CN114589334A - Milling machine with adjusting function for metal model machining - Google Patents

Abstract

The invention relates to the technical field of milling machine equipment, in particular to a milling machine with an adjusting function for processing a metal model, which comprises a bottom plate, wherein a lifting component is arranged at the top of the bottom plate, a processing table is arranged at the top of the bottom plate, a first rotating component is arranged on the lifting component, a first moving component is arranged on the first rotating component, a second rotating component is arranged on the moving component, a motor is arranged on the second rotating component, a milling cutter is arranged on an output shaft of the motor, the lifting component comprises a first servo motor, a second threaded rod, a positioning column and an internal threaded column, a cylindrical hole is formed in the top of the positioning column, guide grooves are formed in the inner walls of two sides of the cylindrical hole, the second threaded rod is connected to the inner wall of the internal threaded column through threads, one end of the second threaded rod is fixed with the output shaft of the first servo motor, the invention can carry out vertical processing and horizontal processing.

Description

Milling machine with adjusting function for metal model machining

Technical Field

The invention relates to the technical field of milling machine equipment, in particular to a milling machine with an adjusting function for processing a metal model.

Background

The milling machine mainly refers to a machine tool for processing various surfaces of a workpiece by using a milling cutter. Typically the milling cutter is moved primarily in a rotary motion and the movement of the workpiece and the milling cutter is a feed motion. It can be used for processing plane, groove, various curved surfaces and gears.

The milling machine is a machine tool for milling a workpiece by using a milling cutter. The milling machine can mill planes, grooves, gear teeth, threads and spline shafts, can also process complex molded surfaces, has higher efficiency than a planer, and is widely applied to mechanical manufacturing and repairing departments; most of the existing milling machines are vertical milling machines and horizontal milling machines, and when metal is processed, metal workpieces can be processed alternately by the two milling machines according to different processing modes, so that the metal workpieces are extremely inconvenient.

Disclosure of Invention

The invention aims to provide a milling machine with an adjusting function for processing a metal model, so as to solve the problems in the background technology.

The technical scheme of the invention is as follows: the utility model provides a milling machine is used in metal mold processing with regulatory function, includes the bottom plate, lifting unit is installed at the top of bottom plate, the processing platform is installed at the top of bottom plate, last the installing of lifting unit rotating assembly one, the last removal subassembly of installing of rotating assembly one, the last converting module of installing of removing the subassembly, the last rotating assembly two of installing of converting assembly, the last motor of installing of rotating assembly two, the output shaft of motor is provided with milling cutter.

Preferably, the lifting assembly comprises a first servo motor, a second threaded rod, a positioning column and an internal threaded column, a cylindrical hole is formed in the top of the positioning column, guide grooves are formed in inner walls of two sides of the cylindrical hole, the second threaded rod is connected to the inner wall of the internal threaded column through threads, one end of the second threaded rod is fixed to an output shaft of the first servo motor, guide blocks are fixed to bottom ends of outer walls of two sides of the internal threaded column, the positioning column is fixed to the top of the bottom plate through fixing bolts, the first servo motor is fixed to the top of the bottom plate through fixing bolts, and the guide blocks are slidably mounted on the inner wall of the guide grooves.

Preferably, the processing table comprises a supporting table, a first threaded rod, a table, a hydraulic rod, two extending plates, two guide posts and a sliding block, the two extending plates are respectively fixed at positions on two sides of the outer wall of one end of the supporting table, the positioning column is located between the two extending plates, guide holes are formed in the tops of the two extending plates, the two guide posts are respectively and slidably mounted on the inner walls of the guide holes, stabilizing plates are fixed to the tops of the guide posts, the stabilizing plates are fixed to the positioning column, the bottoms of the guide posts are fixed to the top of the bottom plate, the hydraulic rod is fixed to the top of the bottom plate, the telescopic end of the hydraulic rod is in contact with the supporting table, a first sliding groove is formed in the top of the supporting table, the sliding block is in contact with the inner walls on two sides of the first sliding groove, two ends of the first threaded rod respectively penetrate through the inner walls on two ends of the first sliding groove and are in running fit with the first sliding groove, the one end of a threaded rod runs through the outer wall of sliding block, a threaded rod is connected through the screw thread with the sliding block, brace table, fix the top at the sliding block.

