CN114871903A

CN114871903A - Aluminum alloy door and window processing auxiliary assembly

Info

Publication number: CN114871903A
Application number: CN202210236914.2A
Authority: CN
Inventors: 卢冰强; 徐文斌; 杨世伟
Original assignee: Hengqiang Aluminum Co ltd
Current assignee: Hengqiang Aluminum Co ltd
Priority date: 2022-03-11
Filing date: 2022-03-11
Publication date: 2022-08-09
Anticipated expiration: 2042-03-11
Also published as: CN114871903B

Abstract

The invention discloses an auxiliary device for processing aluminum alloy doors and windows, which relates to the technical field of aluminum alloy doors and windows and comprises an auxiliary fixing mechanism, wherein a rotating shaft is driven to rotate by a motor, a first bevel gear is driven to rotate by the rotating shaft, a second bevel gear is driven to rotate by the first bevel gear, a first telescopic shaft is driven to rotate by the second bevel gear, a threaded rod is driven to rotate by the first telescopic shaft, a right-handed thread is arranged on one side, close to the rotating shaft, of the threaded rod, a left-handed thread is arranged on one side, far away from the rotating shaft, and an opposite thread is arranged on the threaded rod, so that a first ring and a second ring can be controlled to be synchronously separated or combined, the first ring and the second ring are controlled to simultaneously move in opposite directions, a curved plate and a pressing plate are driven to move by the second ring, a gap is left between a top plate and the pressing plate, the aluminum alloy doors and windows are placed, and windows are controlled to move by the motor in a reverse direction, the distance is close to fix the aluminum alloy door and window.

Description

Aluminum alloy door and window processing auxiliary assembly

Technical Field

The invention relates to the technical field of aluminum alloy doors and windows, in particular to auxiliary equipment for processing aluminum alloy doors and windows.

Background

An aluminum alloy door and window is a door and window made of aluminum alloy extruded sections as frames, stiles and sash materials, and is called an aluminum alloy door and window, and is called an aluminum door and window for short. The aluminum alloy door and window comprises a door and window compounded with wood and plastic by taking aluminum alloy as a base material of a stress rod (a rod for bearing and transmitting self weight and load), and is called an aluminum-wood composite door and window and an aluminum-plastic composite door and window for short.

Current aluminum alloy door and window need fix the door and window at the in-process that carries out the processing, and partial fixed knot constructs needs the manual work to adjust when fixed, has wasted a lot of process time, and can not adjust fixed establishment according to aluminum alloy door and window's length and width fast, leads to the process time extension, has reduced work efficiency.

Disclosure of Invention

The invention aims to provide an auxiliary device for processing aluminum alloy doors and windows, thereby solving the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: an auxiliary device for processing aluminum alloy doors and windows comprises a processing table, wherein the upper end of the inner surface of the processing table is detachably connected with an auxiliary fixing mechanism;

the auxiliary fixing mechanism comprises a motor, a rotating shaft, a first clamping plate, a first bevel gear, a second bevel gear, a telescopic rod, a first ring, a second ring, a connecting curved plate, a first telescopic shaft, a first spring, a top plate, a pressing plate and a threaded rod, wherein the motor is fixedly connected to the upper end position of the inner surface of the processing table, the rotating shaft is fixedly connected to the output end of the motor, the first clamping plate is fixedly connected to the upper end position of the outer surface of the rotating shaft, the first bevel gear is detachably connected to the outer surface of the upper end of the first clamping plate, the second bevel gears are uniformly and slidably connected to the outer surface of the first bevel gear, the number of the second bevel gears is four, the telescopic rod is fixedly connected to the inner surface of the second bevel gear, the threaded rod is fixedly connected to the outer surface of one end, far away from the rotating shaft, of the outer surface of the first ring is rotatably connected to one side, far away from the rotating shaft, of the outer surface of the second ring is rotatably connected to one side, the outer surface of the rotating shaft, connect the equal fixed connection of bent plate in first ring and second ring surface upper end position, first telescopic shaft fixed connection is close to one side of the pivot and is connected the bent plate and keep away from one side upper end position of motor, first spring sliding connection in first telescopic shaft surface, roof fixed connection keeps away from pivot one side surface in first telescopic shaft, clamp plate fixed connection is in keeping away from pivot one side and is connected bent plate upper end surface.

