CN112091295B - Automatic edge milling machine for aluminum alloy template - Google Patents

Abstract

The invention discloses an automatic edge milling machine for an aluminum alloy template, which comprises a rack, a feeding device, a leading-in mechanism, a fixed-length distance adjusting mechanism, a guiding and positioning mechanism, a pre-tightening mechanism, an edge milling mechanism and an electric control system, wherein the feeding device is arranged at the upper part of the rack and comprises a supporting plate, a feeding belt, a driving shaft, a driven shaft and a driving mechanism, and the driving shaft and the driven shaft are oppositely arranged on the rack and are connected through the feeding belt. The fixed-length distance adjusting mechanism comprises two adjustable working tables, the two adjustable working tables are connected with the rack in an adjustable and fixed mode, and the rear sides of the adjustable working tables are provided with pre-tightening mechanisms. The guide positioning mechanism comprises two guide plates which are symmetrically arranged, and two groups of side guide wheels are respectively arranged on one opposite sides of the two guide plates. The two edge milling mechanisms are symmetrically arranged on the two adjustable working tables. The invention realizes automatic continuous feeding, automatic guiding and aligning, one-time multilateral cutting, high cutting speed, high processing precision, low production cost and high production efficiency.

Description

Automatic edge milling machine for aluminum alloy template

Technical Field

The invention relates to the technical field of building material machining, in particular to an automatic edge milling machine for an aluminum alloy template.

Background

As a novel building material, the aluminum template has the advantages of high construction efficiency, short construction period, energy conservation, environmental protection, reusability and the like, and is widely applied to building construction. At present, the phenomenon of burrs can exist at the edge of an old aluminum template which is repeatedly used, the tolerance accumulation is large after the assembly, the overall size is large after the assembly, and the verticality error of the wall plate is large. The traditional method is to process the half edge of the old aluminum template manually, and the existing processing mode of the old aluminum template has the defects of high labor cost, time and labor waste, low efficiency, poor precision and low qualified rate of finished products, and is difficult to meet the requirements of large-scale and industrialized production. Therefore, further improvements are needed in the art.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide an automatic edge milling machine for an aluminum alloy template, which solves the problems of high labor cost, low efficiency, poor precision, unattractive cutting surface, low yield and difficulty in meeting the requirements of large-scale and industrialized production in the existing processing mode of the aluminum template.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

an automatic edge milling machine for aluminum alloy templates comprises a rack, a feeding device, a guiding mechanism, a fixed-length distance adjusting mechanism, a guiding and positioning mechanism, a pre-tightening mechanism, an edge milling mechanism and an electric control system, wherein the rack is of a steel frame structure, and the feeding device is arranged at the upper part of the rack.

The feeding device comprises a supporting plate, a feeding belt, a driving shaft, a driven shaft and a driving mechanism, wherein the driving shaft and the driven shaft are arranged on the rack oppositely and are connected through the feeding belt, and the supporting plate is horizontally arranged on the rack and is positioned on the inner side of the feeding belt.

The fixed-length distance adjusting mechanism comprises two adjustable working tables which are arranged above the back of the frame in a bilateral symmetry mode, and a pre-tightening mechanism is configured on the rear side of each adjustable working table.

The guide positioning mechanism comprises two guide plates which are symmetrically arranged, each guide plate is arranged at the bottom of the adjustable workbench at the same side, and two groups of side guide wheels are arranged at one opposite sides of the two guide plates respectively.

The two edge milling mechanisms are arranged on the two adjustable workbenches in bilateral symmetry and comprise first motors, cutter shafts and milling cutter assemblies arranged on the cutter shafts, and the output ends of the first motors drive the cutter shafts to rotate.

Preferably, the driven shaft and the driving shaft are transversely arranged in parallel relatively and are respectively arranged at the front end and the rear end of the rack, a driving chain wheel is respectively arranged at each of the two ends of the driving shaft, a driven chain wheel is respectively arranged at each of the two ends of the driven shaft, and each driving chain wheel is connected with the driven chain wheel at the same side through a chain.

The driving mechanism comprises a second motor, the second motor is arranged at the bottom of the rack, the output end of the second motor drives the driving shaft to rotate, and the signal end of the second motor is in signal connection with the electric control system.