Preferably, rotating assembly one includes fixed disk, set casing, gear one, servo motor two and gear two, the bottom intermediate position department of fixed disk is fixed on the top of internal thread post, the top intermediate position department of fixed disk has seted up changes hole one, the inner wall of changeing hole one rotates and has transmission shaft one, gear one and gear two phase meshing and all be located the inboard position of set casing, the fixed casing is fixed at the top of fixed disk, servo motor two is fixed in the bottom of fixed disk, gear two is fixed on the output shaft of servo motor two.

Preferably, the removal subassembly is including removing shell, No. three threaded rods, three servo motor, four servo motor and fixed block, the fixed block is fixed on the top of transmission shaft one, the bottom of removing the shell is equipped with spout two, the both ends of No. three threaded rods run through respectively spout two both ends inner wall and with spout two form normal running fit, the outer wall of fixed block is run through to the one end of No. three threaded rods, the both sides outer wall of fixed block respectively with the both sides inner wall contact of spout two, No. three threaded rods are connected through the screw thread with the fixed block, four servo motor fix the inside wall one end position department at the removal shell, three servo motor are fixed on the one end outer wall of removing the shell, three output shafts of servo motor are fixed with the one end of No. three threaded rods.

Preferably, the conversion assembly comprises a reference column, a servo motor five, an electric telescopic rod I and a positioning pin, one end of the reference column is fixed with an output shaft of the servo motor IV, the other end of the reference column and one end of the rotating column are inclined planes of forty-five degrees, the two inclined planes are contacted, the top of the reference column is provided with a first fixing hole and a second fixing hole, the first fixing hole is vertical to the inclined plane, the fifth servo motor is fixed on the inner wall of the fixing hole, an output shaft of the servo motor V is fixed with the rotating column, the electric telescopic rod I is fixed on the inner wall of the fixing hole II, the positioning pin is fixed on the telescopic end of the first electric telescopic rod, the top end and the bottom end of the inclined plane of the rotating column are both provided with positioning holes, the top and the bottom of the rotating column are both fixed with infrared receivers, and the bottom of the reference column is fixed with an infrared emitter.

Preferably, the rotating assembly two includes rotor plate, electric telescopic handle two and two backup pads, two the backup pad is fixed respectively on the one end outer wall both sides outer wall of benchmark post, the both sides outer wall of rotor plate forms normal running fit with the same end of two backup pads, the both ends of electric telescopic handle two are fixed with rotor block one and rotor block two respectively, one side outer wall of rotor block one forms normal running fit with the one end of rotor plate, one side outer wall of rotor block two forms normal running fit with one side outer wall of backup pad.

The invention provides a milling machine with an adjusting function for processing a metal model, which has the following improvements and advantages compared with the prior art:

one is as follows: according to the invention, the first electric telescopic rod is contracted, the positioning pin is pulled out of the positioning hole, at the moment, the fifth servo motor drives the rotating column to rotate until the infrared receiver receives infrared rays of the infrared emitter, the fifth servo motor stops working, the first electric telescopic rod is extended, the positioning pin is inserted into the positioning hole, the one-hundred-eighty-degree rotation is completed, at the moment, the vertical machining is changed into horizontal machining, and thus two different machining modes can be carried out;

the second step is as follows: according to the invention, the first threaded rod is rotated and drives the sliding block to move back and forth in a threaded transmission mode, and the sliding block drives the table to move back and forth;

the extension plate and the guide column are in sliding fit, so that the support table moves up and down, the hydraulic rod is controlled to stretch and retract, the support table is driven to move up and down, and the height of the machining table is controlled;

because the guide block on the internal thread column and the guide groove in the cylindrical hole form sliding fit, the internal thread column can only move up and down, so that the first servo motor rotates the second threaded rod, and the second threaded rod can drive the internal thread column to move up and down in a thread transmission mode, thereby controlling the machining height;

the servo motor II enables the gear II to rotate, and the gear II drives the gear I to rotate, so that the machining angle in the machining horizontal plane is controlled;

the third servo motor rotates the third threaded rod, and the third threaded rod enables the fixed block and the movable shell to move relatively in a threaded transmission mode;

the second electric telescopic rod can control the rotating plate to rotate in a telescopic mode, and the machining angle of the milling cutter in the vertical plane can be adjusted.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is an enlarged schematic view of FIG. 3 at A;

FIG. 4 is a schematic diagram of the right-hand side view of the present invention;

FIG. 5 is a schematic view of the sectional view B-B of FIG. 4;

FIG. 6 is a right cut-away schematic view of the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 6 at C;

fig. 8 is an enlarged schematic view of fig. 6 at D.

