CN110286433A - A method of mechanical scratching diffraction grating is carried out using double-pole no-idle running - Google Patents

Abstract

The invention discloses a kind of methods for carrying out mechanical scratching diffraction grating using double-pole no-idle running, it is characterized in that, two icking tools with identical structural parameters are reversed, oblique mistake is installed on same knife rest, and it is respectively provided with individual cutter lifting, roll setting motor function, two icking tool setting angles along same delineation direction are identical (wherein pitch angle is opposite), the elemental height having the same before roll setting, double-pole is with only one icking tool participation delineation when knife rest delineates movement, one icking tool is responsible for positive delineation, it is another that oblique wrong icking tool is responsible for a transverse groove away from the reversed delineation at position, then knife rest unifies two next period positive and negative delineations of slot pitches progress of traverse feed, so that there is no idle stroke to generate in entire scoring process and reducing half traverse feed number, it can be under the premise of guaranteeing original scribing quality, it effectively reduces Time required for mechanical scratching diffraction grating improves the working efficiency of mechanical scratching diffraction grating, reduces production cost.

Description

A method of mechanical scratching diffraction grating is carried out using double-pole no-idle running

Technical field

This patent is related to carrying out grating blank using diamond cutter the technical field of mechanical scratching.

Background technique

Current diffraction grating mechanical scribing method realizes mechanical scratching mainly by the way of the delineation of hilted broadsword sequence Forming, i.e., after completing a cutting, cutter lifting, idle stroke returns to initial position, then one grating slot of icking tool traverse feed away from, Roll setting delineation is carried out again.In this case, idle stroke wastes the overall time of mechanical scratching diffraction grating.And it emerging adopts The method for carrying out mechanical scratching diffraction grating with major and minor double-pole, although repeating delineation by preform improves a scored groove The scribing quality of shape, but equally along with the generation of idle stroke, it is unfavorable for delineating the raising of efficiency.For problem above, this hair It is bright to propose that a kind of icking tools using two with identical structural parameters are positive, oblique mistake is installed on same knife rest, and has respectively There are individual cutter lifting, roll setting motor function, identical (the wherein pitch angle phase of two icking tool setting angles along same delineation direction Instead), the elemental height having the same before roll setting, double-pole with knife rest delineate move when only one icking tool participate in delineation, one Icking tool is responsible for positive delineation, another that oblique wrong icking tool is responsible for a transverse groove away from the reversed delineation at position, then knife rest is united One slot pitch of traverse feed two carries out next period positive and negative delineation, so that not having idle stroke to generate simultaneously in entire scoring process Reduce half traverse feed number, mechanical scratching diffraction light can be effectively reduced under the premise of guaranteeing original scribing quality Time required for grid improves the working efficiency of mechanical scratching diffraction grating, reduces production cost.

Summary of the invention

In view of the above problems, the invention proposes a kind of sides for carrying out mechanical scratching diffraction grating using double-pole no-idle running Method.

The present invention is realized by the following scheme:

A method of mechanical scratching diffraction grating being carried out using double-pole no-idle running, including two there is identical structure to join Several icking tools is positive, oblique mistake is installed on same knife rest, and is respectively provided with individual cutter lifting, roll setting motor function, along same a moment Two icking tool setting angles for drawing direction are identical (wherein pitch angle is opposite), elemental height having the same, double-pole before roll setting As only one icking tool participates in delineation when knife rest, which is delineated, to be moved, one is responsible for positive delineation icking tool, another that tiltedly wrong icking tool is born A transverse groove is blamed away from the reversed delineation at position, then knife rest unifies two slot pitches of traverse feed and carry out next periods just to anti-carve It draws.

