CN112894568B - Surplus material removing device for aluminum door and window production - Google Patents

Abstract

The application relates to a removing device, in particular to a residual material removing device for aluminum door and window production. The application provides a surplus material removing device for aluminum door and window production, which is free of hands, improves productivity and is polished smoothly. A surplus material removing device for aluminum door and window production comprises: the support legs and the working plates are arranged between the tops of the four support legs; the lower side of the working plate is provided with a moving mechanism; and the primary clamping mechanism is arranged on the upper part of the working plate and is matched with the moving mechanism. According to the application, the belt pulley assembly and the main threaded rod are driven to rotate, so that the main threads drive the transverse moving plate to move backwards in a threaded mode, and then the primary clamping mechanism is driven.

Description

Surplus material removing device for aluminum door and window production

Technical Field

The application relates to a removing device, in particular to a residual material removing device for aluminum door and window production.

Background

The aluminum alloy door and window is characterized in that the door and window manufactured by taking an aluminum alloy extrusion profile as a frame and a sash material is called an aluminum alloy door and window, namely the aluminum alloy door and window for short, however, the produced aluminum door and window is provided with excess materials which cannot be put into use immediately, so that people need to remove the excess materials, the aluminum door and window which is suitable for use is polished, and the excess materials are removed manually by means of tools at present, so that the method belongs to repeated physical labor, precious time of people is required to be consumed, and the labor is consumed, and the hands of people are easy to be damaged.

In order to liberate hands of people and improve productivity, aluminum doors and windows suitable for use are polished, and an aluminum door and window production residue removing device capable of realizing automatic clamping, automatic polishing and automatic dust collection is needed to be designed.

Disclosure of Invention

The application aims to overcome the defects that the existing excess material removing mode consumes time and consumes physical strength, and provides an excess material removing device for aluminum door and window production, which is free of hands, improves productivity and polishes smoothly.

The technical proposal is as follows: a surplus material removing device for aluminum door and window production comprises:

the support legs and the working plates are arranged between the tops of the four support legs;

the lower side of the working plate is provided with a moving mechanism;

and the primary clamping mechanism is arranged on the upper part of the working plate and is matched with the moving mechanism.

As an improvement of the above, the moving mechanism includes:

the motor is arranged at the lower side of the working plate;

the lower side of the working plate is provided with a shaft support column;

the first transmission shaft is arranged on the motor output shaft and is rotationally connected with the shaft support column;

the bottom of the working plate is provided with a transverse moving plate in a sliding manner;

the lower side of the inner wall of the top of the working plate is connected with a main threaded rod in a threaded manner, and the main threaded rod is connected with the transverse moving plate in a threaded manner;

and the belt pulley assembly is connected between the main threaded rod and the first transmission shaft.

As an improvement of the above, the primary clamping mechanism includes:

the vertical moving plates are symmetrically arranged on two sides of the transverse moving plate;

the round head plate is connected with the outer side of the vertical moving plate in a sliding manner;

a return spring is connected between the round head plate and the outer side of the vertical moving plate, and the return spring is wound on the round head plate;

the contact block is arranged on the inner side of the round head plate.

As an improvement of the above scheme, the device further comprises a rotating mechanism, wherein the rotating mechanism comprises:

the upper side of the vertical moving plate is provided with an elongated rack;

the primary fixing frame is arranged on the upper part of the working plate;

the first full gear is rotationally connected with the primary fixing frame and meshed with the lengthened rack;

the first all-gear transmission shaft is connected with a main clamp block;

the main clamp type block is connected with the rotary threaded rod in a threaded manner;

the auxiliary clamp-shaped block is connected with the rotary threaded rod in a threaded manner.

As the improvement of above-mentioned scheme, still including grinding machanism, grinding machanism includes:

the primary fixing frame is provided with a square fixing frame;

the square fixing frame is rotatably connected with a second full gear which is meshed with the first full gear;

the lower side of the square fixing frame is provided with a shaft fixing frame;

the polishing disc is connected with the bottom end of the second all-gear transmission shaft and is rotationally connected with the shaft fixing frame.

As the improvement of above-mentioned scheme, still including dust extraction, dust extraction includes:

the pipe fixing rings are symmetrically arranged between the two sides of the primary fixing frame;

the two pipe fixing rings are connected with dust collection pipes;

the main dust collection beads are connected between the bottoms of the two dust collection pipes and the two supporting legs;

the third transmission shaft is rotatably arranged at the bottom side of the inner bottom of the main dust collection bead;

the first transmission shaft is connected with the second transmission shaft;

the bevel gear set is connected between the third transmission shaft and the second transmission shaft;

the third transmission shaft is provided with a fan blade.

