CN112718932B - Aluminum alloy door and window section bar correction processing system - Google Patents

Abstract

The invention relates to an aluminum alloy door and window profile correction processing system, which relates to the technical field of correction and repair of aluminum alloy doors and windows, and comprises a clamping mechanism for clamping an aluminum alloy door and window profile, a steering mechanism for rotating the clamping mechanism and a moving mechanism which works repeatedly; the moving mechanism comprises an installation pillar, an installation plate, a moving groove, a sliding groove, a rotating motor, a moving screw, a moving block and an installation block, the steering mechanism comprises a steering groove, a rotating column, a first matching groove, a second matching groove, a third matching groove, a first locking block, a second locking block, a third locking block and a pull ring, the clamping mechanism comprises a limiting groove, a limiting block, a matching plate, an internal groove, a driving rack, a driving gear, a clamping groove, a clamping block and a rotation adjusting assembly. The invention has the effects of angle adjustment, multi-surface repair and labor saving.

Description

Aluminum alloy door and window section bar correction processing system

Technical Field

The invention relates to the technical field of aluminum alloy doors and windows, in particular to a straightening treatment system for aluminum alloy door and window profiles.

Background

An aluminium alloy door and window is made up of extruded aluminium alloy sections as frame, stile and sash through mixing, and features that the aluminium alloy section is a low-strength and high-plasticity metal, and the aluminium alloy section is made up of pure aluminium and an alloy element for improving its strength and comprehensive performance.

According to the existing aluminum alloy door and window section bar correcting and repairing method, when a worker observes that aluminum alloy is bent or sunken, the sunken or bent aluminum alloy is straightened or flattened by smashing in a manual tool using mode, secondary damage is easily caused by poor control, and the worker feels tired when repairing a large number of aluminum alloy doors and windows, so that the labor amount of the worker is increased.

The above prior art solutions have the following drawbacks: when restoreing the correction to aluminum alloy door and window, often can use a large amount of manpowers, need with crooked or sunken position manual break off with the fingers and thumb straight or strike the tie, the workman's that increases the amount of labour, and at the during operation, do not good handle the accuse dynamics, cause the secondary harm to aluminum alloy door and window easily, so correct the space that can improve when restoreing aluminum alloy door and window still.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an aluminum alloy door and window profile correction processing system which has the effects of angle adjustment, multi-surface repair and labor saving.

The above object of the present invention is achieved by the following technical solutions:

a straightening treatment system for aluminum alloy door and window profiles comprises a clamping mechanism for clamping the aluminum alloy door and window profiles, a steering mechanism for rotating the clamping mechanism and a moving mechanism which works repeatedly;

the moving mechanism comprises mounting pillars, a mounting plate, a moving groove, a sliding groove, a rotating motor, a moving screw, a moving block and a mounting block, wherein the mounting pillars are distributed in a rectangular shape and fixedly mounted on the ground;

the steering mechanism comprises a steering groove, a rotating column, a first matching groove, a second matching groove, a third matching groove, a first locking block, a second locking block, a third locking block and a pull ring, wherein the steering groove is formed in the lower end face of the mounting block and extends upwards;

the clamping mechanism comprises a limiting groove, a limiting block, a matching plate, a built-in groove, a driving rack, a driving gear, a clamping groove, a clamping block and a rotation adjusting assembly, wherein the limiting groove is symmetrically arranged on the outer surface of the rotating column, the limiting block is symmetrically arranged in the limiting groove in a sliding manner, the matching block is symmetrically and fixedly arranged on the lower end surface of the limiting block, the matching plate is fixedly arranged on the lower end surface of the matching block, the built-in groove is arranged inside the matching plate, the driving rack is symmetrically arranged in the built-in groove in a sliding manner, the driving gear is rotatably arranged in the built-in groove and is meshed with the driving rack, the clamping groove is arranged on the lower end surface of the matching plate and is communicated with the built-in groove, the clamping block is fixedly arranged below the driving rack and slides in the clamping groove, and the rotation adjusting assembly is arranged on the matching plate.

As a preferred technical scheme, the rotation adjusting assembly comprises a rotation groove, an adjusting block, a first penetrating groove, a second penetrating groove, a locking column, a locking plate and a locking spring, the rotation groove is formed in the upper end face of a matching plate and is communicated with an internal groove, the adjusting block is installed in the rotation groove in a sliding mode and is fixedly connected with a driving gear, the first penetrating groove is symmetrically formed in the side face of the matching block, the second penetrating groove is symmetrically formed in the outer surface of the adjusting block, the locking column penetrates and slides in the first penetrating groove and the second penetrating groove, the locking plate is fixedly installed on the outer surface of the locking column, one end of the locking spring is fixedly installed on the side wall of the matching block, and the other end of the locking spring is fixedly installed on the locking plate.