Furthermore, the outer surface of the upper end of the processing table is provided with a square sliding groove matched with the connecting curved plate, and the outer surface of the lower end of the first bevel gear is provided with a curved groove matched with the first clamping plate.

Furthermore, the outer surface of the rotating shaft is fixedly connected with a contraction mechanism, the contraction mechanism comprises a second clamping plate and a third bevel gear, the second clamping plate is fixedly connected to the lower end of the outer surface of the rotating shaft, the third bevel gear is connected to the outer surface of the lower end of the rotating shaft in a sliding mode, and the third bevel gear is located below the second clamping plate.

Furthermore, the contraction mechanism further comprises a fourth bevel gear and a reciprocating screw rod, the fourth bevel gear is evenly connected to the outer surface of the third bevel gear in a sliding mode, the number of the fourth bevel gears is four, and the reciprocating screw rod is rotationally connected to the inner surface of the fourth bevel gear.

Furthermore, the contraction mechanism further comprises a sliding block and a second bearing, the sliding block is rotatably connected to the outer surface of the reciprocating screw rod, and the second bearing is fixedly connected to the upper end of the outer surface of the sliding block on one side close to the third bevel gear.

Furthermore, the lower end of the inner surface of the processing table is detachably connected with an adjusting mechanism, the adjusting mechanism comprises a movable plate and a first bearing, the first bearing is rotatably connected with the lower end of the outer surface of the rotating shaft, and the movable plate is fixedly connected to the outer surface of the lower end of the first bearing.

Furthermore, adjustment mechanism still includes second telescopic shaft and second spring, and the even fixed connection of second telescopic shaft is in the lower extreme surface of movable plate, and second spring sliding connection is in second telescopic shaft surface.

Further, adjustment mechanism still includes first spliced pole and second spliced pole, and second spliced pole fixed connection is in movable plate upper end surface right side position, and first spliced pole sliding connection is in second spliced pole upper end surface.

Furthermore, the adjusting mechanism further comprises a clamping block, the clamping block is uniformly and fixedly connected to the lower end of the outer surface of the first connecting column, a sliding groove matched with the first connecting column and the clamping block is formed in the inner surface of the processing table, and a clamping groove matched with the clamping block is formed in the inner surface of the processing table.

Furthermore, the edge position of the outer surface of the upper end of the processing table is connected with a first protection pad in a sliding mode, the middle position of the outer surface of the upper end of the processing table is connected with a second protection pad in a sliding mode, and the outer surface of the lower end of the processing table is evenly and fixedly connected with supporting legs.

The fixing mechanism has toughness, and the aluminum alloy door and window is prevented from being bent under strong pressure in the processing process; the positions of the top plate and the pressing plate on the processing table can be adjusted, so that the aluminum alloy door and window can adapt to different types of aluminum alloy doors and windows; the contraction mechanism can be adjusted; the deformation and damage of the contact position of the lower part and the processing table caused by the pressing on the upper part of the aluminum alloy door and window during the processing can be prevented.

Drawings

FIG. 1 is a schematic perspective view of an auxiliary device for processing aluminum alloy doors and windows according to the present invention;

FIG. 2 is a schematic perspective view of an auxiliary fixing mechanism and a retracting mechanism of the auxiliary device for processing aluminum alloy doors and windows according to the present invention;

FIG. 3 is a schematic perspective view of an auxiliary fixing mechanism of an auxiliary device for processing aluminum alloy doors and windows according to the present invention;

FIG. 4 is a schematic perspective view of a retracting mechanism of an auxiliary device for aluminum alloy door and window processing according to the present invention;

FIG. 5 is a schematic perspective view of an adjusting mechanism of an auxiliary device for processing aluminum alloy doors and windows according to the present invention;

FIG. 6 is a schematic sectional view of a front view of an auxiliary device for processing aluminum alloy doors and windows according to the present invention;

FIG. 7 is an enlarged schematic view of the auxiliary device for processing aluminum alloy doors and windows of the present invention at the position A in FIG. 6;

FIG. 8 is a schematic structural diagram of a top view of an auxiliary device for processing aluminum alloy doors and windows according to the present invention;

fig. 9 is a schematic cross-sectional view at B-B in fig. 8 of the auxiliary device for processing aluminum alloy doors and windows according to the present invention.