Further, the double-pole is located on knife rest, convenient for expression, and two icking tools are denoted as A knife and B knife respectively.The knife Frame has knife rest coordinate system XYZ, and the knife rest is rotatably adjusted, and the workpiece processed has workpiece coordinate system X ' Y ' Z ', described X ' positive direction is the direction of motion of the A knife in workpiece surface, and X ' negative direction is the direction of motion of the B knife in workpiece surface, Y ' positive direction It is A knife and B knife in the traverse feed direction of workpiece surface, the direction Z ' is that A knife and B knife are moved in the roll setting of workpiece surface and cutter lifting Direction；

Further, the knife rest coordinate system XYZ and workpiece coordinate system X ' Y ' Z ' are parallel to each other, and direction is consistent, jointly On the basis of workpiece lower surface, coordinate of the A knife inside X ' Y ' Z ' coordinate system is (X1, Y1, Z1), and B knife is in X ' Y ' Z ' coordinate system The coordinate of the inside is (X2, Y2, Z2), and a kind of spatial position that horizontal and vertical direction is all staggered pass is formed between A knife and B knife System, to carry out accurate delineation forming to the workpiece surface (workpiece coordinate system X ' Y ' Z ')；

Further, this method comprises the following steps:

Before S1, delineation, the horizontal position relationship between A knife and B knife is adjusted by knife rest first, i.e., is made by adjusting knife rest The distance of A knife and B knife point of a knife point in traverse feed direction is equal to grating slot away from d, i.e., (Y2-Y1=d), and makes A knife in B graduating with cutter Draw the front in direction, the rear in traverse feed direction.A knife and B knife are along the delineation direction X ' at a distance of (X2-X1 < 0, X1-X2=L), edge Y ' traverse feed direction (Y2-Y1=d)；

S2, setting angle and quarter of the blade relative to delineation direction are determined according to grating flute profile index and material mechanical performance Depth, and the setting angle by the precise rotation function point analysis of A knife itself operator blade relative to delineation direction are drawn, then is passed through Setting angle of the precise rotation function point analysis B knife blade of B knife itself relative to delineation direction, wherein the delineation side of A knife and B knife To opposite direction each other, but to ensure the flute profile of A graduating with cutter consistent with the flute profile that B graduating with cutter is drawn (precisely A knife and each comfortable edge of B knife Delineation direction: the identical other setting angles of pitch angle are opposite)；

S3, on the basis of A knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out A knife point of a knife with respect to grating Blank surface is denoted as O0 to knife；

S4, on the basis of A knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out A knife point of a knife with respect to grating The roll setting of blank surface is denoted as O1；

S5, on the basis of A knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out A knife point of a knife with respect to grating The cutter lifting of blank surface is denoted as O1 '；

S6, on the basis of B knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out B knife point of a knife with respect to grating Blank surface to knife O0 '；

S7, on the basis of B knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out B knife point of a knife with respect to grating The roll setting O2 (O2-O0 '=O1-O0) of blank surface；

S8, on the basis of B knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out B knife point of a knife with respect to grating The cutter lifting of blank surface is denoted as O2 '；

S9, A knife roll setting are in the position O1, and cutter lifting is in the position O2 ' to B knife therewith；

S10, A graduating with cutter are drawn, and B knife is not involved in, but A knife and B knife rely on knife rest simultaneously along delineation direction in grating blank On delineated, after the complete slot of A graduating with cutter and in the mobile L distance in delineation direction, A knife cutter lifting to designated position O1 ' at this time, B knife is at this time Roll setting is to designated position O2；

S11, tool rest return stroke delineation movement drive B knife to be delineated, and A knife is not involved in, after B graduating with cutter has been drawn, and along delineation Move L distance again forward in direction；

S12, knife rest drive A knife and B knife along Y ' positive direction simultaneously while two grating slots of traverse feed are away from d；

S13, B knife cutter lifting are to designated position O2 ', A icking tool roll setting to designated position O1 '；

S14, S10~S13 is repeated, until completing the delineation of monolith grating, in this way, A during delineating entire grating The cutting of the knife and cutting of B knife is completely the same and the traverse feed spacing of the per pass line of rabbet joint is grating slot away from (X2-X1)=d, During the round-trip of knife rest, respectively there is an icking tool to participate in delineation, there is no the generation of idle stroke in scoring process.

