.3 hexagonal flush end holding screw (M5 * 5) 121 in adjusting adjusts earlier at 3 also with interior hexagonal flush end holding screw (M5 * 5) 122 lockings, 1 is movable adjusting (each workpiece all need be adjusted) in addition;

3.2.4 adjust spacing block 109 (limited block A 108) and, make workpiece stretch out on correct position with hexagon socket cap head screw (M6 * 30) 125 lockings by hexagon socket cap head screw (M8 * 20) 123, hexagon socket cap head screw (M6 * 30) 124; Limited block A 108 uses during for the big workpiece of processing, and can directly regulate hexagon socket cap head screw (M8 * 20) 123, hexagon socket cap head screw (M8 * 25) 126 this moment.

3.3 the clamping of workpiece:

Unclamp hexagon socket cap head screw (M8 * 25) 126 make turn over and swing on the limited block cross bar 110 outside, insert workpiece 94 times at pressing plate, turn down limited block cross bar 110 and fastening hexagon socket cap head screw 126, an expansion bearing in the hexagonal flush end holding screw 121 is stepped on foot-operated some brake control valve and is fastened workpiece in adjusting.

3.4 the points for attention in the anchor clamps work:

3.4.1 precision is higher in order to make when carrying out 45 * n degree calibration, the cutting rigidity is better responded to slim hydraulic cylinder 117 controls with magnet ring, must unclamp earlier before carrying out calibration, otherwise can cause the serious consequence of damaging NC dividing head;

3.4.2 when carrying out non-45 * n degree calibration, must make magnet ring respond to slim hydraulic cylinder 117 and be in releasing orientation, and can not eject;

3.4.3 as lathe is closed-loop system, should get involved magnet ring and respond to the information control of slim hydraulic cylinder and enroll in the program; Make the frock operation safer like this.

Below four sides, BLM-GZ-TYX02-00S (double end dividing head) two top rotary jig is described.

This sleeve clamp is used for vertical boring-mill work and becomes all around thick fine finishining (comprise special-shaped inner chamber processing) of blank mould except that biend in the heart, but can not process and the uneven hole of end face.

As Figure 19～shown in Figure 24, for clamping workpiece on Digit Control Machine Tool, designed this sleeve clamp, comprised with lower member: base plate 67, bearing block 60, bearing block cover plate 68, sliding axle 73, steel bushing 79, top 72, left side locating pin 71, brake block 81, hydraulic cylinder piston knock-off joint 74, location-plate 4, right locating pin 51, right corner degree locating pin 52, location compound plate 6, compound plate locator 54, dividing head bed hedgehopping piece 69, screw rodb base 76, screw mandrel 65, screw 77, transformation of the way soket head cap screw 80, T type groove nut (M8) 62, T type groove nut (M16) 55, positioning key 78, positioning key 70.

The using method of four sides, BLM-GZ-TYX02-00S (double end dividing head) two top rotary jig:

1. the assembling of anchor clamps:

At first by Figure 19～each part of combination shown in Figure 24 and assemble, adjust anchor clamps, T type groove needn't be loaded onto anchor clamps with nut (M16) 55, location-plate 4, right locating pin 51, right corner degree locating pin 52, location compound plate 6, required accessory when compound plate locator 54 uses for anchor clamps when anchor clamps assemble.

2. the installation of anchor clamps, step is as follows:

2.1 four T type grooves nut 55 is put in the appropriate location in the corresponding T type groove of lathe earlier, anchor clamps are winched on the lathe table top, four hexagon socket cap head screws 56 (GB/T70.1-2000, M16 * 55) are put into the anchor clamps installing hole and screw in the screw of T type groove with nut 55, needn't be fastening;

2.2 a long limit and fastening hexagon socket cap head screw 56 (GB/T70.1-2000, M16 * 55) with dial gauge alignment anchor clamps base plate 67;

2.3 responding to slim hydraulic cylinder 57 (GB/T15622-1995, MCX-SD32 * 5) and magnet ring at magnet ring responds to and connects hydraulic oil pipe (inserting the hole on the hydraulic cylinder is PT1/4) on the slim hydraulic cylinder 58 (GB/T15622-1995, MCX-SD40 * 20) respectively;

2.4 responding to slim hydraulic cylinder 57 (GB/T15622-1995, MCX-SD32 * 5) and magnet ring at magnet ring responds to and connects data wire respectively on the slim hydraulic cylinder 58 (GB/T15622-1995, MCX-SD40 * 20) and be connected with machine tool system;

2.5 connecting data-interface on FK15140X2 double end NC dividing head 82 is connected with machine tool system;

2.6 whether open each action of lathe and gauging fixture normal.

3. the application of anchor clamps:

3.1 selecting for use of location-plate and location compound plate;

3.1.1 as embodiment one, the cold hole of hanging down is arranged on the vertical center line of end face 10 greatly, then needs to select for use the location-plate 4 that adapts and on location-plate 4, pack into right locating pin 51 and right corner degree locating pin 52;

3.1.2 as embodiment two, vertical cold hole on the vertical center line of big end end face 10, then select the location-plate 4 that adapts for use except needs and on location-plate 4, pack into right locating pin 51 and right corner degree locating pin 52, also need to select for use the location compound plate 6 that adapts and on the compound plate 6 of location, pack location compound plate 54 into;

If hang down cold hole or do not have the cold hole of hanging down 3.1.3 can't use, then need interim design, make location-plate and location compound plate, and with reference to the way described in the 3.1.2.