In the figure: 1. a processing table; 2. an auxiliary fixing mechanism; 21. a motor; 22. a rotating shaft; 23. a first clamping plate; 24. a first bevel gear; 25. a second bevel gear; 26. a telescopic rod; 27. a first circular ring; 28. a second circular ring; 29. connecting the curved plates; 210. a first telescopic shaft; 211. a first spring; 212. a top plate; 213. pressing a plate; 214. a threaded rod; 3. an adjustment mechanism; 31. a first connecting column; 32. a clamping block; 33. a second connecting column; 34. moving the plate; 35. a first bearing; 36. a second telescopic shaft; 37. a second spring; 4. a first protection pad; 5. a second protection pad; 6. a retracting mechanism; 61. a second clamping plate; 62. a third bevel gear; 63. a fourth bevel gear; 64. a reciprocating screw rod; 65. a slider; 66. a second bearing; 7. a card slot; 8. a chute; 9. and (5) supporting legs.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, an auxiliary device for processing aluminum alloy doors and windows comprises a processing table 1, wherein an auxiliary fixing mechanism 2 is detachably connected to the upper end of the inner surface of the processing table 1;

the auxiliary fixing mechanism 2 comprises a motor 21, a rotating shaft 22, a first clamping plate 23, a first bevel gear 24, a second bevel gear 25, an expansion link 26, a first ring 27, a second ring 28, a connecting curved plate 29, a first telescopic shaft 210, a first spring 211, a top plate 212, a pressing plate 213 and a threaded rod 214, wherein the motor 21 is fixedly connected to the upper end of the inner surface of the processing table 1, the rotating shaft 22 is fixedly connected to the output end of the motor 21, the first clamping plate 23 is fixedly connected to the upper end of the outer surface of the rotating shaft 22, the first bevel gear 24 is detachably connected to the outer surface of the upper end of the first clamping plate 23, the second bevel gears 25 are uniformly and slidably connected to the outer surface of the first bevel gear 24, the number of the second bevel gears 25 is four, the expansion links 26 are fixedly connected to the inner surface of the second bevel gear 25, the threaded rod 214 is fixedly connected to the outer surface of the end of the expansion link 26 far away from the rotating shaft 22, the first bevel gear 27 is rotatably connected to one side of the outer surface of the threaded rod 214 close to the rotating shaft 22, the second ring 28 is rotatably connected to one side of the outer surface of the threaded rod 214 far away from the rotating shaft 22, the connecting curved plate 29 is fixedly connected to the upper end positions of the outer surfaces of the first ring 27 and the second ring 28, the first telescopic shaft 210 is fixedly connected to the upper end position of one side of the connecting curved plate 29 near the rotating shaft 22 far away from the motor 21, the first spring 211 is slidably connected to the outer surface of the first telescopic shaft 210, the top plate 212 is fixedly connected to the outer surface of one side of the first telescopic shaft 210 far away from the rotating shaft 22, the pressing plate 213 is fixedly connected to the outer surface of the upper end of the connecting curved plate 29 far away from the rotating shaft 22, when aluminum alloy doors and windows need to be machined and polished, the motor 21 needs to be started, the rotating shaft 22 is driven to rotate by the motor 21, the first bevel gear 24 is driven to rotate by the rotating shaft 22, the second bevel gear 25 is driven to rotate by the second bevel gear 25, the first telescopic shaft 210 drives the threaded rod 214 to rotate, the right-handed thread is arranged on one side, close to the rotating shaft 22, of the threaded rod 214, the left-handed thread is arranged on one side, far away from the rotating shaft 22, of the threaded rod 214, the opposite threads are arranged on the threaded rod 214, the first circular ring 27 and the second circular ring 28 can be controlled to be synchronously separated or combined, the first circular ring 27 and the second circular ring 28 are controlled to simultaneously move in opposite directions, the first circular ring 27 drives the connecting curved plate 29 and the first telescopic shaft 210 to move towards one side, close to the rotating shaft 22, so that the top plate 212 is driven to move, the second circular ring 28 drives the connecting curved plate 29 and the pressing plate 213 to move, a gap is reserved between the top plate 212 and the pressing plate 213 for placing an aluminum alloy door and window, then the first circular ring 27 and the second circular ring 28 are controlled to move in a reverse direction through the motor 21, so that the distance is close to fix the aluminum alloy door and window, and the first spring 211 is arranged, can make fixed establishment have toughness, prevent that aluminium alloy door and window from appearing stronger pressure in the in-process of processing and being bent.

