CN223394422U - Aluminum profile numerical control cutting sawing machine capable of adjusting any angle - Google Patents

Abstract

The utility model relates to the technical field of aluminum profile machining, and discloses an aluminum profile numerical control cutting sawing machine with an adjustable arbitrary angle. This aluminium alloy numerical control cutting sawing machine of adjustable arbitrary angle starts driving motor when need adjust cutting assembly's angle through being provided with connecting axle, pointer, worm, driving motor and turbine, driving motor drives the worm and rotates, because worm and turbine mutually support, so the worm rotates and can drive the mounting panel through turbine and connecting axle and rotate, thereby can adjust cutting assembly's angle, the convenience cuts the aluminium alloy according to user's demand, the front end at casing top is provided with the scale, the pointer can align with suitable scale when the mounting panel rotates, thereby can improve the accuracy of angle, the inconvenient angle of adjusting cutting assembly of solution, the problem that the flexibility is relatively poor.

Description

Aluminum profile numerical control cutting sawing machine capable of adjusting any angle

Technical Field

The utility model relates to the technical field of aluminum profile machining, in particular to an aluminum profile numerical control cutting sawing machine with adjustable arbitrary angles.

Background

The aluminum profile is obtained by hot melting and extrusion of aluminum bars, can be processed into various profiles, has excellent electrical conductivity, thermal conductivity and corrosion resistance, and is required to be processed into proper shapes or sizes by using an aluminum profile numerical control cutting sawing machine before being used.

The common numerical control cutting sawing machine for aluminum profiles has some problems, such as finding that aluminum materials need to be cut according to requirements when the cutting sawing machine is used, but the angle of a cutting assembly is inconvenient to adjust when the numerical control cutting sawing machine is used, and the flexibility is poor.

Therefore, we propose an aluminum profile numerical control cutting sawing machine with adjustable arbitrary angle to improve the problems.

Disclosure of utility model

The utility model aims to provide an aluminum profile numerical control cutting sawing machine with an adjustable arbitrary angle, which aims to solve the problems that the angle of a cutting assembly is inconvenient to adjust and the flexibility is poor in the background technology.

The numerical control cutting sawing machine for the aluminum profile with the adjustable arbitrary angle comprises supporting legs, wherein a protective shell is arranged at the rear end of the top of the workbench, a shell is arranged at the top end of the protective shell, a fixing plate is arranged at the top end of the shell, a cutting assembly is arranged at the front end of the right side of the fixing plate, and an adjusting structure which is convenient for adjusting the angle of the cutting assembly is arranged inside the shell;

The adjusting structure comprises a connecting shaft, a driving motor and a worm, wherein a scale is machined at the front end of the top of the shell, the driving motor is installed at the rear end of the shell, the worm is fixedly connected with the output end of the driving motor, the connecting shaft is movably connected with the inside of the shell, a turbine is fixedly connected with the outside of the connecting shaft, a mounting plate is fixedly connected with the top end of the connecting shaft, and a pointer is installed at the front end of the mounting plate.

Preferably, the two sides and the two ends of the top of the workbench are respectively fixedly connected with supporting legs, and the fixing plate is fixedly connected to the top end of the mounting plate.

Preferably, the worm and the turbine are matched with each other, and the pointer and the scale are matched with each other.

Preferably, hydraulic cylinder is installed to the both sides of workstation bottom, the backup pad is installed on hydraulic cylinder's top, the top fixedly connected with connecting block of backup pad, first servo motor is installed on the top on connecting block right side, the output fixedly connected with threaded rod of first servo motor, the bottom fixedly connected with gag lever post between the connecting block, threaded rod and the outside both sides of gag lever post are provided with the screw thread piece, the screw thread piece is close to the top fixedly connected with limiting plate of middle one side, one side fixedly connected with spacing slide bar in the middle is leaned on to the backup pad bottom.

Preferably, the threads on two sides of the outer part of the threaded rod are opposite, and the threaded rod is movably connected to the top ends between the connecting blocks.

Preferably, the limit sliding rod movably penetrates through two sides of the bottom end inside the workbench, and the threaded rod is arranged inside the workbench.

Preferably, the inside of protecting crust is provided with the fly leaf, the both ends fixedly connected with rack of fly leaf bottom, second servo motor is installed to the bottom of protecting crust, the output fixedly connected with pivot of second servo motor, the outside fixedly connected with second gear of pivot, the rear end of second gear is provided with first gear, the top fixedly connected with supporting shoe of fly leaf, supporting shoe fixedly connected with is in the bottom of casing.