Further, when the A knife and B knife depend on knife rest respectively and turn about the Z axis, thus it is possible to vary two knives are in traverse feed Grating slot on the Y ' of direction forms the oblique wrong position relationship in horizontal direction away from d, when delineation, on delineation direction X ', and A knife Before B knife, i.e. X1>X2, on the Y ' of traverse feed direction, A knife is behind B knife, i.e. Y1<Y2.

Further, the A knife and B knife respectively have respective freedom of axial movement relative to knife rest coordinate system, from And change every the respective cutting depths of icking tool.

Further, the cutter lifting of the A knife and B knife, roll setting position is adjustable and fixes its position, arrived in A knife cutter lifting When designated position, roll setting roll setting before sets designated position to B icking tool therewith.Vice versa.

Further, the A knife and B knife respectively have respectively free around the revolution of knife handle axis relative to knife rest coordinate system Setting angle when respectively delineation is adjusted in degree.

Further, described during the round-trip of knife rest, notching knife respectively has a participation delineation, scoring process In there is no the generation of idle stroke.

Further, the icking tool is respectively provided with individual cutter lifting, roll setting motor function, i.e. an another icking tool of icking tool cutter lifting Roll setting therewith, vice versa.

The invention has the following advantages:

There is no idle stroke to generate in entire scoring process and reduce half traverse feed number, can guarantee original quarter Under the premise of drawing quality, the time required for mechanical scratching diffraction grating is effectively reduced, improves the work of mechanical scratching diffraction grating Make efficiency, reduces production cost.

Detailed description of the invention

Fig. 1 is that double-pole of embodiment of the present invention no-idle running carries out mechanical scratching positional relationship axonometric drawing；

Fig. 2 is that double-pole of embodiment of the present invention no-idle running carries out (the A icking tool roll setting of mechanical scratching vertical position relation schematic diagram B icking tool cutter lifting).

Fig. 3 is that double-pole of embodiment of the present invention no-idle running carries out mechanical scratching vertical position relation schematic diagram (A icking tool cutter lifting B icking tool roll setting).

Fig. 4 is that double-pole of embodiment of the present invention no-idle running carries out (the A icking tool delineation of mechanical scratching horizontal position relation schematic diagram B icking tool is not involved in).

Fig. 5 is that double-pole of embodiment of the present invention no-idle running carries out (the B icking tool delineation of mechanical scratching horizontal position relation schematic diagram A icking tool is not involved in).

Fig. 6 is that (A, B icking tool are same for double-pole of embodiment of the present invention no-idle running progress mechanical scratching horizontal position relation schematic diagram When 2 grating slots of traverse feed away from d after, A icking tool delineation B icking tool be not involved in).

Specific embodiment

With reference to the accompanying drawing and embodiment the present invention is described in further detail:

A method of mechanical scratching diffraction grating being carried out using double-pole no-idle running, including two there is identical structure to join Several icking tools is positive, oblique mistake is installed on same knife rest, and is respectively provided with individual cutter lifting, roll setting motor function, along same a moment Two icking tool setting angles for drawing direction are identical (wherein pitch angle is opposite), elemental height having the same, double-pole before roll setting As only one icking tool participates in delineation when knife rest, which is delineated, to be moved, one is responsible for positive delineation icking tool, another that tiltedly wrong icking tool is born A transverse groove is blamed away from the reversed delineation at position, then knife rest unifies two slot pitches of traverse feed and carry out next periods just to anti-carve It draws.

The double-pole is located on knife rest, convenient for expression, and two icking tools are denoted as A, B icking tool respectively.The knife rest has knife rest Coordinate system XYZ, the knife rest are rotatably adjusted, and the workpiece processed has workpiece coordinate system X ' Y ' Z ', and the X ' positive direction is A Knife is in the direction of motion of workpiece surface, and X ' negative direction is the direction of motion of the B knife in workpiece surface, and Y ' positive direction is that A knife and B knife exist The traverse feed direction of workpiece surface, the direction Z ' are the roll setting and the cutter lifting direction of motion of A knife and B knife in workpiece surface；