Preferably, two upright posts which are oppositely arranged are arranged at the rear upper part of the machine frame, a horizontal guide rail is arranged between the two upright posts, and two guide rail seats are symmetrically arranged on the horizontal guide rail.

The two guide rail seats are in running fit with a transversely arranged bidirectional screw rod, one end of the bidirectional screw rod is connected with the output end of a third motor through a coupler, and the bidirectional screw rod drives the two adjustable working tables to move oppositely or oppositely.

Preferably, the pre-tightening mechanism comprises an air cylinder and an electromagnetic valve, the air cylinder is arranged on the guide rail seat, and the movable end of the air cylinder is connected with the back of the adjustable workbench.

Each the back of adjustable workstation all is equipped with vertical guide rail, vertical guide rail and the front side sliding fit of guide rail seat, and two adjustable workstations of cylinder drive are vertical motion in step.

Preferably, the cutter shafts are transversely arranged at the lower part of the adjustable workbench through the cutter shaft seats, the two cutter shafts are coaxially and oppositely arranged, and a spacer bush is arranged outside each cutter shaft.

The first motors are arranged on the upper part of the adjustable workbench, and the output ends of the two first motors are respectively connected with one ends of the two cutter shafts, which deviate from each other, through a transmission belt.

The milling cutter assembly is arranged at one end opposite to the two cutter shafts and comprises a side milling cutter and a flat milling cutter, the flat milling cutter and the side milling cutter are adjacently arranged along the cutter shafts, and the two flat milling cutters are located between the two side milling cutters.

Preferably, a knife rest guide plate is arranged on the front side of each adjustable workbench, and each knife rest guide plate is fixedly connected with the adjustable workbench on the same side through a lifting lug.

The bottom of the tool rest guide plate is provided with a U-shaped notch with a downward opening, the milling cutter assembly is positioned at the inner side of the U-shaped notch corresponding to the tool rest guide plate, the lower end of each tool rest guide plate is provided with two horizontal guide wheels, and the two horizontal guide wheels are respectively positioned at the front side and the rear side of the U-shaped notch.

Preferably, each guide plate is longitudinally and horizontally arranged above the feeding belt, and the upper surface of each guide plate is fixedly connected with the bottom of the corresponding adjustable workbench.

Two sets of side guide wheels are located the front and back both sides of milling cutter subassembly respectively, and all set up in the bottom of deflector, and every group side guide wheel all includes a plurality of side guide wheels of vertical interval arrangement in proper order.

Preferably, the front end surfaces of the guide plates are inclined surfaces, and the front end surfaces of the two guide plates are matched to form an outward splayed shape with a wide front and a narrow back.

Preferably, the guide-in mechanism includes guide bar, frid and round pin axle, the guide bar is located the top of pay-off belt, and its front end is articulated with one side of frame, and the round pin axle is vertical to be established in the rear end of guide bar.

The frid is established at the deflector front end with the guide bar homonymy, has seted up the slotted hole on the frid, and the round pin axle is located the slotted hole, with frid activity continuous.

By adopting the technical scheme, the invention has the beneficial technical effects that: the invention realizes automatic continuous feeding, automatic guiding and aligning and one-time multilateral cutting, and improves the operation efficiency. The servo control sizing is adopted, so that the operation is quick and accurate, and the operation preparation time is saved. The pre-tightening mechanism enables the milling cutter to be in close contact with the workpiece, reduces errors and improves machining precision. The side milling cutter and the flat milling cutter of the edge milling mechanism synchronously cut two side edges and two upper edges of the template, so that the milling speed is high, the processing efficiency is greatly improved, the processing quality is improved, and the labor cost is reduced. Compared with the traditional processing mode, the efficiency is improved by more than 10 times, the plate edges are neatly scribed, the tolerance is controllable, the cutting surface is attractive, and the tolerance accumulation phenomenon of the jointed plate is eliminated.

Drawings

FIG. 1 is a schematic structural diagram of an automatic edge milling machine for aluminum alloy templates in a front side view.

FIG. 2 is a schematic structural diagram of the automatic edge milling machine for aluminum alloy templates in the rear side view.

Fig. 3 is a partial schematic view of the invention of fig. 1, shown with the frame and feed device removed.