Preferably, the first gear and the second gear are matched with each other, and the first gear and the second gear are arranged between racks.

Compared with the prior art, the numerical control cutting sawing machine for the aluminum profile with the adjustable arbitrary angle has the advantages that the angle of the cutting assembly can be conveniently adjusted, the limiting and lifting of the aluminum profile can be conveniently realized, and the left and right movement of the cutting assembly can be conveniently realized;

(1) Through being provided with casing, connecting axle, pointer, worm, driving motor and turbine, start driving motor when needing to adjust the angle of cutting the subassembly, driving motor drives the worm and rotates, because worm and turbine mutually support, so worm rotates and can drive the mounting panel through turbine and connecting axle and rotate, thereby can adjust the angle of cutting the subassembly, the convenience is cut the aluminium alloy according to user's demand, be provided with the scale at the front end at casing top, the pointer can align with suitable scale when the mounting panel rotates, thereby can improve the accuracy of angle;

(2) The first servo motor is started, the first servo motor drives the threaded rod to rotate, threads on two sides of the outer portion of the threaded rod are opposite, and the limiting plate is arranged on one side of the threaded block, so that the threaded rod rotates to enable the threaded block to drive the limiting plate to limit and fix the aluminum profile, the hydraulic cylinder is started after the aluminum profile is fixed, the hydraulic cylinder drives the connecting block to ascend through the supporting plate, and therefore the aluminum profile between the limiting plates can ascend to the bottom end of the cutting assembly to contact with the cutting assembly, and the aluminum profile can be conveniently cut by adjusting the height of the aluminum profile;

(3) Through being provided with supporting shoe, fly leaf, rack, first gear, second servo motor and pivot, when needing to make cutting assembly remove the position of adjusting cutting assembly, start second servo motor, second servo motor drives the second gear through the pivot and rotates, and the second gear then drives the rack through first gear and moves about, because the casing passes through the top of supporting shoe installation at the fly leaf, so the rack can drive cutting assembly through fly leaf and casing and move about, adjusts cutting assembly's position to can make things convenient for cutting assembly to cutting to the place of difference.

Drawings

FIG. 1 is a schematic cross-sectional elevation view of the present utility model;

FIG. 2 is a schematic top view of the housing of the present utility model;

FIG. 3 is a schematic view showing a bottom partial cross-sectional structure of a protective housing according to the present utility model;

fig. 4 is an enlarged schematic side view of the cutting assembly of the present utility model.

The device comprises a supporting leg 1, a working table 2, a supporting plate 3, a connecting block 4, a threaded block 5, a limiting plate 6, a 7, a protective shell 8, a shell 9, a mounting plate 10, a fixing plate 11, a cutting assembly 12, a connecting shaft 13, a pointer 14, a threaded rod 15, a first servo motor 16, a limiting rod 17, a hydraulic cylinder 18, a limiting slide rod 19, a supporting block 20, a worm 21, a driving motor 22, a turbine 23, a movable plate 24, a rack 25, a first gear 26, a second gear 27, a second servo motor 28 and a rotating shaft.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

1 Referring to fig. 1-4, an aluminum profile numerical control cutting sawing machine with adjustable arbitrary angles comprises a support leg 1, wherein a protective shell 7 is arranged at the rear end of the top of a workbench 2, a shell 8 is arranged at the top end of the protective shell 7, a fixing plate 10 is arranged at the top end of the shell 8, a cutting assembly 11 is arranged at the front end of the right side of the fixing plate 10, and an adjusting structure which is convenient for adjusting the angle of the cutting assembly 11 is arranged in the shell 8;

The adjusting structure comprises a connecting shaft 12, a driving motor 21 and a worm 20, wherein the front end of the top of the shell 8 is provided with scales, the rear end of the shell 8 is provided with the driving motor 21, the output end of the driving motor 21 is fixedly connected with the worm 20, the inside of the shell 8 is movably connected with the connecting shaft 12, the outside of the connecting shaft 12 is fixedly connected with a turbine 22, the top end of the connecting shaft 12 is fixedly connected with a mounting plate 9, and the front end of the mounting plate 9 is provided with a pointer 13;

The two sides and two ends of the top of the workbench 2 are fixedly connected with supporting legs 1 respectively, a fixing plate 10 is fixedly connected to the top end of the mounting plate 9, a worm 20 and a turbine 22 are matched with each other, and a pointer 13 and scales are matched with each other;

Specifically, as shown in fig. 1 and 2, when the angle of the cutting assembly 11 is to be adjusted, the driving motor 21 is started, the driving motor 21 drives the worm 20 to rotate, and because the worm 20 and the turbine 22 are mutually matched, the worm 20 rotates to drive the mounting plate 9 to rotate through the turbine 22 and the connecting shaft 12, so that the angle of the cutting assembly 11 can be adjusted, the aluminum profile can be conveniently cut according to the requirement of a user, scales are arranged at the front end of the top of the shell 8, and the connecting shaft 12 is aligned with the appropriate scales when the mounting plate 9 rotates, so that the accuracy of the angle can be improved.