3.2 the prepackage of workpiece and the adjustment of anchor clamps:

3.2.1 selected positioning plate assembly is fixed on dividing head 82 work tops with nut (M8) 62 and hexagon socket cap head screw 63 (GB/T70.1-2000, M8 * 25) with T type groove, and calibrates the center of circle with dial gauge; The last plane of calibration location-plate 4, and as 0 ° of origin of coordinates of A axle;

3.2.2 then load onto location compound plate assembly at the small end of workpiece as situation as described in 3.1.2 and the 3.1.3;

3.2.3 the corresponding fabrication hole of the big end of workpiece is inserted in right locating pin 51 and right corner degree locating pin 52 on the calibration head end location-plate, the corresponding fabrication hole of workpiece small end or the internal point on the compound plate of location is inserted in left locating pin 71;

3.2.4 to the adjustment of bearing block on directions X:

3.2.4.1 if need the interlock of A axle, then after loading onto workpiece, make magnet ring respond to slim hydraulic cylinder 58 earlier and be in the state of holding out against, pretension hexagon socket cap head screw 64 (GB/T70.1-2000, M16 * 70), and, lock hexagon socket cap head screw 64 then and get final product by screw mandrel 65 impeller-hub bearings 60 light backform tool blanks;

3.2.4.2 if do not need the interlock of A axle, then on the basis of 3.2.4.1, return magnet ring and respond to slim hydraulic cylinder 58, bearing block 60 advances 1 to 2mm to get final product again;

3.3 the points for attention in the anchor clamps work:

3.3.1 note when responding to slim hydraulic cylinder 57 (GB/T15622-1995, MCX-SD32 * 5) use for magnet ring:

3.3.1.1 when interlock of A axle or calibration, must unclamp magnet ring and respond to slim hydraulic cylinder 57, otherwise can cause the serious consequence of damaging NC dividing head or anchor clamps, and A axle when interlock can only use as light cut or fine finishining, can not carry out (as roughing, high-rate cutting) states such as big cutting output, the big cutting moment of torque and big cutting force and use down;

3.3.1.2 when the A axle does not need to link, should respond to slim hydraulic cylinder 57 with magnet ring brakes as far as possible, to alleviate the burden of NC dividing head, when NC dividing head (being the A axle) when carrying out calibration, must make magnet ring respond to slim hydraulic cylinder 57 and respond to slim hydraulic cylinder 58 with magnet ring and be in releasing orientation, otherwise can cause the serious consequence of damaging NC dividing head or anchor clamps.

3.3.2 the points for attention when programming and operation:

3.3.2.1 origin is set: the X initial point is an anchor clamps location-plate left surface, and Y initial point, Z initial point are anchor clamps centre of gyration line;

3.3.2.2 because of anchor clamps centre of gyration line is two straight lines of (or coincidence) that are parallel to each other with work centre line, thus workpiece coordinate system (G54-G59) established, X, the desirable same point of Y initial point, but the Z initial point is inequality, should note during programming;

3.3.2.3 it is long to set cutter when programming and operation, and notes the length compensation and the radius compensation of cutter;

3.3.2.4 two kinds of magnet rings are responded to slim hydraulic cylinder and passed through solenoid control by machine tool system, so when programming, should together enroll program; As lathe is closed-loop system, should get involved magnet ring and respond to the information control of slim hydraulic cylinder and enroll in the program; Make the frock operation safer like this.

3.4 the dismounting of workpiece:

Should make magnet ring respond to slim hydraulic cylinder 58 during the workpiece installation and be in the state of returning, this moment, workpiece still can not directly be loaded onto anchor clamps, at this moment needed press the described step of 3.2.3 again and install with hand propelled top 72; Should make magnet ring respond to slim hydraulic cylinder 58 during dismounting and be in the state of returning, promote top 72 again and can pull up workpiece.

The using method of BLM-GZ-TYX02-00D two top four sides rotary jigs (single head dividing head) is with reference to the using method of BLM-GZ-TYX02-00S two top four sides rotary jigs (double end dividing head).

Claims

1, a kind of processing method of container glass mold comprises A casting die blank; It is characterized in that, further comprising the steps of:

Each face of C processing mold blank.

2, the processing method of a kind of container glass mold according to claim 1 is characterized in that, Vehicle Processing center of circle benchmark produces by circular interpolation milling or the big end cylindrical of cover boring template tool blank.

3, the processing method of a kind of container glass mold according to claim 2, it is characterized in that, described datum plane produces by the big end end face of milling die blank (10), go up generation two fabrication holes (31), (32) at big end end face (10), fabrication hole (31) is positioned on the vertical center line of big end end face (10), angle 〉=45 of fabrication hole (32) and described big end end face vertical center line ° and≤75 °, go up a generation fabrication hole (33) at die blank small end end face (11), the center of circle of the center of circle of fabrication hole (33) and fabrication hole (31) is coaxial.

4, the processing method of a kind of container glass mold according to claim 3 is characterized in that, fabrication hole (31) equates with the distance of fabrication hole (32) to big end end face (10) center of circle.

5, the processing method of a kind of container glass mold according to claim 2, it is characterized in that, described datum plane produces by the big end end face of milling die blank (10), go up generation two fabrication holes (34) at big end end face (10), (35), fabrication hole (34), (35) with angle 〉=45 of described big end end face vertical center line ° and≤75 °, go up generation two fabrication holes (36) at die blank small end end face (11), (37), the center of circle of fabrication hole (36) is coaxial with the center of circle of fabrication hole (34), and the center of circle of fabrication hole (37) is coaxial with the center of circle of fabrication hole (35).

6, the processing method of a kind of container glass mold according to claim 5 is characterized in that, fabrication hole (34) equates with the distance of fabrication hole (35) to big end end face (10) center of circle.

7, according to the processing method of the described a kind of container glass mold of the arbitrary claim of claim 1 to 6, it is characterized in that, step C comprises: Vehicle Processing die blank inside and outside circle, inner chamber and end face, boring and milling bore revolution processing mold blank inside and outside circle, inner chamber and end face.