The outer surface of the upper end of the processing table 1 is provided with a square sliding groove matched with the connecting curved plate 29, the outer surface of the lower end of the first bevel gear 24 is provided with a curved groove matched with the first clamping plate 23, and the first clamping plate 23 and the first bevel gear 24 are combined conveniently through the curved groove.

Outer fixed surface of pivot 22 is connected with shrink mechanism 6, shrink mechanism 6 includes second cardboard 61 and third bevel gear 62, second cardboard 61 fixed connection is in the outer surface lower extreme position of pivot 22, third bevel gear 62 sliding connection is in pivot 22 lower extreme surface, and third bevel gear 62 is located the below of second cardboard 61, when meetting the aluminum alloy door and window of different length and width models, need adjust the partial structure of supplementary fixed establishment 2, make the distance that leaves between roof 212 and the clamp plate 213 can laminate aluminum alloy door and window, thereby fix aluminum alloy door and window, need stretch pivot 22 during the use, drive second cardboard 61 through pivot 22 and rotate, drive third bevel gear 62 through second cardboard 61 and rotate.

The contraction mechanism 6 further comprises fourth bevel gears 63 and reciprocating screw rods 64, the fourth bevel gears 63 are evenly connected to the outer surfaces of the third bevel gears 62 in a sliding mode, the number of the fourth bevel gears 63 is four, the reciprocating screw rods 64 are rotationally connected to the inner surfaces of the fourth bevel gears 63, the fourth bevel gears 63 are driven to rotate through the third bevel gears 62, and the reciprocating screw rods 64 are driven to rotate through the fourth bevel gears 63.

Contraction mechanism 6 still includes slider 65 and second bearing 66, slider 65 rotates to be connected in reciprocal lead screw 64 surface, second bearing 66 fixed connection is in slider 65 and is close to 62 one side of third bevel gears surface upper end positions, it removes to drive slider 65 through reciprocal lead screw 64, drive second bearing 66 through slider 65 and move, it removes to 62 directions of third bevel gears to drive threaded rod 214 through second bearing 66, control first telescopic link 26 and contract, alright with the position of adjusting roof 212 and clamp plate 213 on processing table 1, thereby adapt to aluminum alloy door and window's different models.

Processing table 1 internal surface lower extreme position can be dismantled and be connected with adjustment mechanism 3, adjustment mechanism 3 includes movable plate 34 and first bearing 35, first bearing 35 rotates and is connected with 22 surface lower extreme positions of pivot, movable plate 34 fixed connection is in first bearing 35 lower extreme surface, drive pivot 22 extension through first bearing 35, drive first bearing 35 downstream through movable plate 34, accomplish the regulation to pivot 22, make second cardboard 61 and the combination of third bevel gear 62, first cardboard 23 separates with first bevel gear 24, thereby realize the multiple utilization of power supply.

The adjusting mechanism 3 further comprises a second telescopic shaft 36 and a second spring 37, the second telescopic shaft 36 is uniformly and fixedly connected to the outer surface of the lower end of the moving plate 34, the second spring 37 is connected to the outer surface of the second telescopic shaft 36 in a sliding manner, the second telescopic shaft 36 keeps balance on the displacement of the moving plate 34, and the moving plate 34 can be quickly reset after being used through the second spring 37.

Adjustment mechanism 3 still includes first spliced pole 31 and second spliced pole 33, and second spliced pole 33 fixed connection is in the surface right side position in movable plate 34 upper end, and first spliced pole 31 sliding connection presses second spliced pole 33 through first spliced pole 31 in the surface of second spliced pole 33 upper end, makes second spliced pole 33 downstream, makes second spliced pole 33 drive movable plate 34 downstream.