FIG. 4 is a schematic view of the present invention shown in FIG. 3 with the tool holder guide and lifting lugs removed.

Wherein the reference numerals are: 1. A frame; 11. a column; 2. a feeding device; 21. a support plate; 22. a driven shaft; 23. a driven sprocket; 24. a second motor; 25. a drive shaft; 26. a drive sprocket; 27. a reduction gearbox; 3. a lead-in mechanism; 31. a guide bar; 32. a groove plate; 33. a pin shaft; 321. a long round hole; 4. a fixed-length distance adjusting mechanism; 41. an adjustable work table; 42. a horizontal guide rail; 43. a guide rail seat; 44. a vertical guide rail; 45. a coupling; 46. a third motor; 47. a bidirectional lead screw; 48. a screw seat; 5. a guiding and positioning mechanism; 51. a guide plate; 52. a side guide wheel; 61. a first motor; 62. a cutter shaft; 63. a side milling cutter; 64. a flat milling cutter; 65. a tool holder guide plate; 66. lifting lugs; 67. a cutter shaft seat; 68. a large belt pulley; 69. a small belt pulley; 7. a cylinder; 71. a horizontal guide wheel; 72. a connecting plate; 8. and (4) a spacer bush.

Detailed Description

The invention is described in detail below with reference to the accompanying drawings:

with reference to fig. 1 to 4, an automatic edge milling machine for aluminum alloy templates comprises a frame 1, a feeding device 2, a guiding mechanism 3, a fixed-length distance adjusting mechanism 4, a guiding and positioning mechanism 5, a pre-tightening mechanism, an edge milling mechanism and an electric control system, wherein the frame 1 is of a steel frame structure, and the feeding device 2 is installed on the upper portion of the frame 1. The feeding device 2 comprises a supporting plate 21, a feeding belt, a driving shaft 25, a driven shaft 22 and a driving mechanism, wherein the driving shaft 25 and the driven shaft 22 are arranged on the rack 1 relatively and are connected through the feeding belt, the supporting plate 21 is horizontally arranged on the rack 1 and is positioned on the inner side of the feeding belt, and the supporting plate 21 is used for supporting the upper part of the feeding belt and placing an aluminum template on the feeding belt.

Driven shaft 22 and driving shaft 25 are horizontal relative parallel arrangement, and are located frame 1 both ends around respectively, and driving shaft 25 and driven shaft 22 are respectively with frame 1 normal running fit, and the both ends of driving shaft 25 are equipped with a drive sprocket 26 respectively, and the both ends of driven shaft 22 are equipped with a driven sprocket 23 respectively, and each drive sprocket 26 passes through the chain and links to each other with the driven sprocket 23 of homonymy, and driving shaft 25 passes through chain drive driven shaft 22 and rotates, and then realizes driving shaft 25 and driven shaft 22 drive pay-off belt motion are carried by going to the back to the aluminium template of placing on pay-off belt.

The driving mechanism comprises a second motor 24, the second motor 24 is arranged at the bottom of the rack 1, an output end of the second motor 24 drives a driving shaft 25 to rotate through a reduction gearbox 27, and a signal end of the second motor 24 is in signal connection with an electric control system. Frame 1 on be equipped with the power, the power adopts the 220V commercial power, and the power supplies power for each power consumption part of the automatic edge milling machine of aluminum alloy template, electrical system adopts the existing PLC controller of prior art, the signal end communication connection of PLC controller and solenoid valve and each motor is controlled motor and solenoid valve.

The fixed-length distance adjusting mechanism 4 comprises two adjustable working tables 41, the two adjustable working tables 41 are arranged above the rear portion of the rack 1 in a bilateral symmetry mode and are connected with the rack 1 in an adjustable and fixed mode, and a pre-tightening mechanism is configured on the rear side of each adjustable working table 41. Specifically, the upper rear of the frame 1 has two upright posts 11 arranged oppositely, a horizontal guide rail 42 is arranged between the two upright posts 11, two guide rail seats 43 are symmetrically arranged on the horizontal guide rail 42, and a screw seat 48 is fixedly mounted on the rear side of each guide rail seat 43. The two guide rail seats 43 are in running fit with a transversely arranged bidirectional screw 47 through screw seats 48 on the rear sides of the guide rail seats, one end of the bidirectional screw 47 is connected with the output end of a third motor 46 through a coupler 45, and the bidirectional screw 47 drives the two adjustable working tables 41 to move relatively or oppositely to adjust the distance between the two adjustable working tables 41.