The knife rest coordinate system XYZ and workpiece coordinate system X ' Y ' Z ' are parallel to each other, and direction is consistent, jointly with workpiece following table On the basis of face, coordinate of the A knife inside X ' Y ' Z ' coordinate system is (X1, Y1, Z1), coordinate of the B knife inside X ' Y ' Z ' coordinate system For (X2, Y2, Z2), a kind of spatial relation that horizontal and vertical direction is all staggered is formed between A knife and B knife, thus to work The part surface (workpiece coordinate system X ' Y ' Z ') carries out accurate delineation forming；

This method comprises the following steps:

Before S1, delineation, the horizontal position relationship between A knife and B knife is adjusted by knife rest first, i.e., is made by adjusting knife rest The distance of A knife and B knife point of a knife point in traverse feed direction is equal to grating slot away from d, i.e., (Y2-Y1=d), and makes A knife in B graduating with cutter Draw the front in direction, the rear in traverse feed direction.A knife and B knife are along the delineation direction X ' at a distance of (X2-X1 < 0, X1-X2=L), edge Y ' traverse feed direction (Y2-Y1=d).

S2, setting angle and quarter of the blade relative to delineation direction are determined according to grating flute profile index and material mechanical performance Depth, and the setting angle by the precise rotation function point analysis of A knife itself operator blade relative to delineation direction are drawn, then is passed through Setting angle of the precise rotation function point analysis B knife blade of B knife itself relative to delineation direction, wherein the delineation side of A knife and B knife To opposite direction each other, but to ensure the flute profile of A graduating with cutter consistent with the flute profile that B graduating with cutter is drawn (precisely A knife and each comfortable edge of B knife Delineation direction: the identical other setting angles of pitch angle are opposite)；

S3, on the basis of A knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out A knife point of a knife with respect to grating Blank surface is denoted as O0 to knife；

S4, on the basis of A knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out A knife point of a knife with respect to grating The roll setting of blank surface is denoted as O1；

S5, on the basis of A knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out A knife point of a knife with respect to grating The cutter lifting of blank surface is denoted as O1 '；

S6, on the basis of B knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out B knife point of a knife with respect to grating Blank surface to knife O0 '；

S7, on the basis of B knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out B knife point of a knife with respect to grating The roll setting O2 (O2-O0 '=O1-O0) of blank surface；

S8, on the basis of B knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out B knife point of a knife with respect to grating The cutter lifting of blank surface is denoted as O2 '；

S9, A knife roll setting are in the position O1, and cutter lifting is in the position O2 ' to B knife therewith；

S10, A graduating with cutter are drawn, and B knife is not involved in, but A knife and B knife rely on knife rest simultaneously along delineation direction in grating blank On delineated, after the complete slot of A graduating with cutter and in the mobile L distance in delineation direction, A knife cutter lifting to designated position O1 ' at this time, B knife is at this time Roll setting is to designated position O2；

S11, tool rest return stroke delineation movement drive B knife to be delineated, and A knife is not involved in, after B graduating with cutter has been drawn, and along delineation Move L distance again forward in direction；

S12, knife rest drive A knife and B knife along Y ' positive direction simultaneously while two grating slots of traverse feed are away from d；

S13, B knife cutter lifting are to designated position O2 ', A icking tool roll setting to designated position O1 '；

S14, S10~S13 is repeated, until completing the delineation of monolith grating, in this way, A during delineating entire grating The cutting of the knife and cutting of B knife is completely the same and the traverse feed spacing of the per pass line of rabbet joint is grating slot away from (X2-X1)=d, During the round-trip of knife rest, respectively there is an icking tool to participate in delineation, there is no the generation of idle stroke in scoring process.

Further, when the A knife and B knife depend on knife rest respectively and turn about the Z axis, thus it is possible to vary two knives are in traverse feed Grating slot on the Y ' of direction forms the oblique wrong position relationship in horizontal direction away from d, when delineation, on delineation direction X ', and A knife Before B knife, i.e. X1>X2, on the Y ' of traverse feed direction, A knife is behind B knife, i.e. Y1<Y2.

Further, the A knife and B knife respectively have respective freedom of axial movement relative to knife rest coordinate system, from And change every the respective cutting depths of icking tool.