Description of reference numerals:

1. a base plate; 2. a processing table; 21. a support table; 22. a first threaded rod; 23. a table; 24. A hydraulic rod; 25. an extension plate; 26. a guide post; 27. a stabilizing plate; 28. a slider; 3. A lifting assembly; 31. a first servo motor; 32. a second threaded rod; 33. a guide block; 34. a positioning column; 35. an internally threaded post; 4. a first rotating assembly; 41. fixing the disc; 42. a stationary case; 43. A first gear; 44. a servo motor II; 45. a second gear; 5. a moving assembly; 51. moving the shell; 52. a third threaded rod; 53. a servo motor III; 54. a servo motor IV; 55. a fixed block; 6. a conversion component; 61. a reference column; 62. a servo motor V; 63. a first electric telescopic rod; 64. positioning pins; 65. an infrared receiver; 66. rotating the column; 67. an infrared emitter; 7. a second rotating assembly; 71. a rotating plate; 72. rotating the first block; 73. a second electric telescopic rod; 74. rotating the second block; 75. a support plate; 8. an electric motor.

Detailed Description

The present invention is described in detail below, and technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The invention provides a milling machine with an adjusting function for processing a metal model through improvement, and the technical scheme of the invention is as follows:

as shown in fig. 1-8, a milling machine with an adjusting function for metal model machining comprises a base plate 1, a lifting component 3 is installed at the top of the base plate 1, a machining table 2 is installed at the top of the base plate 1, a first rotating component 4 is installed on the lifting component 3, a moving component 5 is installed on the first rotating component 4, a conversion component 6 is installed on the moving component 5, a second rotating component 7 is installed on the conversion component 6, a motor 8 is installed on the second rotating component 7, and a milling cutter is arranged on an output shaft of the motor 8.

Further, lifting unit 3 includes servo motor 31, No. two threaded rods 32, reference column 34 and internal thread post 35, the cylinder hole has been seted up at reference column 34's top, the guide way has all been seted up to the both sides inner wall in cylinder hole, No. two threaded rods 32 pass through threaded connection on internal thread post 35's inner wall, No. two threaded rods 32's one end is fixed mutually with servo motor 31's output shaft, the both sides outer wall bottom department of internal thread post 35 all is fixed with guide block 33, reference column 34 passes through fixing bolt to be fixed on bottom plate 1's top, servo motor 31 passes through fixing bolt to be fixed on bottom plate 1's top, guide block 33 slidable mounting is on the inner wall of guide way.

Further, the processing table 2 comprises a supporting table 21, a first threaded rod 22, a table 23, a hydraulic rod 24, two extending plates 25, two guide posts 26 and a sliding block 28, the two extending plates 25 are respectively fixed at two sides of the outer wall of one end of the supporting table 21, the positioning post 34 is located between the two extending plates 25, guide holes are respectively formed in the tops of the two extending plates 25, the two guide posts 26 are respectively slidably mounted on the inner walls of the guide holes, a stabilizing plate 27 is fixed on the top of each guide post 26, the stabilizing plate 27 is fixed with the positioning post 34, the bottom of each guide post 26 is fixed on the top of the bottom plate 1, the hydraulic rod 24 is fixed on the top of the bottom plate 1, the telescopic end of the hydraulic rod 24 is in contact with the supporting table 21, a first sliding groove is formed in the top of the supporting table 21, the sliding block 28 is in contact with the inner walls of two sides of the first sliding groove, two ends of the first threaded rod 22 respectively penetrate through the inner walls of two ends of the first sliding groove and form a rotating fit with the first groove, one end of a threaded rod 22 penetrates through the outer wall of the sliding block 28, the threaded rod 22 is connected with the sliding block 28 through threads, and the supporting table 21 is fixed to the top of the sliding block 28.