As a preferred technical scheme, the pull ring locking device further comprises a pointer and angle scale marks, wherein the pointer and the angle scale marks are matched with the third locking block, the pointer is fixedly installed on the outer surface of the installation block and is located above the third locking block, and the angle scale marks are carved on the end face, close to the pull ring, of the third locking block.

As a preferred technical scheme, the clamping device further comprises a rolling groove and a rolling block which are matched with the clamping block, the rolling groove is symmetrically formed in one end face of the clamping block, and the rolling block is sequentially rotatably arranged in the rolling groove.

As the preferred technical scheme of the invention, one end face of the first locking block, the second locking block and the third locking block which are matched with each other is of a gear tooth-shaped structure which is convenient for limiting and locking.

As a preferred technical scheme of the invention, the built-in groove consists of a driving rack installation sliding groove and a driving gear installation groove which are mutually symmetrical.

In summary, the invention includes at least one of the following beneficial technical effects:

1. through the clamping mechanism and the steering mechanism, when the direction of the aluminum alloy door and window needing to be repaired needs to be changed, only the pull ring needs to be pulled and then the 90-degree angle needing to be rotated is rotated, then the rotating column is pushed in, so that the locking blocks are mutually matched, the rotation cannot occur, through adjusting the adjusting block, the clamping blocks simultaneously clamp the aluminum alloy door and window needing to be repaired, the angle needing to be repaired can be adjusted more flexibly, the place needing to be repaired does not need to be knocked manually, and the manual labor is greatly reduced;

2. the moving mechanism is characterized in that a motor is rotated to drive a moving screw to rotate, so that a moving block moves in a moving groove, and a clamping device arranged on an installation block can better repeatedly move on an aluminum alloy door window needing to be repaired without manual operation of workers, the labor amount of the workers is reduced, and the repairing efficiency is better improved;

3. through the angle scale mark of carving, can be better more audio-visual when rotating the pull ring observe rotatory angle, make things convenient for workman's operation also to solve the uncontrollable problem of angle when rotatory, further improved the efficiency of during operation.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a front cross-sectional view of the main body construction of the present invention;

FIG. 3 is an enlarged view of a portion of the invention at A in FIG. 2;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 2 in accordance with the present invention;

FIG. 5 is a cross-sectional view taken along line C-C of FIG. 4 in accordance with the present invention;

FIG. 6 is a schematic view of the main structure of the clamping mechanism of the present invention;

fig. 7 is a schematic structural diagram of a work object body of the present invention.

In the figure, 1, a clamping mechanism; 2. a steering mechanism; 3. a moving mechanism; 31. mounting a support column; 32. mounting a plate; 33. a moving groove; 34. a sliding groove; 35. rotating the motor; 36. moving the screw; 37. a moving block; 38. mounting blocks; 21. a steering groove; 22. rotating the column; 23. a first mating groove; 24. a second mating groove; 25. a third matching groove; 26. a first locking block; 27. a second locking block; 28. a locking block III; 29. a pull ring; 11. a limiting groove; 12. a limiting block; 13. a matching block; 14. a mating plate; 15. a built-in groove; 16. driving the rack; 17. a driving gear; 18. a clamping groove; 19. a clamping block; 4. a rotation adjustment assembly; 41. a rotating tank; 42. an adjusting block; 43. a first penetrating slot; 44. a second penetration groove; 45. a locking post; 46. a locking plate; 47. a locking spring; 281. a pointer; 282. angle scale lines; 191. a rolling groove; 192. a scroll box.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the straightening treatment system for the aluminum alloy door and window profile comprises a clamping mechanism 1 for clamping the aluminum alloy door and window profile, a steering mechanism 2 for rotating the clamping mechanism 1, and a moving mechanism 3 which works repeatedly.

