CN106735310B - Timepiece movement stops second column processing method - Google Patents

Abstract

The invention discloses a kind of timepiece movements to stop second column processing method, is related to the parts machining field of wrist-watch.It includes the whole second column ontology in integral structure, the second column ontology includes first second column and second second column, first second column lower end and excess axle is connected between column upper end in second second, first second column includes that sequentially connected first rotary table, the first cylinder, the second cylinder and the second rotary table, second second column include sequentially connected third rotary table, third cylinder, the 4th cylinder and the 4th rotary table from top to bottom from top to bottom.Machine core of the invention stops the dimensional parameters setting of second column rationally, can more accurately be mounted on stem-winder, meanwhile, the product qualification rate for stopping second column using the machine core that method of the present invention processes is higher, can reach 90%, it is therefore necessary to improve.

Description

Timepiece movement stops second column processing method

Technical field

The present invention relates to the parts machining field of wrist-watch, specifically a kind of timepiece movement stops second column processing method.

Background technique

In the prior art, the machine core being assembled on wrist-watch stops the dimensional parameters of second column there are unreasonable place, and machine core Only second column is easily loosened after being used for a long time, meanwhile, the machine core that the prior art processes stops second column, is often easy There is the undesirable situation of machining accuracy, it is therefore necessary to improve.

Summary of the invention

The purpose of the invention is to overcome the shortcoming of background technique, and a kind of timepiece movement is provided and stops the processing of second column Method.

To achieve the goals above, the technical solution of the present invention is as follows: timepiece movement stops second column processing method, feature exists In: including the whole second column ontology in integral structure, the second column ontology includes first second column and second second column, first second column Lower end and excess axle is connected within second second between column upper end, first second column includes sequentially connected first circle from top to bottom Platform, the first cylinder, the second cylinder and the second rotary table, second second column include sequentially connected third rotary table, third column from top to bottom Body, the 4th cylinder and the 4th rotary table；The diameter of the upper top surface of first rotary table and third rotary table is 0.4mm, the first rotary table Diameter with the bottom surface of third rotary table is 0.5mm, and the height of the first rotary table and third rotary table is 0.05mm；Second circle The diameter of the upper top surface of platform and the 4th rotary table is 0.6mm, and the diameter of the bottom surface of the second rotary table and the 4th rotary table is 0.4mm, a height of 0.2mm of the second rotary table and the 4th rotary table；The diameter of first cylinder and third cylinder is 0.5mm, high It is 0.55m, the diameter of the second cylinder and the 4th cylinder is 0.6mm, Gao Junwei 1.6mm, and the diameter of the excess axle is 0.4mm, a height of 0.1-0.4mm；Wherein, the processing method of second column ontology includes the following steps: step 1: the 4th lathe tool rewind, First lathe tool proceeds to idle running state fastly；Step 2: second column ontology is sent to the knife-edge part of the first lathe tool, machine tool chief axis drives second column Ontology is mobile from second column ontology lower end to second column ontology upper end, and the first lathe tool carries out turning to second column ontology and processes the at this time One cylinder, the first lathe tool dormant state after processing the first cylinder；Step 3: third lathe tool F.F. and on the first cylinder End carries out turning, processes the first rotary table；Step 4: the first lathe tool rewind simultaneously stops at a second correspondence of column body diameter 0.6mm Place, machine tool chief axis drive second column ontology mobile from second column ontology lower end to second column ontology upper end, and the first lathe tool is to second column sheet at this time Body carries out turning and processes the second cylinder, the first lathe tool dormant state after processing the second cylinder；Step 5: the first vehicle Knife F.F. simultaneously carries out turning to second column ontology, processes the second rotary table；Step 6: the 4th lathe tool proceeds to idle running state fastly, and the 4th Lathe tool slow-motion simultaneously cuts off first second column from second column ontology；Step 7: the 4th lathe tool rewind, the second lathe tool proceed to idle running shape fastly State；Step 8: second column ontology is sent to the knife-edge part of the second lathe tool, machine tool chief axis drive second column ontology from the second column ontology lower end to Second column ontology upper end is mobile, and the second lathe tool carries out turning to second column ontology and processes third cylinder at this time, and the second lathe tool is adding Work goes out dormant state after third cylinder；Step 9: the 5th lathe tool F.F. simultaneously carries out turning to third cylinder upper end, processes the Three rotary tables；Step 10: the second lathe tool rewind simultaneously stops at a second corresponding position of column body diameter 0.6mm, and machine tool chief axis drives second column Ontology is mobile from second column ontology lower end to second column ontology upper end, and the second lathe tool carries out turning to second column ontology and processes the at this time Four cylinders, the second lathe tool dormant state after processing the 4th cylinder；Step 11: the second lathe tool F.F. and to the 4th cylinder Turning is carried out, the 4th rotary table is processed；Step 12: the 4th lathe tool proceeds to idle running state fastly, and column completes the process within second second at this time.