By means of the structure: one end of the first threaded rod 22 can be provided with a handle, the first threaded rod 22 is rotated through the handle, the first threaded rod 22 drives the sliding block 28 to move back and forth through a thread transmission mode, and the sliding block 28 drives the table 23 to move back and forth; the extension plate 25 and the guide post 26 form a sliding fit, so that the support platform 21 moves up and down, the hydraulic rod 24 is controlled to stretch and retract, the support platform 21 is driven to move up and down, and the height of the processing platform 2 is controlled.

Further, the first rotating assembly 4 comprises a fixed disc 41, a fixed shell 42, a first gear 43, a second servo motor 44 and a second gear 45, the middle position of the bottom of the fixed disc 41 is fixed on the top of the internal threaded column 35, a first rotating hole is formed in the middle position of the top of the fixed disc 41, a first transmission shaft is rotated on the inner wall of the first rotating hole, the first gear 43 and the second gear 45 are meshed with each other and are located at the inner side position of the fixed disc 42, the fixed shell 42 is fixed on the top of the fixed disc 41, the second servo motor 44 is fixed at the bottom of the fixed disc 41, and the second gear 45 is fixed on an output shaft of the second servo motor 44.

By means of the structure: the second servo motor 44 rotates the second gear 45, and the second gear 45 drives the first gear 43 to rotate, so that the machining angle in the machining horizontal plane is controlled.

Further, the moving assembly 5 comprises a moving shell 51, a third threaded rod 52, a third servo motor 53, a fourth servo motor 54 and a fixed block 55, the fixed block 55 is fixed to the top of the first transmission shaft, a second sliding groove is formed in the bottom of the moving shell 51, two ends of the third threaded rod 52 penetrate through inner walls of two ends of the second sliding groove respectively and form rotating fit with the second sliding groove, one end of the third threaded rod 52 penetrates through an outer wall of the fixed block 55, outer walls of two sides of the fixed block (55) are in contact with inner walls of two sides of the second sliding groove respectively, the third threaded rod 52 is connected with the fixed block 55 through threads, the fourth servo motor 54 is fixed to one end of an inner side wall of the moving shell 51, the third servo motor 53 is fixed to one end of the moving shell 51, and an output shaft of the third servo motor 53 is fixed to one end of the third threaded rod 52.

By means of the structure: the third screw rod 52 is rotated by the third servo motor 53, and the fixed block 55 and the movable shell 51 are relatively moved by the third screw rod 52 in a screw transmission mode.

Further, the conversion assembly 6 comprises a reference column 61, a servo motor five 62, an electric telescopic rod one 63 and a positioning pin 64, one end of the reference column 61 is fixed with an output shaft of the servo motor four 54, the other end of the reference column 61 and one end of the rotating column 66 are both inclined planes of forty-five degrees, and two inclined planes contact, a first fixing hole and a second fixing hole are formed in the top of the reference column 61, the first fixing hole is perpendicular to the inclined planes, the five servo motors 62 are fixed on the inner walls of the fixing holes, output shafts of the five servo motors 62 are fixed with the rotating column 66, the first electric telescopic rods 63 are fixed on the inner walls of the second fixing holes, the positioning pins 64 are fixed on the telescopic ends of the first electric telescopic rods 63, positioning holes are formed in the top ends and the bottom ends of the inclined planes of the rotating column 66, infrared receivers 65 are fixed at the top and the bottom of the rotating column 66, and infrared emitters 67 are fixed at the bottom of the reference column 61.

By means of the structure: one electric telescopic handle 63 contracts, takes out locating pin 64 from the locating hole, and five 62 servo motors drive the rotation post 66 this moment and rotate, and until infrared receiver 65 receives infrared ray of infrared emitter 67, five 62 stop work of servo motors, one 63 electric telescopic handle extension, inject locating pin 64 into the locating hole, accomplish one hundred eighty degrees and rotate, and vertical processing becomes horizontal processing this moment, can carry out two different processing modes like this.

Further, the second rotating assembly 7 comprises a rotating plate 71, a second electric telescopic rod 73 and two supporting plates 75, the two supporting plates 75 are fixed on outer walls of two sides of the outer wall of one end of the reference column 61 respectively, the outer walls of two sides of the rotating plate 71 and the same ends of the two supporting plates 75 form a rotating fit, a first rotating block 72 and a second rotating block 74 are fixed at two ends of the second electric telescopic rod 73 respectively, the outer wall of one side of the first rotating block 72 and one end of the rotating plate 71 form a rotating fit, and the outer wall of one side of the second rotating block 74 and the outer wall of one side of the supporting plates 75 form a rotating fit.