Referring to fig. 1 and 2, the moving mechanism 3 includes four mounting pillars 31, a mounting plate 32, a moving groove 33, a sliding groove 34, a rotating motor 35, a moving screw 36, a moving block 37, and a mounting block 38, the mounting pillars 31 are distributed in a rectangular shape and fixedly mounted on the ground, the mounting plate 32 is fixedly mounted on the upper end surface of the mounting pillar 31, the moving groove 33 is disposed on the upper end surface of the mounting plate 32, the moving screw 36 is rotatably mounted in the moving groove 33, the sliding groove 34 is disposed on one side surface of the mounting plate 32 and is communicated with the moving groove 33, the rotating motor 35 is fixedly mounted on the side surface of the mounting plate 32, and the output end thereof penetrates through the sliding groove 34 and is fixedly connected with the moving screw 36, the moving block 37 is screwed on the outer surface of the moving screw 36, and the mounting block 38 is fixedly mounted on the lower end surface of the moving block 37; in specific work, a worker turns on the rotating motor 35, so that the rotating motor 35 drives the moving screw 36 to rotate, thereby enabling the moving block 37 to slide on the moving screw 36, and it should be noted that the rotating motor 35 is a forward and reverse rotating motor to ensure that the clamping mechanism 1 arranged at the lower end of the mounting block 38 can move repeatedly.

Referring to fig. 2 and 3, the steering mechanism 2 includes a steering groove 21, a rotating column 22, a first matching groove 23, a second matching groove 24, a third matching groove 25, a first locking block 26, a second locking block 27, a third locking block 28 and a pull ring 29, the steering groove 21 is arranged on the lower end surface of the mounting block 38 and extends upwards, the first matching groove 23 and the second matching groove 24 are respectively symmetrically arranged on two side walls of the steering groove 21, the side wall of the mounting block 38 close to the lower end is provided with the third matching groove 25, the third matching groove 25 is communicated with the second matching groove 24, the first locking block 26 is fixedly arranged on the inner wall of the first matching groove 23, the second locking block 27 is fixedly arranged on the inner wall of the third matching groove 25, the rotating column 22 is installed in a cavity formed by the first matching groove 23, the second matching groove 24 and the third matching groove 25 in a sliding mode, the third locking block 28 is fixedly arranged on the right end surface of the rotating column 22, and the pull ring 29 is fixedly arranged on the right end surface of the third locking block 28; during specific work, if the rotation direction is needed, a worker pulls the pull ring 29 to pull outwards, then rotates the angle needing to rotate, and after the rotation angle is determined, the rotation column 22 is pushed into the first matching groove 23; it should be noted that an end face of the first locking block 26, the second locking block 27, and the third locking block 28, which are engaged with each other, and an end face of the first locking block 26 opposite to the rotation column 22 are tooth-shaped structures for facilitating the limit locking, so that the first locking block 26, the second locking block 27, and the third locking block can be clamped with each other after being pushed in, and the first locking block 26 and the second locking block can not be turned over again.