As an improvement of the above scheme, the device further comprises an auxiliary clamping mechanism, wherein the auxiliary clamping mechanism comprises:

the two sides of the working plate are symmetrically provided with thickening fixing blocks;

the connecting columns are connected with the two thickened fixing blocks in a sliding mode, and the two connecting columns are connected with the round head plate;

the inner side of the connecting column is rotatably connected with the rotating ring.

As an improvement of the above scheme, the first transmission shaft is in a cylindrical shape.

Compared with the prior art, the application has the following advantages: 1. according to the application, the belt pulley assembly and the main threaded rod are driven to rotate, so that the main threads drive the transverse moving plate to move backwards in a threaded manner, and then drive the primary clamping mechanism to drive the aluminum door and window to move backwards, and the effect of moving the aluminum door and window is realized;

2. the contact block is manually moved outwards by people, so that the round head plate is moved outwards, and the reset spring is stretched, so that the effect of clamping the aluminum door and window is realized;

3. the first all-gear is driven to rotate, so that the main clamp-shaped block and the auxiliary clamp-shaped block rotate, and further, the residual materials on the aluminum door and window are removed in a rotating mode, and the effect of removing the residual materials in the rotating mode is achieved;

4. the first full gear is driven to rotate by the lengthened rack, and the second full gear is driven to rotate by the first full gear, so that the grinding disc is driven to rotate, and the effect of grinding the aluminum door and window with the surplus materials removed is realized;

5. the bevel gear set is driven to rotate by driving the second transmission shaft to rotate, so that the third transmission shaft rotates, and the fan blade rotates, so that the polished dust is sucked through the dust suction pipe, and the dust suction effect is realized;

6. the rotary ring is driven to move outwards through the connecting column, then the aluminum door and window is clamped, when the aluminum door and window moves backwards, the rotary ring rotates on the connecting column, namely, the auxiliary clamping effect is realized, and the front aluminum door and window is prevented from moving left and right when moving backwards.

Drawings

Fig. 1 is a schematic perspective view of the present application.

Fig. 2 is a schematic perspective view of a moving mechanism according to the present application.

Fig. 3 is a schematic perspective view of the clamping mechanism of the present application.

Fig. 4 is a schematic view of a first perspective structure of a rotating mechanism according to the present application.

Fig. 5 is a schematic view of a second perspective structure of the rotating mechanism of the present application.

Fig. 6 is a schematic perspective view of the polishing mechanism of the present application.

Fig. 7 is a schematic perspective view of a dust suction mechanism according to the present application.

Fig. 8 is a schematic perspective view of a power assembly of the clamping mechanism of the present application.

Fig. 9 is a schematic perspective view of an auxiliary clamping mechanism of the present application.

Reference numerals in the figures: 1. support legs, 2, working plate, 3, moving mechanism, 31, motor, 32, shaft support post, 33, first transmission shaft, 34, main threaded rod, 35, pulley assembly, 36, lateral moving plate, 4, primary clamping mechanism, 41, vertical moving plate, 42, contact block, 43, round head plate, 44, return spring, 5, rotating mechanism, 51, primary fixing frame, 52, lengthened rack, 53, first full gear, 54, main clamp block, 55, auxiliary clamp block, 56, rotating threaded rod, 6, polishing mechanism, 61, square fixing frame, 62, second full gear, 63, shaft fixing frame, 64, polishing disc, 7, dust suction mechanism, 71, tube fixing ring, 72, dust suction tube, 73, main dust suction bead, 74, second transmission shaft, 75, third transmission shaft, 76, bevel gear set, 77, fan blade, 8, auxiliary clamping mechanism, 81, thickened fixing block, 82, connecting column, 83, rotating ring.

Detailed Description

The above-described aspects are further described below in conjunction with specific embodiments. It should be understood that these examples are illustrative of the present application and are not intended to limit the scope of the present application. The implementation conditions used in the examples may be further adjusted according to the conditions of the specific manufacturer, and the implementation conditions not specified are generally those in routine experiments.

Example 1

The utility model provides an excess material remove device is used in aluminium system door and window production, as shown in FIG. 1, including supporting leg 1, work board 2, moving mechanism 3 and primary clamping mechanism 4, be equipped with work board 2 between four supporting leg 1 tops, work board 2 downside is equipped with moving mechanism 3, and work board 2 upper portion front side is equipped with primary clamping mechanism 4, and primary clamping mechanism 4 cooperates with moving mechanism 3.