The embodiment 2 comprises hydraulic cylinders 17 arranged on two sides of the bottom end of a workbench 2, a supporting plate 3 arranged on the top end of the hydraulic cylinders 17, a connecting block 4 fixedly connected with the top end of the supporting plate 3, a first servo motor 15 arranged on the top end of the right side of the connecting block 4, a threaded rod 14 fixedly connected with a limiting rod 16 arranged on the bottom end between the connecting blocks 4, a threaded block 5 arranged on two sides outside the threaded rod 14 and the limiting rod 16, a limiting plate 6 fixedly connected with the top end of the threaded block 5 close to one side in the middle, a limiting slide rod 18 fixedly connected with one side of the bottom end of the supporting plate 3 close to the middle, threads on two sides of the outer side of the threaded rod 14 opposite to each other, the threaded rod 14 movably connected with the top end between the connecting blocks 4, and the limiting slide rod 18 movably penetrates through two sides of the bottom end inside the workbench 2, and the threaded rod 14 and the first servo motor 15 are arranged inside the workbench 2;

Specifically, as shown in fig. 1, the first servo motor 15 is started, the first servo motor 15 drives the threaded rod 14 to rotate, and as the threads on two sides of the outer portion of the threaded rod 14 are opposite, and the limiting plate 6 is installed on one side of the threaded block 5, the threaded rod 14 rotates to enable the threaded block 5 to drive the limiting plate 6 to limit and fix the aluminum profile, after the aluminum profile is fixed, the hydraulic cylinder 17 is started, the hydraulic cylinder 17 drives the connecting block 4 to ascend through the supporting plate 3, so that the aluminum profile between the limiting plates 6 can ascend to the bottom end of the cutting assembly 11 to contact with the cutting assembly 11, and the aluminum profile can be conveniently cut by adjusting the height of the aluminum profile.

The embodiment 3 comprises a movable plate 23 arranged in a protective shell 7, racks 24 fixedly connected to two ends of the bottom of the movable plate 23, a second servo motor 27 arranged at the bottom end of the protective shell 7, a rotating shaft 28 fixedly connected to the output end of the second servo motor 27, a second gear 26 fixedly connected to the outer part of the rotating shaft 28, a first gear 25 arranged at the rear end of the second gear 26, a supporting block 19 fixedly connected to the top end of the movable plate 23, and a shell 8 fixedly connected to the bottom end of the supporting block 19, wherein the first gear 25 and the second gear 26 are mutually matched, and the first gear 25 and the second gear 26 are arranged between the racks 24;

Specifically, as shown in fig. 1 and 3, when the cutting assembly 11 needs to be moved to adjust the position of the cutting assembly 11, the second servo motor 27 is started, the second servo motor 27 drives the second gear 26 to rotate through the rotating shaft 28, the second gear 26 drives the rack 24 to move left and right through the first gear 25, and since the housing 8 is mounted on the top end of the movable plate 23 through the supporting block 19, the rack 24 can drive the cutting assembly 11 to move left and right through the movable plate 23 and the housing 8 to adjust the position of the cutting assembly 11, thereby being convenient for the cutting assembly 11 to cut different places.