The pre-tightening mechanism comprises an air cylinder 7 and an electromagnetic valve, the air cylinder 7 is installed on the guide rail seat 43, the movable end of the air cylinder 7 is connected with the back face of the adjustable workbench 41 through a connecting plate 72, the air cylinder 7 is an electric air cylinder, and a power supply on the rack 1 supplies power to the electric air cylinder. The back of each adjustable workbench 41 is provided with a vertical guide rail 44, the vertical guide rail 44 is in sliding fit with the front side of the guide rail seat 43, each air cylinder 7 drives the corresponding adjustable workbench 41 to lift relative to the guide rail seat 43 along the vertical guide rail 44, and the air cylinders 7 drive the two adjustable workbenches 41 to synchronously and vertically move. The lower end of each adjustable workbench 41 is provided with a group of horizontal guide wheels 71, and the two groups of horizontal guide wheels 71 can pre-tighten the aluminum template on the feeding belt.

The guiding and positioning mechanism 5 comprises two guiding plates 51 which are symmetrically arranged, each guiding plate 51 is fixedly installed at the bottom of the adjustable workbench 41 on the same side, and the guiding plates 51 move along with the adjustable workbench 41. Each deflector 51 is vertically and horizontally arranged above the feeding belt, the upper surface of each deflector 51 is fixedly connected with the bottom of the corresponding adjustable workbench 41, two sets of side guide wheels are respectively arranged on one opposite sides of the two deflectors 51, the two sets of side guide wheels are respectively arranged at the bottom of the deflector 51, each set of side guide wheels 52 comprises a plurality of side guide wheels 52 which are longitudinally arranged at intervals in sequence, and each side guide wheel 52 of the same set is arranged along a straight line. Preferably, the front end surfaces of the guide plates 51 are inclined surfaces, and the front end surfaces of the two guide plates 51 are matched to form an outward splayed shape with a wide front and a narrow back. In the working state, the feeding belt drives the aluminum mold plate above the feeding belt to enter between the two guide plates 51.

The guiding mechanism 3 comprises a guide rod 31, a groove plate 32 and a pin shaft 33, the guide rod 31 is located above the feeding belt, the front end of the guide rod 31 is hinged with one side of the rack 1, and the pin shaft 33 is vertically arranged at the rear end of the guide rod 31. The slotted plate 32 is arranged at the front end of the guide plate 51 on the same side as the guide rod 31, the slotted plate 32 is provided with a long circular hole 321, and the pin shaft 33 is positioned in the long circular hole 321 and movably connected with the slotted plate 32. When the guide plates 51 move transversely, the rear ends of the guide rods 31 are linked with the guide plates 51, when the feeding belt drives the aluminum template above the guide rods to move backwards, the guide rods 31 guide the aluminum template to enter between the two guide plates 51, and the side guide wheels 52 on the two guide plates 51 ensure that the aluminum template moves backwards along a straight line.

The two edge milling mechanisms are arranged on the two adjustable working tables 41 in a bilateral symmetry mode and comprise first motors 61, cutter shafts 62 and milling cutter assemblies arranged on the cutter shafts 62, and the output ends of the first motors 61 drive the cutter shafts 62 to rotate. Specifically, the knife shafts 62 are transversely arranged on the front side of the lower portion of the adjustable workbench 41 through knife shaft seats 67, the two knife shafts 62 are coaxially arranged oppositely, and a spacer 8 is arranged outside each knife shaft 62. The first motors 61 are installed on the upper portion of the adjustable workbench 41, the output ends of the two first motors 61 are respectively provided with a large belt wheel 68, one end of each cutter shaft 62, which is away from each other, is provided with a small belt wheel 69, each large belt wheel 68 is connected with the small belt wheel 69 on the corresponding side through a transmission belt, and the first motors 61 drive the cutter shafts 62 to rotate through the large belt wheels 68 and the small belt wheels 69.