When people need to remove the surplus material of the aluminum door and window, the surplus material removing device for the production of the aluminum door and window can be used, firstly, people put a whole aluminum door and window on the working plate 2, then the moving mechanism 3 is started, people manually move the primary clamping mechanism 4 to clamp the aluminum door and window, then the surplus material of the moving aluminum door and window is removed, after the surplus material is removed, the hands are loosened, the moving mechanism 3 is controlled to reversely move and reset, and finally the moving mechanism 3 is closed.

Example 2

On the basis of embodiment 1, as shown in fig. 2 and 3, the moving mechanism 3 comprises a motor 31, a shaft support column 32, a first transmission shaft 33, a main threaded rod 34, a belt pulley assembly 35 and a transverse moving plate 36, the motor 31 is installed on the lower side of the front part of the working plate 2, the shaft support column 32 is arranged on the lower side of the front part of the working plate 2, the first transmission shaft 33 is installed on the output shaft of the motor 31, the first transmission shaft 33 is rotationally connected with the shaft support column 32, the transverse moving plate 36 is slidingly arranged on the front side of the bottom of the working plate 2, the lower side of the inner wall of the top of the working plate 2 is connected with the main threaded rod 34 in a threaded manner, the main threaded rod 34 is connected with the transverse moving plate 36 in a threaded manner, and the belt pulley assembly 35 is connected between the front side of the main threaded rod 34 and the first transmission shaft 33.

People manually move the primary clamping mechanism 4 outwards, then the aluminum door and window is placed on the working plate 2, the aluminum door and window is clamped, then the motor 31 is started, the output shaft of the motor 31 drives the first transmission shaft 33 to rotate, and accordingly the belt pulley assembly 35 and the main threaded rod 34 are driven to rotate, so that the main threads drive the transverse moving plate 36 to move backwards in a threaded mode, and further drive the primary clamping mechanism 4 to move, and further drive the aluminum door and window to move backwards, namely the effect of moving the aluminum door and window is achieved, people only need to stand on the left side of the front portion of the working plate 2 to remove the surplus materials, the time for people to walk back and forth is saved, the motor 31 is controlled to rotate reversely after the surplus materials are removed, and the primary clamping mechanism 4 moves backwards to reset.

The primary clamping mechanism 4 comprises a vertical moving plate 41, a contact block 42, a round head plate 43 and a return spring 44, wherein the vertical moving plate 41 is symmetrically arranged on the left side and the right side of the transverse moving plate 36, the round head plate 43 is connected to the outer side of the vertical moving plate 41 in a sliding mode, the return spring 44 is connected between the round head plate 43 and the outer side of the vertical moving plate 41, the return spring 44 is wound on the round head plate 43, and the contact block 42 is arranged on the inner side of the round head plate 43.

People manually move the contact blocks 42 outwards to enable the round head plate 43 to move outwards, so that the reset spring 44 is stretched, then the door and window is placed between the two contact blocks 42, namely, the effect of clamping the aluminum door and window is achieved, when the main threaded rod 34 drives the transverse moving plate 36 to move backwards in a threaded mode, the transverse moving plate 36 drives the vertical moving plate 41 to move backwards, so that the round head plate 43 and the contact blocks 42 are driven to move backwards, further the aluminum door and window are driven to move backwards, people can take out the aluminum door and window when the residual materials are removed, and the reset spring 44 drives the round head plate 43 and the contact blocks 42 to reset.

Example 3

On the basis of embodiment 2, as shown in fig. 4-9, the rotary mechanism 5 further comprises a rotary mechanism 5, the rotary mechanism 5 comprises a primary fixing frame 51, an elongated rack 52, a first full gear 53, a main clamp-shaped block 54, a secondary clamp-shaped block 55 and a rotary threaded rod 56, the elongated rack 52 is arranged on the upper side of the left vertical moving plate 41, the primary fixing frame 51 is arranged on the front side of the upper part of the working plate 2, the primary fixing frame 51 is rotatably connected with a first full gear 53, the first full gear 53 is meshed with the elongated rack 52, a main clamp-shaped block 54 is connected on a transmission shaft of the first full gear 53, the right side of the main clamp-shaped block 54 is in threaded connection with the rotary threaded rod 56, and the right side of the rotary threaded rod 56 is in threaded connection with the secondary clamp-shaped block 55.