Further, the cutter lifting of the A knife and B knife, roll setting position is adjustable and fixes its position, arrived in A knife cutter lifting When designated position, roll setting roll setting before sets designated position to B icking tool therewith.Vice versa.

Further, the A knife and B knife respectively have respectively free around the revolution of knife handle axis relative to knife rest coordinate system Setting angle when respectively delineation is adjusted in degree.

Further, described during the round-trip of knife rest, notching knife respectively has a participation delineation, scoring process In there is no the generation of idle stroke.

Further, the icking tool is respectively provided with individual cutter lifting, roll setting motor function, i.e. an another icking tool of icking tool cutter lifting Roll setting therewith, vice versa.

It should be understood that these examples are only illustrative of the invention and is not intended to limit the scope of the invention.In addition, it should be understood that After having read the content of the invention lectured, those skilled in the art can make various modifications or changes to the present invention, these etc. Valence form is also fallen within the scope of the appended claims of the present application.

Claims (8)

1. a kind of method for carrying out mechanical scratching diffraction grating using double-pole no-idle running, it is characterised in that: two with identical The icking tool of structural parameters is positive, oblique mistake is installed on same knife rest, and is respectively provided with individual cutter lifting, roll setting motor function, edge Two icking tool setting angles in same delineation direction are identical (wherein pitch angle is opposite), the initial height having the same before roll setting Degree, for double-pole with only one icking tool participation delineation when knife rest delineates movement, one is responsible for positive delineation icking tool, another tiltedly wrong Icking tool is responsible for a transverse groove away from the reversed delineation at position, and then knife rest unifies two slot pitches progress next periods of traverse feed Positive and negative delineation.

2. a kind of method for carrying out mechanical scratching diffraction grating using double-pole no-idle running, special according to claim 1 Sign is: two oblique wrong positions of icking tool are installed on same knife rest, convenient for expression, and two icking tools are denoted as A knife and B knife respectively. The same knife rest has knife rest coordinate system XYZ, can realize that A knife and B knife are adjusted relative to the setting angle in delineation direction respectively, The grating blank processed has workpiece coordinate system X ' Y ' Z ', and the X ' positive direction is A knife in the delineation direction of workpiece, X ' losing side To being B knife in the delineation direction of workpiece surface, Y ' positive direction is A knife and B knife in the traverse feed direction of workpiece surface, the direction Z ' For A knife and B knife workpiece surface roll setting and the cutter lifting direction of motion；

The knife rest coordinate system XYZ and workpiece coordinate system X ' Y ' Z ' are parallel to each other, and direction is consistent, is with workpiece lower surface jointly Benchmark, coordinate of the A knife inside X ' Y ' Z ' coordinate system are (X1, Y1, Z1), and coordinate of the B knife inside X ' Y ' Z ' coordinate system is (X2, Y2, Z2) forms a kind of spatial relation that horizontal and vertical direction is all staggered between A knife and B knife when delineation, thus Accurate delineation forming is carried out to the workpiece surface (workpiece coordinate system X ' Y ' Z ')；

This method comprises the following steps:

Before S1, delineation, the horizontal position relationship between A knife and B knife is adjusted by knife rest first, i.e., makes A knife by adjusting knife rest Distance with B knife point of a knife point in traverse feed direction is equal to grating slot away from d, i.e., (Y2-Y1=d), and A knife is drawn in B graduating with cutter The front in direction, traverse feed direction rear.A knife and B knife along the delineation direction X ' at a distance of (X2-X1 < 0, X1-X2=L), along Y ' Traverse feed direction (Y2-Y1=d).