Referring to fig. 4, 5 and 6, the clamping mechanism 1 includes a limiting groove 11, a limiting block 12, a matching block 13, a matching plate 14, an internal groove 15, a driving rack 16, a driving gear 17, a clamping groove 18, a clamping block 19 and a rotation adjusting assembly 4, the limiting groove 11 is symmetrically arranged on the outer surface of a rotation column 22, the limiting block 12 is symmetrically installed in the limiting groove 11 in a sliding manner, it should be noted that a worker pulls a pull ring 29 to move the rotation column 22, at this time, the limiting block 12 abuts against the right side wall of the steering groove 21, the worker continues to pull the pull ring 29 to slide the limiting block 12 in the limiting groove 11, after the worker finishes rotating the clamping mechanism 1, the worker pushes the pull ring 29 to cause the limiting block 12 to abut against the left side wall of the steering groove 21 again, at this time, the limiting block 12 slides in the limiting groove 11 until the rotation column 22 is completely clamped with a first locking block 26; the matching block 13 is symmetrically and fixedly arranged on the lower end face of the limiting block 12, the matching plate 14 is fixedly arranged on the lower end face of the matching block 13, the built-in groove 15 is arranged inside the matching plate 14, and it is noted that the built-in groove 15 consists of two rectangular grooves for mounting the driving rack 16 and a circular groove for mounting the driving gear 17, and the circular groove is positioned between the two rectangular grooves; the driving racks 16 are respectively installed in the two rectangular grooves of the built-in groove 15 in a sliding manner, the driving gear 17 is rotatably installed in the circular groove of the built-in groove 15 and is meshed with the driving racks 16, the clamping grooves 18 are formed in the lower end face of the matching plate 14 and are communicated with the built-in groove 15, the clamping blocks 19 are respectively and fixedly installed on the lower end faces of the two driving racks 16 and slide in the clamping grooves 18, it is noted that the two clamping blocks 19 are oppositely arranged, the two clamping blocks 19 are respectively arranged at one end, far away from the two driving racks 16, and are controlled by the driving racks 16, and the rotation adjusting assembly 4 is installed on the matching plate 14; the rotary adjusting assembly 4 comprises a rotary groove 41, an adjusting block 42, a first penetrating groove 43, a second penetrating groove 44, a locking column 45, a locking plate 46 and a locking spring 47, wherein the rotary groove 41 is arranged on the upper end surface of the matching plate 14 and is communicated with the built-in groove 15, the adjusting block 42 is slidably arranged in the rotary groove 41 and is fixedly connected with the driving gear 17, the first penetrating groove 43 is symmetrically arranged on the side surface of the matching block 13, the second penetrating groove 44 is symmetrically arranged on the outer surface of the adjusting block 42, the locking column 45 is slidably arranged in the first penetrating groove 43 and the second penetrating groove 44, the locking plate 46 is fixedly arranged on the outer surface of the locking column 45, and one end of the locking spring 47 is fixedly arranged on the side wall of the matching block 13 and the other end of the locking spring is fixedly arranged on the locking plate 46; during specific work, after the steering mechanism 2 is adjusted, a worker manually rotates the adjusting block 42 clockwise to enable the driving gear 17 connected with the adjusting block 42 to rotate clockwise, so that the two driving racks 16 are driven to move close to each other in the built-in groove 15, and the clamping blocks 19 fixedly mounted on the lower end faces of the two driving racks 16 are enabled to approach each other, otherwise, the worker rotates the adjusting block 42 anticlockwise to enable the driving gear 17 connected with the adjusting block 42 to rotate anticlockwise, so that the two driving racks 16 are driven to move away from each other in the built-in groove 15, and the clamping blocks 19 fixedly mounted on the lower end faces of the two driving racks 16 are enabled to move away from each other; so as to clamp the aluminum alloy door and window to be repaired, and at the moment, the moving mechanism 3 drives the clamping mechanism 1 to repeatedly move on the aluminum alloy door and window to be repaired, so as to realize the repair of the aluminum alloy door and window; it should be noted that the built-in groove 15 is composed of a mutually symmetrical installation sliding groove 34 for driving the rack 16 and an installation groove for the driving gear 17, the clamping block 19 is further provided with a rolling groove 191 and a rolling block 192 which are mutually matched, the rolling groove 191 is symmetrically arranged on one end face of the clamping block 19, and the rolling block 192 is sequentially and rotatably installed in the rolling groove 191.

Referring to fig. 1, the rotation angle adjusting device further comprises a pointer 281 and angle scale lines 282, the pointer 281 and the angle scale lines 282 are matched with the third locking block 28, the pointer 281 is fixedly installed on the outer surface of the installation block 38 and located above the third locking block 28, the angle scale lines 282 are carved on the end face, close to the pull ring 29, of the third locking block 28, and when a worker pulls the pull ring 29 to rotate the rotation column 22 during specific work, the worker can intuitively adjust the rotation angle by observing the angle scale lines 282.

The implementation principle of the embodiment is as follows:

(1) The worker pulls the pull ring 29 and rotates so that the clamping mechanism 1 is rotated to 90 degrees in line with the aluminum alloy door and window to be repaired.

(2) The worker can clamp the aluminum alloy door and window by the clamping block 19 by rotating the adjusting block 42 at the damaged position of the aluminum alloy door and window.

(3) The worker opens the rotating motor 35, and the rotating motor 35 drives the clamping mechanism 1 to move on the aluminum alloy door and window repeatedly, so that the damaged aluminum alloy door and window can be repaired.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: equivalent changes made according to the structure, shape and principle of the invention shall be covered by the protection scope of the invention.

Claims (6)

1. The utility model provides a processing system is corrected to aluminum alloy door and window section bar which characterized in that: comprises a clamping mechanism (1) for clamping the aluminum alloy door and window section bar, a steering mechanism (2) for rotating the clamping mechanism (1) and a moving mechanism (3) which works repeatedly;

the moving mechanism (3) comprises mounting pillars (31), a mounting plate (32), a moving groove (33), a sliding groove (34), a rotating motor (35), a moving screw (36), a moving block (37) and a mounting block (38), the mounting pillars (31) are distributed in a rectangular shape and fixedly mounted on the ground, the mounting plate (32) is fixedly mounted on the upper end face of the mounting pillars (31), the moving groove (33) is formed in the upper end face of the mounting plate (32), the moving screw (36) is rotatably mounted in the moving groove (33), the sliding groove (34) is formed in one side face of the mounting plate (32) and communicated with the moving groove (33), the rotating motor (35) is fixedly mounted on the side face of the mounting plate (32), the output end of the rotating motor penetrates through the sliding groove (34) and is fixedly connected with the moving screw (36), the moving block (37) is in threaded connection with the outer surface of the moving screw (36), and the mounting block (38) is fixedly mounted on the lower end face of the moving block (37);

