CN102310238A - Slow wire cutting round-corner machining process - Google Patents

Abstract

The invention discloses a slow wire cutting round-corner machining process. The process is characterized in that a workpiece is fixed on a slow wire cutting workbench of a machine tool; when a smaller angle R of an inner round corner of the workpiece is machined, a worker cuts the round corner according to an actual track before an electrode wire enters an R command, wherein, the machining parameter is unchanged; when the electrode wire just enters the R command, the tracking and the pulse for the machine tool are synchronized by reducing the pulse and the speed; and even though normal machining parameters for machining conditions are recovered, cutting operation is carried out according to the actual track after the small round corner is completely machined so as to finish a whole process. By adopting the slow wire cutting round-corner machining process disclosed by the invention, the machined round corner R1 is more approximate to a theoretical angle R so as to achieve more smooth matching effect; the round corner machined by a slow wire cutting mode is more circular, and the similar approach degree between the actual round corner and the theoretical angle is increased by 50%; and the machining efficiency and the machining speed are improved.

Description

Slow silk fillet processing technology

Technical field

What the present invention relates to is a kind of processing technology, and what be specifically related to is a kind of slow silk fillet processing technology.

Background technology

In slow silk manufacture field, during the smaller R angle of processing work filleted corner, the staff cuts according to actual path usually; Machined parameters is to be same machined parameters; It is just bigger than normal according to the R angle of reality to process the back like this, and the fillet that slow silk processes is not very round, is difficult to practical requirement; Its cooperation is had some setbacks, influence working (machining) efficiency and process velocity.

Summary of the invention

To the deficiency that exists on the prior art, the present invention seeks to be to provide that a kind of to make slow silk process fillet round, the slow silk fillet processing technology that working (machining) efficiency is high makes actual fillet and theoretical fillet near 50%.

To achieve these goals, the present invention realizes through following technical scheme:

Slow silk fillet processing technology; It is characterized in that; Its technology is: when the smaller R angle of this filleted corner of processing, when electrode wires has just got into the R instruction, reduce pulse, slowly lathe followed the tracks of and impulsive synchronization; After covering the roundlet angle, cut according to actual path again, accomplish whole technology then.

The present invention is through above-mentioned technology, and fillet R1 and theoretical R angle after the processing are more approaching, make cooperation more smooth and easy, and it is round to make slow silk process fillet, and actual fillet and theoretical fillet have improved working (machining) efficiency and process velocity near 50%.

The specific embodiment

For technological means, creation characteristic that the present invention is realized, reach purpose and effect and be easy to understand and understand, below in conjunction with the specific embodiment, further set forth the present invention.

Present embodiment provides a kind of slow silk fillet processing technology; Its process is: when the smaller R angle of processing work filleted corner; When electrode wires has just got into the R instruction; Reduce pulse, slowly lathe followed the tracks of and impulsive synchronization, cut processing conditions according to actual path again behind the roundlet angle and recover normal, accomplish whole technology then even wait to cover.

The concrete operations implementation and operation is: workpiece is placed on the slow silk processing workbench of lathe fixing; When the smaller R angle of filleted corner of this workpiece of processing; Before electrode wires got into the R instruction, the staff cut according to actual path, and machined parameters is to be same machined parameters;

When electrode wires has just got into R when instruction, reduce pulse, slowly lathe followed the tracks of and impulsive synchronization, cut processing conditions according to actual path again behind the roundlet angle and recover normal machined parameters even wait to cover, accomplish whole technology then.

Other part operation of present embodiment is the operation of those skilled in the art's routine techniques, does not give unnecessary details at present.

The present invention is through above-mentioned technology, and fillet R1 and theoretical R angle after the processing are more approaching, make cooperation more smooth and easy, and it is round to make slow silk process fillet, and actual fillet and theoretical fillet have improved working (machining) efficiency and process velocity near 50%.

More than show and described basic principle of the present invention and principal character and advantage of the present invention.The technical staff of the industry should understand; The present invention is not restricted to the described embodiments; That describes in the foregoing description and the specification just explains principle of the present invention; Under the prerequisite that does not break away from spirit and scope of the invention, the present invention also has various changes and modifications, and these variations and improvement all fall in the scope of the invention that requires protection.The scope of the claimed invention by the appended claims and their equivalents defined

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Claims (1)

1. slow silk fillet processing technology; It is characterized in that; Its technology is: workpiece is placed on the slow silk processing workbench of lathe fixing, when the smaller R angle of the filleted corner of this workpiece of processing, before electrode wires gets into the R instruction; The staff cuts according to actual path, and machined parameters is to be same machined parameters;

When electrode wires has just got into R when instruction, reduce pulse, slowly lathe followed the tracks of and impulsive synchronization, cut processing conditions according to actual path again behind the roundlet angle and recover normal machined parameters even wait to cover, accomplish whole technology then.