Machine core of the invention stops the dimensional parameters setting of second column rationally, can more accurately be mounted on stem-winder, meanwhile, The product qualification rate for stopping second column using the machine core that method of the present invention processes is higher, can reach 90%, therefore have Necessity improves.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of second column ontology.

1- seconds column ontologies in figure, first second column of 2-, the first rotary table of 21-, the first cylinder of 22-, the second cylinder of 23-, 24- second Rotary table, second second column of 3-, 31- third rotary table, 32- third cylinder, the 4th cylinder of 33-, the 4th rotary table of 34-, 4- excess axle, 51- First lathe tool, the second lathe tool of 52-, 53- third lathe tool, the 4th lathe tool of 54-, the 5th lathe tool of 55-.

Specific embodiment

The performance that the invention will now be described in detail with reference to the accompanying drawings, but they and do not constitute a limitation of the invention, only It is for example.Keep advantages of the present invention more clear by explanation simultaneously and is readily appreciated that.

Refering to known to attached drawing: timepiece movement stops second column processing method, it is characterised in that: including entirety in integral structure Second column ontology 1, the second column ontology 1 includes first second column 2 and second second column 3, first second 2 lower end of column and second second 3 upper end of column Between be connected with excess axle 4, first second column 2 includes sequentially connected first rotary table 21, the first cylinder 22, the from top to bottom Two cylinders 23 and the second rotary table 24, second second column 3 include sequentially connected third rotary table 31, third cylinder 32, the from top to bottom Four cylinders 33 and the 4th rotary table 34；The diameter of the upper top surface of first rotary table 21 and third rotary table 31 is 0.4mm, the first circle The diameter of the bottom surface of platform 21 and third rotary table 31 is 0.5mm, and the height of the first rotary table 21 and third rotary table 31 is 0.05mm； The diameter of the upper top surface of second rotary table 24 and the 4th rotary table 34 is 0.6mm, under the second rotary table 24 and the 4th rotary table 34 The diameter of bottom surface is 0.4mm, a height of 0.2mm of the second rotary table 24 and the 4th rotary table 34；First cylinder 22 and third column The diameter of body 32 is 0.5mm, Gao Junwei 0.55m, and the diameter of the second cylinder 23 and the 4th cylinder 33 is 0.6mm, Gao Junwei 1.6mm, the diameter of the excess axle 4 are 0.4mm, a height of 0.1-0.4mm；Wherein, the processing method of second column ontology 1 includes as follows Step: step 1: 54 rewind of the 4th lathe tool, the first lathe tool 51 proceed to idle running state fastly；Step 2: second column ontology 1 is sent to The knife-edge part of one lathe tool 51, machine tool chief axis drive second column ontology 1 mobile from 1 lower end of second column ontology to 1 upper end of second column ontology, at this time First 51 pairs of lathe tool second column ontology 1 carries out turning and processes the first cylinder 22, and the first lathe tool 51 is processing the first cylinder 22 After dormant state；Step 3: 53 F.F. of third lathe tool simultaneously carries out turning to 22 upper end of the first cylinder, processes the first rotary table 21；Step 4: 51 rewind of the first lathe tool and the corresponding position for stopping at 1 outer diameter 0.6mm of second column ontology, machine tool chief axis drive second column sheet Body 1 is mobile from 1 lower end of second column ontology to 1 upper end of second column ontology, and 51 pairs of second column ontologies 1 of the first lathe tool carry out turning and process at this time Second cylinder 23 out, the first lathe tool 51 dormant state after processing the second cylinder 23；Step 5: 51 F.F. of the first lathe tool is simultaneously Turning is carried out to second column ontology 1, processes the second rotary table 24；Step 6: the 4th lathe tool 54 proceeds to idle running state, the 4th lathe tool fastly 54 slow-motions simultaneously cut off first second column 2 from second column ontology 1；Step 7: 54 rewind of the 4th lathe tool, the second lathe tool 52 proceed to sky fastly Journey state；Step 8: second column ontology 1 is sent to the knife-edge part of the second lathe tool 52, machine tool chief axis drives second column ontology 1 from second column sheet 1 lower end of body is mobile to 1 upper end of second column ontology, and 52 pairs of second column ontologies 1 of the second lathe tool carry out turning and process third cylinder at this time 32, the second lathe tool 52 dormant state after processing third cylinder 32；Step 9: 55 F.F. of the 5th lathe tool and to third cylinder 32 upper ends carry out turning, process third rotary table 31；Step 10: 52 rewind of the second lathe tool simultaneously stops at second 1 outer diameter of column ontology The corresponding position of 0.6mm, machine tool chief axis drive second column ontology 1 mobile from 1 lower end of second column ontology to 1 upper end of second column ontology, and at this time the Two 52 pairs of lathe tool second column ontologies 1 carry out turning and process the 4th cylinder 33, and the second lathe tool 52 is after processing the 4th cylinder 33 Locate dormant state；Step 11: 52 F.F. of the second lathe tool simultaneously carries out turning to the 4th cylinder 33, processes the 4th rotary table 34；Step Rapid 12: the four lathe tool 54 proceeds to idle running state fastly, and column 3 completes the process within second second at this time.