the steering mechanism (2) comprises a steering groove (21), a rotating column (22), a first matching groove (23), a second matching groove (24), a third matching groove (25), a first locking block (26), a second locking block (27), a third locking block (28) and a pull ring (29), wherein the steering groove (21) is formed in the lower end face of an installation block (38) and extends upwards, the first matching groove (23) and the second matching groove (24) are respectively symmetrically formed in two side walls of the steering groove (21), the third matching groove (25) is formed in the side wall, close to the lower end, of the installation block (38), the third matching groove (25) is communicated with the second matching groove (24), the first locking block (26) is fixedly installed on the inner wall of the first matching groove (23), the second locking block (27) is fixedly installed on the inner wall of the third matching groove (25), the first matching groove (23), the second matching groove (24) and the third matching groove (25) are fixedly installed in a cavity formed by the rotating column (22), and the right sliding block (28) is installed on the right end face of the sliding column (22);

the clamping mechanism (1) comprises a limiting groove (11), a limiting block (12), a matching block (13), a matching plate (14), a built-in groove (15), a driving rack (16), a driving gear (17), a clamping groove (18), a clamping block (19) and a rotation adjusting assembly (4), wherein the limiting groove (11) is symmetrically arranged on the outer surface of a rotation column (22), the limiting block (12) is symmetrically and slidably arranged in the limiting groove (11), the matching block (13) is symmetrically and fixedly arranged on the lower end surface of the limiting block (12), the matching plate (14) is fixedly arranged on the lower end surface of the matching block (13), the built-in groove (15) is arranged inside the matching plate (14), the driving rack (16) is symmetrically and slidably arranged in the built-in groove (15), the driving gear (17) is rotatably arranged in the built-in groove (15) and is meshed with the driving rack (16), the clamping groove (18) is arranged on the lower end surface of the matching plate (14) and is communicated with the built-in groove (15), the clamping block (19) is fixedly arranged below the driving rack (16) and is arranged on the sliding adjusting assembly (4), and the rotation adjusting assembly (4) is arranged on the matching plate (14).

2. The straightening treatment system for the aluminum alloy door and window profile according to claim 1, wherein: rotatory adjusting part (4) are including rotating groove (41), adjusting block (42), penetrating groove (43), no. two penetrating groove (44), locking post (45), locking plate (46) and locking spring (47), rotating groove (41) are seted up in cooperation board (14) up end and are communicate each other with built-in groove (15), adjusting block (42) slide install in rotating groove (41) and with driving gear (17) fixed connection, penetrating groove (43) symmetry is seted up in cooperation block (13) side, no. two penetrating groove (44) symmetry is seted up on adjusting block (42) surface, locking post (45) penetrate to slide in penetrating groove (43) and No. two penetrating groove (44), locking plate (46) fixed mounting is on locking post (45) surface, locking spring (47) one end fixed mounting is on cooperation block (13) lateral wall on the other end fixed mounting on locking plate (46).

3. The straightening treatment system for the aluminum alloy door and window profiles as claimed in claim 1, wherein: the locking device is characterized by further comprising a pointer (281) and angle scale marks (282) which are matched with the third locking block (28), wherein the pointer (281) is fixedly installed on the outer surface of the installation block (38) and located above the third locking block (28), and the angle scale marks (282) are carved on the end face, close to the pull ring (29), of the third locking block (28).

4. The straightening treatment system for the aluminum alloy door and window profile according to claim 1, wherein: the clamping device is characterized by further comprising a rolling groove (191) and a rolling block (192) which are matched with the clamping block (19), wherein the rolling groove (191) is symmetrically formed in one end face of the clamping block (19), and the rolling block (192) is sequentially and rotatably arranged in the rolling groove (191).

5. The straightening treatment system for the aluminum alloy door and window profiles as claimed in claim 1, wherein: the end faces of the first locking block (26), the second locking block (27) and the third locking block (28) which are matched with each other are of gear tooth-shaped structures which are convenient for limiting and locking.

6. The straightening treatment system for the aluminum alloy door and window profile according to claim 1, wherein: the built-in groove (15) is composed of a mutually symmetrical driving rack (16) installation sliding groove (34) and a driving gear (17) installation groove.

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