The cutter assembly is provided at opposite ends of two cutter shafts 62 and includes a side cutter 63 and a flat cutter 64, the flat cutters 64 and 63 being arranged adjacently along the cutter shafts 62, the two flat cutters 64 being located between the two side cutters 63. Two sets of side guide wheels 52 are located on the front and rear sides of the milling cutter assembly. The cutter shaft 62 drives the side milling cutter 63 and the flat milling cutter 64 at the end to rotate at high speed, so as to mill the side surfaces and the upper surface of the two sides of the aluminum template.

Further, a tool rest guide plate 65 is arranged on the front side of each adjustable workbench 41, and each tool rest guide plate 65 is fixedly connected with the adjustable workbench 41 on the same side through a lifting lug 66. The bottom of the tool rest guide plate 65 is provided with a U-shaped notch with a downward opening, the milling cutter assembly is located on the inner side of the U-shaped notch corresponding to the tool rest guide plate 65, a group of horizontal guide wheels at the lower end of each tool rest guide plate 65 respectively comprises two horizontal guide wheels 71, the two horizontal guide wheels 71 are located on the front side and the rear side of the U-shaped notch respectively, and in the backward movement process of the aluminum template, the two horizontal guide wheels 71 pre-tighten the front and rear parts of the aluminum template located on the milling cutter assembly to ensure the milling precision of the two sides of.

The invention realizes automatic continuous feeding, automatic guiding and aligning and one-time multilateral cutting, and improves the operation efficiency. The servo control sizing is adopted, so that the operation is quick and accurate, and the operation preparation time is saved. The pre-tightening mechanism enables the milling cutter to be in close contact with the workpiece, reduces errors and improves machining precision. The side milling cutter and the flat milling cutter of the edge milling mechanism synchronously cut two side edges and two upper edges of the template, so that the milling speed is high, the processing efficiency is greatly improved, the processing quality is improved, and the labor cost is reduced. Compared with the traditional processing mode, the efficiency is improved by more than 10 times, the plate edges are neatly scribed, the tolerance is controllable, the cutting surface is attractive, and the tolerance accumulation phenomenon of the jointed plate is eliminated.

Parts which are not described in the invention can be realized by adopting or referring to the prior art.

Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make modifications, alterations, additions or substitutions within the spirit and scope of the present invention.

Claims (8)

1. An automatic edge milling machine for aluminum alloy templates comprises a rack (1), a feeding device (2), a leading-in mechanism (3), a fixed-length distance adjusting mechanism (4), a guiding and positioning mechanism (5), a pre-tightening mechanism, an edge milling mechanism and an electric control system, and is characterized in that the rack (1) is of a steel frame structure, and the feeding device (2) is arranged at the upper part of the rack (1);

the feeding device (2) comprises a supporting plate (21), a feeding belt, a driving shaft (25), a driven shaft (22) and a driving mechanism, the driving shaft (25) and the driven shaft (22) are oppositely arranged on the rack (1) and are connected through the feeding belt, and the supporting plate (21) is horizontally arranged on the rack (1) and is positioned on the inner side of the feeding belt;

the guiding mechanism (3) comprises a guide rod (31), a groove plate (32) and a pin shaft (33), the guide rod (31) is positioned above the feeding belt, the front end of the guide rod is hinged with one side of the rack (1), and the pin shaft (33) is vertically arranged at the rear end of the guide rod (31); the slotted plate (32) is arranged at the front end of the guide plate (51) on the same side as the guide rod (31), the slotted plate (32) is provided with a long circular hole (321), and the pin shaft (33) is positioned in the long circular hole (321) and movably connected with the slotted plate (32);

the fixed-length distance adjusting mechanism (4) comprises two adjustable working tables (41), the two adjustable working tables (41) are arranged above the rear part of the rack (1) in a bilateral symmetry manner, and a pre-tightening mechanism is configured at the rear side of each adjustable working table (41);

the guide positioning mechanism (5) comprises two guide plates (51) which are symmetrically arranged, each guide plate (51) is respectively arranged at the bottom of the adjustable workbench (41) at the same side, and two groups of side guide wheels (52) are respectively arranged at the opposite sides of the two guide plates (51);

the two edge milling mechanisms are arranged on the two adjustable working tables (41) in a bilateral symmetry mode and comprise first motors (61), cutter shafts (62) and milling cutter assemblies arranged on the cutter shafts (62), and the output ends of the first motors (61) drive the cutter shafts (62) to rotate.