Other unaccounted parts belong to the prior art.

Claims (1)

1. timepiece movement stops second column processing method, it is characterised in that: including the whole second column ontology (1) in integral structure, institute Stating second column ontology (1) includes first second column (2) and second second column (3), first second column (2) lower end and second second column (3) upper end it Between be connected with excess axle (4), first second column (2) includes sequentially connected first rotary table (21), the first cylinder from top to bottom (22), the second cylinder (23) and the second rotary table (24), second second column (3) include sequentially connected third rotary table from top to bottom (31), third cylinder (32), the 4th cylinder (33) and the 4th rotary table (34)；

The diameter of the upper top surface of first rotary table (21) and third rotary table (31) is 0.4mm, the first rotary table (21) and third The diameter of the bottom surface of rotary table (31) is 0.5mm, and the height of the first rotary table (21) and third rotary table (31) is 0.05mm；

The diameter of the upper top surface of second rotary table (24) and the 4th rotary table (34) is 0.6mm, the second rotary table (24) and the 4th The diameter of the bottom surface of rotary table (34) is 0.4mm, a height of 0.2mm of the second rotary table (24) and the 4th rotary table (34)；

The diameter of first cylinder (22) and third cylinder (32) is 0.5mm, Gao Junwei 0.55m, the second cylinder (23) and The diameter of 4th cylinder (33) is 0.6mm, Gao Junwei 1.6mm, and the diameter of the excess axle (4) is 0.4mm, a height of 0.1- 0.4mm；

Wherein, the processing method of second column ontology (1) includes the following steps:

Step 1: the 4th lathe tool (54) rewind, the first lathe tool (51) proceed to idle running state fastly；

Step 2: second column ontology (1) is sent to the knife-edge part of the first lathe tool (51), machine tool chief axis drives second column ontology (1) from the second Column ontology (1) lower end is mobile to second column ontology (1) upper end, and the first lathe tool (51) carries out turning to second column ontology (1) and adds at this time Work goes out the first cylinder (22), and the first lathe tool (51) locates dormant state processing the first cylinder (22) afterwards；

Step 3: (53) F.F. of third lathe tool simultaneously carries out turning to the first cylinder (22) upper end, processes the first rotary table (21)；

Step 4: (51) rewind of the first lathe tool simultaneously stops at a second corresponding position of column ontology (1) outer diameter 0.6mm, and machine tool chief axis drives Second column ontology (1) is mobile from second column ontology (1) lower end to second column ontology (1) upper end, and the first lathe tool (51) is to second column ontology at this time (1) it carries out turning and processing the second cylinder (23), the first lathe tool (51) locates dormant state processing the second cylinder (23) afterwards；

Step 5: (51) F.F. of the first lathe tool simultaneously carries out turning to second column ontology (1), processes the second rotary table (24)；

Step 6: the 4th lathe tool (54) proceeds to idle running state fastly, the 4th lathe tool (54) slow-motion and by first second column (2) from second column sheet Body is cut off on (1)；

Step 7: the 4th lathe tool (54) rewind, the second lathe tool (52) proceed to idle running state fastly；

Step 8: second column ontology (1) is sent to the knife-edge part of the second lathe tool (52), machine tool chief axis drives second column ontology (1) from the second Column ontology (1) lower end is mobile to second column ontology (1) upper end, and the second lathe tool (52) carries out turning to second column ontology (1) and adds at this time Work goes out third cylinder (32), and the second lathe tool (52) locates dormant state processing third cylinder (32) afterwards；

Step 9: the 5th lathe tool (55) F.F. simultaneously carries out turning to third cylinder (32) upper end, processes third rotary table (31)；

Step 10: (52) rewind of the second lathe tool simultaneously stops at a second corresponding position of column ontology (1) outer diameter 0.6mm, and machine tool chief axis drives Second column ontology (1) is mobile from second column ontology (1) lower end to second column ontology (1) upper end, and the second lathe tool (52) is to second column ontology at this time (1) it carries out turning and processes the 4th cylinder (33), the second lathe tool (52) locates dormant state processing the 4th cylinder (33) afterwards；

Step 11: (52) F.F. of the second lathe tool simultaneously carries out turning to the 4th cylinder (33), processes the 4th rotary table (34)；

Step 12: the 4th lathe tool (54) proceeds to idle running state fastly, second second at this time column (3) complete the process.