S2, determine that blade is deep relative to the setting angle in delineation direction and delineation according to grating flute profile index and material mechanical performance Degree, and blade is operated relative to the setting angle for delineating direction by the precise rotation function point analysis of A knife itself, then pass through B knife Setting angle of the precise rotation function point analysis B knife blade of itself relative to delineation direction, wherein the delineation direction of A knife and B knife Opposite direction each other, but to ensure the flute profile of A graduating with cutter it is consistent with the flute profile that B graduating with cutter is drawn (precisely A knife and each leisure of B knife along Delineate direction: the identical other setting angles of pitch angle are opposite)；

S3, on the basis of A knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out A knife point of a knife with respect to grating blank Surface is denoted as O0 to knife；

S4, on the basis of A knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out A knife point of a knife with respect to grating blank The roll setting on surface is denoted as O1；

S5, on the basis of A knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out A knife point of a knife with respect to grating blank The cutter lifting on surface is denoted as O1 '；

S6, on the basis of B knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out B knife point of a knife with respect to grating blank Surface to knife O0 '；

S7, on the basis of B knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out B knife point of a knife with respect to grating blank The roll setting O2 (O2-O0 '=O1-O0) on surface；

S8, on the basis of B knife point of a knife, adjusted by the accurate displacement of knife rest vertical direction and carry out B knife point of a knife with respect to grating blank The cutter lifting on surface is denoted as O2 '；

S9, A knife roll setting are in the position O1, and cutter lifting is in the position O2 ' to B knife therewith；

S10, A graduating with cutter draw, B knife is not involved in, but A knife and B knife rely on knife rest simultaneously along delineation direction it is enterprising in grating blank Row is delineated, and after the complete slot of A graduating with cutter and is delineating the mobile L distance in direction, at this time A knife cutter lifting to designated position O1 ', the roll setting at this time of B knife To designated position O2；

S11, tool rest return stroke delineation movement drive B knife to be delineated, and A knife is not involved in, after B graduating with cutter has been drawn, and along delineation direction Move L distance again forward；

S12, knife rest drive A knife and B knife along Y ' positive direction simultaneously while two grating slots of traverse feed are away from d；

S13, B knife cutter lifting are to designated position O2 ', A icking tool roll setting to designated position O1 '；

S14, S10~S13 is repeated, until completing the delineation of monolith grating, in this way, A knife during delineating entire grating The cutting and cutting of B knife is completely the same and the traverse feed spacing of the per pass line of rabbet joint is grating slot away from (X2-X1)=d, in knife rest Round-trip during, respectively there is icking tool to participate in delineation, there is no the generation of idle stroke in scoring process.

3. a kind of method for carrying out mechanical scratching diffraction grating using double-pole no-idle running according to claim 2, special Sign is: when A, B icking tool depends on knife rest and turns about the Z axis, can change cutting of two knives on the Y ' of traverse feed direction Spacing d, and form the oblique wrong position relationship in horizontal direction, when delineation, on delineation direction X ', A knife is before B knife, i.e., X1>X2, on the Y ' of traverse feed direction, A knife is behind B knife, i.e. Y1<Y2.

4. a kind of method for carrying out mechanical scratching diffraction grating using double-pole no-idle running according to claim 2, special Sign is: the A knife and B knife respectively have respective freedom of axial movement relative to knife rest coordinate system, to change every The respective cutting depths of icking tool.

5. a kind of method for carrying out mechanical scratching diffraction grating using double-pole no-idle running according to claim 1, special Sign is: the cutter lifting of the A knife and B knife, roll setting position is adjustable and fixes its position, when A knife cutter lifting is to designated position, Roll setting roll setting before sets designated position to B knife therewith.Vice versa.

6. a kind of method for carrying out mechanical scratching diffraction grating using double-pole no-idle running according to claim 2, special Sign is: the A knife and B knife respectively have the respectively revolution freedom degree around knife handle axis relative to knife rest coordinate system, are adjusted Respectively setting angle when delineation.

7. a kind of method for carrying out mechanical scratching diffraction grating using double-pole no-idle running according to claim 1, special Sign is: described during the round-trip of knife rest, A knife and B knife respectively have a participation delineation, are not in scoring process free The generation of stroke.

8. a kind of method for carrying out mechanical scratching diffraction grating using double-pole no-idle running according to claim 1, special Sign is: the double-pole is respectively provided with individual cutter lifting, roll setting motor function, i.e. another icking tool of icking tool cutter lifting roll setting therewith, Vice versa.