2. The automatic edge milling machine for the aluminum alloy template according to claim 1, wherein the driven shaft (22) and the driving shaft (25) are transversely arranged in parallel relatively and are respectively arranged at the front end and the rear end of the frame (1), a driving chain wheel (26) is respectively arranged at each end of the driving shaft (25), a driven chain wheel (23) is respectively arranged at each end of the driven shaft (22), and each driving chain wheel (26) is connected with the driven chain wheel (23) at the same side through a chain;

the driving mechanism comprises a second motor (24), the second motor (24) is arranged at the bottom of the rack (1), an output end of the second motor (24) drives the driving shaft (25) to rotate, and a signal end of the second motor (24) is in signal connection with the electric control system.

3. The automatic edge milling machine for the aluminum alloy template according to claim 1, wherein two upright posts (11) which are oppositely arranged are arranged at the rear upper part of the frame (1), a horizontal guide rail (42) is arranged between the two upright posts (11), and two guide rail seats (43) are symmetrically arranged on the horizontal guide rail (42);

the two guide rail seats (43) are in running fit with a transversely arranged bidirectional screw (47), one end of the bidirectional screw (47) is connected with the output end of a third motor (46) through a coupler (45), and the bidirectional screw (47) drives the two adjustable working tables (41) to move relatively or oppositely.

4. The automatic edge milling machine for the aluminum alloy template as recited in claim 1, wherein the pre-tightening mechanism comprises an air cylinder (7) and an electromagnetic valve, the air cylinder (7) is arranged on the guide rail seat (43), and the movable end of the air cylinder (7) is connected with the back of the adjustable workbench (41);

the back of each adjustable workbench (41) is provided with a vertical guide rail (44), the vertical guide rails (44) are in sliding fit with the front side of the guide rail seat (43), and the air cylinder (7) drives the two adjustable workbenches (41) to synchronously and vertically move.

5. The automatic edge milling machine for the aluminum alloy template as recited in claim 1, wherein the cutter shafts (62) are transversely arranged at the lower part of the adjustable workbench (41) through a cutter shaft seat (67), the two cutter shafts (62) are coaxially and oppositely arranged, and a spacer sleeve (8) is arranged outside each cutter shaft (62);

the first motors (61) are arranged at the upper part of the adjustable workbench (41), and the output ends of the two first motors (61) are respectively connected with the ends, away from each other, of the two cutter shafts (62) through a transmission belt;

the milling cutter assembly is arranged at one end, opposite to the two cutter shafts (62), of each milling cutter assembly and comprises a side milling cutter (63) and a flat milling cutter (64), the flat milling cutters (64) and the side milling cutters (63) are adjacently arranged along the cutter shafts (62), and the two flat milling cutters (64) are located between the two side milling cutters (63).

6. The automatic edge milling machine for the aluminum alloy template as recited in claim 5, wherein a tool rest guide plate (65) is arranged on the front side of each adjustable workbench (41), and each tool rest guide plate (65) is fixedly connected with the adjustable workbench (41) on the same side through a lifting lug (66);

the bottom of the tool rest guide plate (65) is provided with a U-shaped notch with a downward opening, the milling cutter assembly is positioned on the inner side of the U-shaped notch corresponding to the tool rest guide plate (65), the lower end of each tool rest guide plate (65) is provided with two horizontal guide wheels (71), and the two horizontal guide wheels (71) are respectively positioned on the front side and the rear side of the U-shaped notch.

7. The automatic edge milling machine for the aluminum alloy template as recited in claim 1, wherein each guide plate (51) is longitudinally and horizontally arranged above the feeding belt, and the upper surface of each guide plate is fixedly connected with the bottom of the corresponding adjustable workbench (41);

two sets of side guide wheels (52) are located the front and back both sides of milling cutter subassembly respectively, and all set up in the bottom of deflector (51), and every group side guide wheel (52) all includes a plurality of side guide wheels (52) of vertical interval arrangement in proper order.

8. The automatic edge milling machine for the aluminum alloy template as recited in claim 7, wherein the front end surfaces of the guide plates (51) are inclined surfaces, and the front end surfaces of the two guide plates (51) are matched to form an outward splayed shape with a wide front and a narrow back.

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