When the aluminum door and window is clamped, people put door and window clout between the main clamp block 54 and the auxiliary clamp block 55, then manually rotate the rotary threaded rod 56, so that the main clamp block 54 and the auxiliary clamp block 55 move together in opposite directions, the effect of clamping the clout is achieved, when the transverse moving plate 36 drives the vertical moving plate 41 to move backwards, the vertical moving plate 41 drives the lengthened rack 52 to move backwards, and accordingly the first full gear 53 is driven to rotate, so that the main clamp block 54 and the auxiliary clamp block 55 rotate, further, the clout on the aluminum door and window is removed in a rotating mode, namely the effect of removing the clout in a rotating mode is achieved, the operation of removing the clout manually is reduced, when the clout is removed, people manually rotate the rotary threaded rod 56, the auxiliary clamp block 55 moves outwards, and people take out the removed clout.

Still including grinding machanism 6, grinding machanism 6 is including square mount 61, second all gear 62, axle mount 63 and polishing dish 64, and primary mount 51 rear portion is equipped with square mount 61, and square mount 61 is last to be connected with second all gear 62 in the rotation, and second all gear 62 meshes with first all gear 53, and square mount 61 downside is equipped with axle mount 63, and second all gear 62 transmission shaft bottom is connected with polishing dish 64, and polishing dish 64 is connected with axle mount 63 rotation.

When the lengthened rack 52 drives the first full gear 53 to rotate, the first full gear 53 drives the second full gear 62 to rotate, so that the polishing disc 64 is driven to rotate, and the effect of polishing the aluminum door and window with the excess materials removed is achieved.

Still including dust absorption mechanism 7, dust absorption mechanism 7 is including pipe solid fixed ring 71, dust absorption pipe 72, main dust absorption pearl 73, second transmission shaft 74, third transmission shaft 75, bevel gear group 76 and fan piece 77, the symmetry is equipped with pipe solid fixed ring 71 between the primary mount 51 left and right sides, all be connected with dust absorption pipe 72 on two pipe solid fixed rings 71, be connected with main dust absorption pearl 73 between two supporting legs 1 of two dust absorption pipe 72 bottoms and front side, main dust absorption pearl 73 bottom rotation is equipped with third transmission shaft 75, be connected with second transmission shaft 74 on the first transmission shaft 33, be connected with bevel gear group 76 between third transmission shaft 75 and the second transmission shaft 74, be equipped with fan piece 77 on the third transmission shaft 75.

The output shaft of the motor 31 drives the first transmission shaft 33 to rotate, thereby driving the second transmission shaft 74 to rotate, thereby driving the bevel gear set 76 to rotate, thereby enabling the third transmission shaft 75 to rotate, thereby enabling the fan blade 77 to rotate, and further enabling the polished dust to be sucked in through the dust suction pipe 72, namely, the dust suction effect is realized.

The device is characterized by further comprising an auxiliary clamping mechanism 8, wherein the auxiliary clamping mechanism 8 comprises thickened fixing blocks 81, connecting columns 82 and rotating rings 83, the thickened fixing blocks 81 are symmetrically arranged on the left side and the right side of the front portion of the working plate 2, the connecting columns 82 are connected to the two thickened fixing blocks 81 in a sliding mode, the rotating rings 83 are connected to the inner sides of the connecting columns 82 in a rotating mode, and the rear sides of the connecting columns 82 are connected with the round head plates 43.

People manually move the contact block 42 to the outside to enable the round head plate 43 to move to the outside, so that the connecting column 82 drives the rotating ring 83 to move to the outside, then the aluminum door and window is clamped, when the aluminum door and window moves backwards, the rotating ring 83 rotates on the connecting column 82, namely, the effect of auxiliary clamping is achieved, the front aluminum door and window is prevented from moving left and right when moving backwards, and after the left door and window is removed, the round head plate 43 drives the connecting column 82 to move inwards to reset.

The above embodiments are only preferred embodiments of the present application and are not intended to limit the scope of the present application, so that all equivalent modifications made by the appended claims shall be included in the scope of the present application.