By means of the structure: the second electric telescopic rod 73 can control the rotating plate 71 to rotate by stretching and retracting, the processing angle of the milling cutter in the vertical plane can be adjusted, and the motor 8 can be fixed on the outer wall of one end of the rotating plate 71 through a fixing bolt.

The working principle is as follows: one end of the first threaded rod 22 can be provided with a handle, the first threaded rod 22 is rotated through the handle, the first threaded rod 22 drives the sliding block 28 to move back and forth through a thread transmission mode, and the sliding block 28 drives the table 23 to move back and forth;

the extension plate 25 and the guide post 26 form sliding fit, so that the support table 21 moves up and down, the hydraulic rod 24 is controlled to stretch and retract, the support table 21 is driven to move up and down, and the height of the processing table 2 is controlled;

because the guide block 33 on the internal thread column 35 and the guide groove in the cylindrical hole form a sliding fit, the internal thread column 35 can only move up and down, the first servo motor 31 enables the second threaded rod 32 to rotate, and the second threaded rod 32 can drive the internal thread column 35 to move up and down in a thread transmission mode, so that the machining height is controlled;

the servo motor II 44 enables the gear II 45 to rotate, and the gear II 45 drives the gear I43 to rotate, so that the machining angle in the machining horizontal plane is controlled;

the third servo motor 53 rotates the third threaded rod 52, and the third threaded rod 52 enables the fixed block 55 and the movable shell 51 to move relatively in a threaded transmission mode;

the second electric telescopic rod 73 can control the rotating plate 71 to rotate by stretching, and the processing angle of the milling cutter in the vertical plane can be adjusted;

one electric telescopic handle 63 contracts, takes out locating pin 64 from the locating hole, and five 62 servo motors drive the rotation post 66 this moment and rotate, and until infrared receiver 65 receives infrared ray of infrared emitter 67, five 62 stop work of servo motors, one 63 electric telescopic handle extension, inject locating pin 64 into the locating hole, accomplish one hundred eighty degrees and rotate, and vertical processing becomes horizontal processing this moment, can carry out two different processing modes like this.

The previous description is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. The utility model provides a milling machine is used in metal mold processing with regulatory function, includes bottom plate (1), its characterized in that: lifting unit (3) are installed at the top of bottom plate (1), processing platform (2) are installed at the top of bottom plate (1), install rotating assembly (4) on lifting unit (3), install removal subassembly (5) on rotating assembly (4), install conversion components (6) on removal subassembly (5), install rotating assembly two (7) on conversion components (6), install motor (8) on rotating assembly two (7), the output shaft of motor (8) is provided with milling cutter.

2. The milling machine for machining a metal mold with an adjustment function according to claim 1, characterized in that: the lifting assembly (3) comprises a first servo motor (31), a second threaded rod (32), a positioning column (34) and an internal threaded column (35), a cylindrical hole is formed in the top of the positioning column (34), guide grooves are formed in inner walls of two sides of the cylindrical hole, the second threaded rod (32) is connected to the inner wall of the internal threaded column (35) through threads, one end of the second threaded rod (32) is fixed to an output shaft of the first servo motor (31), guide blocks (33) are fixed to bottom ends of outer walls of two sides of the internal threaded column (35), the positioning column (34) is fixed to the top of the bottom plate (1) through fixing bolts, the first servo motor (31) is fixed to the top of the bottom plate (1) through fixing bolts, and the guide blocks (33) are installed on the inner walls of the guide grooves in a sliding mode.