The aluminum profile to be processed is placed between the limiting plates 6, the first servo motor 15 is started after the aluminum profile to be processed is placed, the first servo motor 15 drives the threaded rod 14 to rotate, the threaded rod 14 rotates to enable the threaded block 5 to drive the limiting plates 6 to limit and fix the aluminum profile, the second servo motor 27 is started after the aluminum profile is fixed, the second servo motor 27 drives the second gear 26 to rotate through the rotating shaft 28, the second gear 26 drives the rack 24 to move left and right through the first gear 25, the rack 24 can drive the cutting assembly 11 to move left and right through the movable plate 23 and the shell 8, the position of the cutting assembly 11 is adjusted, the driving motor 21 is started after the adjustment, the driving motor 21 drives the worm 20 to rotate, and the turbine 22 and the connecting shaft 12 can drive the mounting plate 9 to rotate, so that the angle of the cutting assembly 11 can be adjusted, the aluminum profile is conveniently cut according to the requirements of a user, the connecting shaft 12 can be aligned with a proper scale when the mounting plate 9 rotates, the front end of the top of the shell 8 is provided with a scale, the angle accuracy can be improved, the hydraulic cylinder 17 is started after the adjustment, the hydraulic cylinder 17 is driven to drive the hydraulic cylinder 3 to lift the supporting plate 4 to drive the cutting assembly 11 to lift the aluminum profile through the supporting plate 4, and the cutting assembly 11 can be contacted with the cutting assembly 11, and the bottom end 11 can be cut to the cutting assembly 11.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The numerical control cutting sawing machine for the aluminum profile with the adjustable arbitrary angle comprises a workbench (2) and is characterized in that a protective shell (7) is arranged at the rear end of the top of the workbench (2), a shell (8) is arranged at the top end of the protective shell (7), a fixing plate (10) is arranged at the top end of the shell (8), a cutting assembly (11) is arranged at the front end of the right side of the fixing plate (10), and an adjusting structure which is convenient for adjusting the angle of the cutting assembly (11) is arranged in the shell (8);

The adjusting structure comprises a connecting shaft (12), a driving motor (21) and a worm (20), wherein scales are machined at the front end of the top of a shell (8), the driving motor (21) is installed at the rear end of the shell (8), the worm (20) is fixedly connected with the output end of the driving motor (21), the connecting shaft (12) is movably connected with the inside of the shell (8), a turbine (22) is fixedly connected with the outside of the connecting shaft (12), a mounting plate (9) is fixedly connected with the top end of the connecting shaft (12), and a pointer (13) is installed at the front end of the mounting plate (9).

2. The numerical control cutting sawing machine for aluminum profiles with adjustable arbitrary angles according to claim 1 is characterized in that two sides and two ends of the top of the workbench (2) are fixedly connected with support legs (1) respectively, and the fixing plate (10) is fixedly connected to the top end of the mounting plate (9).

3. The numerical control cutting sawing machine for aluminum profiles with adjustable arbitrary angles according to claim 1 is characterized in that the worm (20) and the turbine (22) are matched with each other, and the pointer (13) and the scale are matched with each other.

4. The numerical control cutting sawing machine for aluminum profiles with adjustable arbitrary angles according to claim 1 is characterized in that hydraulic oil cylinders (17) are arranged on two sides of the bottom end of the workbench (2), a supporting plate (3) is arranged on the top end of each hydraulic oil cylinder (17), a connecting block (4) is fixedly connected to the top end of each supporting plate (3), a first servo motor (15) is arranged on the top end of the right side of each connecting block (4), a threaded rod (14) is fixedly connected to the output end of each first servo motor (15), a limiting rod (16) is fixedly connected to the bottom end between the connecting blocks (4), threaded blocks (5) are arranged on two sides of the outer portions of the threaded rods (14) and the limiting rods (16), a limiting plate (6) is fixedly connected to the top end, close to one side of the middle, of the bottom end of each supporting plate (3) is fixedly connected with a limiting sliding rod (18).

5. The numerical control cutting sawing machine for aluminum profiles with adjustable arbitrary angles according to claim 4 is characterized in that threads on two sides of the outer part of the threaded rod (14) are opposite, and the threaded rod (14) is movably connected to the top ends between the connecting blocks (4).

6. The numerical control cutting sawing machine for aluminum profiles with adjustable arbitrary angles according to claim 4, wherein the limiting slide bars (18) movably penetrate through two sides of the bottom end inside the workbench (2), and the threaded rods (14) are arranged inside the workbench (2).

7. The numerical control cutting sawing machine for aluminum profiles with adjustable arbitrary angles according to claim 1 is characterized in that a movable plate (23) is arranged in the protective shell (7), racks (24) are fixedly connected to two ends of the bottom of the movable plate (23), a second servo motor (27) is arranged at the bottom end of the protective shell (7), a rotating shaft (28) is fixedly connected to the output end of the second servo motor (27), a second gear (26) is fixedly connected to the outer portion of the rotating shaft (28), a first gear (25) is arranged at the rear end of the second gear (26), a supporting block (19) is fixedly connected to the top end of the movable plate (23), and the supporting block (19) is fixedly connected to the bottom end of the shell (8).

8. The numerical control cutting sawing machine for aluminum profiles with adjustable arbitrary angles according to claim 7 is characterized in that the first gear (25) and the second gear (26) are matched with each other, and the first gear (25) and the second gear (26) are arranged between racks (24).