Claims (6)

1. Surplus material remove device is used in production of aluminium system door and window, characterized by includes:

the support legs (1) and the working plates (2), wherein the working plates (2) are arranged between the tops of the four support legs (1);

a moving mechanism (3), wherein the moving mechanism (3) is arranged at the lower side of the working plate (2);

the primary clamping mechanism (4), the primary clamping mechanism (4) is arranged at the upper part of the working plate (2), and the primary clamping mechanism (4) is matched with the moving mechanism (3);

the moving mechanism (3) comprises:

a motor (31), wherein the motor (31) is arranged at the lower side of the working plate (2);

the shaft support column (32) is arranged at the lower side of the working plate (2);

the first transmission shaft (33) is arranged on the output shaft of the motor (31), and the first transmission shaft (33) is rotationally connected with the shaft support column (32);

a transverse moving plate (36), wherein the bottom of the working plate (2) is provided with the transverse moving plate (36) in a sliding manner;

the lower side of the inner wall of the top of the working plate (2) is connected with a main threaded rod (34) in a threaded manner, and the main threaded rod (34) is connected with a transverse moving plate (36) in a threaded manner;

the belt pulley assembly (35), the belt pulley assembly (35) is connected between the main threaded rod (34) and the first transmission shaft (33);

the primary clamping mechanism (4) comprises:

the vertical moving plates (41) are symmetrically arranged on two sides of the transverse moving plate (36);

the round head plate (43) is connected with the round head plate (43) outside the vertical moving plate (41) in a sliding manner;

a return spring (44), wherein the return spring (44) is connected between the round head plate (43) and the outer side of the vertical moving plate (41), and the return spring (44) is wound on the round head plate (43);

and the contact block (42) is arranged on the inner side of the round head plate (43).

2. The excess material removing apparatus for producing aluminum doors and windows as claimed in claim 1, further comprising a rotation mechanism (5), wherein the rotation mechanism (5) comprises:

an elongated rack (52), the upper side of the vertical moving plate (41) is provided with the elongated rack (52);

the primary fixing frame (51) is arranged on the upper part of the working plate (2);

the primary fixing frame (51) is rotationally connected with a first full gear (53), and the first full gear (53) is meshed with the lengthened rack (52);

a main clamp block (54), wherein the main clamp block (54) is connected to the transmission shaft of the first all gear (53);

a rotary threaded rod (56), and the main clamp block (54) is connected with the rotary threaded rod (56) in a threaded manner;

the auxiliary clamp-shaped block (55), and the rotary threaded rod (56) is connected with the auxiliary clamp-shaped block (55) in a threaded mode.

3. The excess material removing device for producing aluminum doors and windows according to claim 2, further comprising a polishing mechanism (6), wherein the polishing mechanism (6) comprises:

a square fixing frame (61), wherein the square fixing frame (61) is arranged on the primary fixing frame (51);

the square fixing frame (61) is rotationally connected with a second full gear (62), and the second full gear (62) is meshed with the first full gear (53);

the lower side of the square fixing frame (61) is provided with the shaft fixing frame (63);

the polishing disc (64) is connected with the bottom end of the transmission shaft of the second all gear (62), and the polishing disc (64) is rotationally connected with the shaft fixing frame (63).

4. A remainder removing device for producing aluminum doors and windows as claimed in claim 3, further comprising a dust suction mechanism (7), wherein the dust suction mechanism (7) comprises:

the pipe fixing rings (71) are symmetrically arranged between the two sides of the primary fixing frame (51);

the dust collection pipes (72) are connected to the two pipe fixing rings (71);

a main dust collection bead (73), wherein the main dust collection bead (73) is connected between the bottoms of the two dust collection pipes (72) and the two support legs (1);

a third transmission shaft (75), wherein the third transmission shaft (75) is rotatably arranged at the inner bottom of the main dust collection bead (73);

the second transmission shaft (74), connect with the second transmission shaft (74) on the first transmission shaft (33);

the bevel gear set (76) is connected between the third transmission shaft (75) and the second transmission shaft (74);

and the fan blade (77) is arranged on the third transmission shaft (75).

5. The excess material removing apparatus for producing aluminum doors and windows as recited in claim 4, further comprising an auxiliary clamping mechanism (8), wherein the auxiliary clamping mechanism (8) comprises:

the two sides of the working plate (2) are symmetrically provided with the thickening fixed blocks (81);

the connecting columns (82) are connected with the connecting columns (82) on the two thickening fixed blocks (81) in a sliding mode, and the two connecting columns (82) are connected with the round head plate (43);

and a rotating ring (83), wherein the rotating ring (83) is rotatably connected to the inner side of the connecting column (82).

6. A remainder removing device for producing aluminum doors and windows according to claim 5, wherein the first drive shaft (33) has a cylindrical shape.