3. The milling machine for machining a metal mold with an adjustment function according to claim 2, characterized in that: the processing table (2) comprises a supporting table (21), a threaded rod (22), a table (23), a hydraulic rod (24), two extension plates (25), two guide columns (26) and a sliding block (28), wherein the extension plates (25) are respectively fixed at the positions of two sides of the outer wall of one end of the supporting table (21), the positioning column (34) is positioned between the two extension plates (25), the top of each extension plate (25) is provided with a guide hole, the two guide columns (26) are respectively installed on the inner wall of the guide hole in a sliding manner, the top of each guide column (26) is fixed with a stabilizing plate (27), the stabilizing plate (27) is fixed with the positioning column (34), the bottom of each guide column (26) is fixed on the top of the bottom plate (1), the hydraulic rod (24) is fixed on the top of the bottom plate (1), and the telescopic end of the hydraulic rod (24) is in contact with the supporting table (21), a sliding groove I is formed in the top of the supporting table (21), the sliding block (28) is in contact with the inner walls of the two sides of the first sliding groove, the two ends of the threaded rod (22) penetrate through the inner walls of the two ends of the first sliding groove respectively and form rotating fit with the first sliding groove, one end of the threaded rod (22) penetrates through the outer wall of the sliding block (28), the threaded rod (22) is connected with the sliding block (28) through threads, and the supporting table (21) is fixed to the top of the sliding block (28).

4. The milling machine for machining a metal mold with an adjustment function according to claim 2, characterized in that: rotating assembly (4) are including fixed disk (41), set casing (42), gear (43), servo motor two (44) and gear two (45), the bottom intermediate position department of fixed disk (41) is fixed on the top of internal thread post (35), the top intermediate position department of fixed disk (41) has seted up commentaries on classics hole one, the inner wall of commentaries on classics hole one rotates there is transmission shaft one, gear (43) and gear two (45) mesh mutually and all are located the inboard position of set casing (42), the top at fixed disk (41) is fixed in set casing (42), the bottom at fixed disk (41) is fixed in servo motor two (44), gear two (45) are fixed on the output shaft of servo motor two (44).

5. The milling machine for machining a metal mold with an adjustment function according to claim 4, characterized in that: the moving assembly (5) comprises a moving shell (51), a third threaded rod (52), a third servo motor (53), a fourth servo motor (54) and a fixed block (55), the fixed block (55) is fixed on the top of a first transmission shaft, a second sliding groove is formed in the bottom of the moving shell (51), two ends of the third threaded rod (52) penetrate through inner walls of two ends of the second sliding groove respectively and form rotating fit with the second sliding groove, one end of the third threaded rod (52) penetrates through the outer wall of the fixed block (55), outer walls of two sides of the fixed block (55) are in contact with inner walls of two sides of the second sliding groove respectively, the third threaded rod (52) is connected with the fixed block (55) through threads, the fourth servo motor (54) is fixed at one end of the inner side wall of the moving shell (51), and the third servo motor (53) is fixed on the outer wall of one end of the moving shell (51), and an output shaft of the servo motor III (53) is fixed with one end of the third threaded rod (52).

6. The milling machine for machining a metal mold with an adjustment function according to claim 5, characterized in that: the conversion assembly (6) comprises a reference column (61), a servo motor five (62), an electric telescopic rod one (63) and a positioning pin (64), one end of the reference column (61) is fixed with an output shaft of a servo motor four (54), the other end of the reference column (61) and one end of a rotating column (66) are both forty-five degree inclined planes, the two inclined planes are in contact with each other, the top of the reference column (61) is provided with a fixing hole one and a fixing hole two, the fixing hole one is perpendicular to the inclined planes, the servo motor five (62) is fixed on the inner wall of the fixing hole, the output shaft of the servo motor five (62) is fixed with the rotating column (66), the electric telescopic rod one (63) is fixed on the inner wall of the fixing hole two, the positioning pin (64) is fixed on the telescopic end of the electric telescopic rod one (63), and the top end and the bottom end of the inclined plane of the rotating column (66) are both provided with positioning holes, the top and the bottom of the rotating column (66) are both fixed with infrared receivers (65), and the bottom of the reference column (61) is fixed with an infrared emitter (67).

7. The milling machine for machining a metal mold with an adjustment function according to claim 1, wherein: rotating assembly two (7) are including rotating plate (71), electric telescopic handle two (73) and two backup pad (75), two backup pad (75) are fixed respectively on the one end outer wall both sides outer wall of benchmark post (61), the both sides outer wall of rotating plate (71) forms normal running fit with the same end of two backup pad (75), the both ends of electric telescopic handle two (73) are fixed with turning block one (72) and turning block two (74) respectively, one side outer wall of turning block one (72) forms normal running fit with the one end of rotating plate (71), one side outer wall of turning block two (74) forms normal running fit with one side outer wall of backup pad (75).

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