Adjustment mechanism 3 still includes fixture block 32, the even fixed connection of fixture block 32 is in first connector post 31 surface lower extreme position, 1 internal surface of processing table is seted up with first connector post 31 and fixture block 32 assorted spout 8, 1 internal surface of processing table is seted up with fixture block 32 assorted draw-in groove 7, push down through first connector post 31, drive fixture block 32 at spout 8 internal motion, rotate first connector post 31 after that, make fixture block 32 move inside draw-in groove 7, fix first connector post 31, alright adjust with shrink mechanism 6.

1 upper end surface border position sliding connection of processing table has first protection pad 4, 1 upper end surface intermediate position sliding connection of processing table has second protection pad 5, the even fixedly connected with supporting leg 9 of 1 lower extreme surface of processing table, protect aluminum alloy door and window's lower extreme through first protection pad 4 and second protection pad 5, prevent to add to press down to aluminum alloy door and window top and lead to the below and processing table 1 contact position to warp impaired.

When the invention works, the motor 21 drives the rotating shaft 22 to rotate, the rotating shaft 22 drives the first bevel gear 24 to rotate, the first bevel gear 24 drives the second bevel gear 25 to rotate, the second bevel gear 25 drives the first telescopic shaft 210 to rotate, the first telescopic shaft 210 drives the threaded rod 214 to rotate, a right-handed thread is arranged on one side, close to the rotating shaft 22, of the threaded rod 214, a left-handed thread is arranged on one side, far away from the rotating shaft 22, of the threaded rod 214, and opposite threads are arranged on the threaded rod 214, so that the first ring 27 and the second ring 28 can be controlled to be synchronously separated or combined.

Move to the opposite direction simultaneously through controlling first ring 27 and second ring 28, drive through first ring 27 and connect bent plate 29 and first telescopic shaft 210 to being close to pivot 22 one side motion, drive roof 212 and move, drive through second ring 28 and connect bent plate 29 and clamp plate 213 and move, leave the space between messenger's roof 212 and the clamp plate 213 and place aluminum alloy door and window, after that through the first ring 27 of motor 21 reversal control and the motion of second ring 28, make the distance be close to fixing aluminum alloy door and window, through the setting of first spring 211, can make fixed establishment have toughness, prevent that aluminum alloy door and window from appearing stronger pressure in the in-process of processing and being bent.

When aluminum alloy doors and windows with different length and width models are encountered, partial structures of the auxiliary fixing mechanism 2 need to be adjusted, so that the distance between the top plate 212 and the pressing plate 213 can be attached to the aluminum alloy doors and windows, thereby fixing the aluminum alloy doors and windows, when in use, the rotating shaft 22 needs to be stretched, the rotating shaft 22 drives the second clamping plate 61 to rotate, the second clamping plate 61 drives the third bevel gear 62 to rotate, the third bevel gear 62 drives the fourth bevel gear 63 to rotate, the fourth bevel gear 63 drives the reciprocating screw 64 to rotate, the reciprocating screw 64 drives the sliding block 65 to move, the sliding block 65 drives the second bearing 66 to move, the second bearing 66 drives the threaded rod 214 to move towards the third bevel gear 62, the first telescopic rod 26 is controlled to be contracted, and the positions of the top plate 212 and the pressing plate 213 on the processing table 1 can be adjusted, thereby being suitable for different types of aluminum alloy doors and windows.

The rotating shaft 22 is driven to extend through the first bearing 35, the first bearing 35 is driven to move downwards through the moving plate 34, the adjustment of the rotating shaft 22 is completed, the second clamping plate 61 is combined with the third bevel gear 62, the first clamping plate 23 is separated from the first bevel gear 24, so that multiple utilization of a power source is realized, the displacement of the moving plate 34 is kept balanced through the second telescopic shaft 36, the moving plate 34 can be quickly reset after use through the second spring 37, the second connecting column 33 is pressed through the first connecting column 31 to move downwards, the moving plate 34 is driven to move downwards through the second connecting column 33, the clamping block 32 is driven to move in the sliding groove 8 through pressing of the first connecting column 31, then the clamping block 32 is rotated to move into the clamping groove 7, the first connecting column 31 is fixed, and the contraction mechanism 6 can be adjusted, the lower ends of the aluminum alloy doors and windows are protected by the first protection pad 4 and the second protection pad 5, and the situation that the contact position of the lower part and the processing table 1 is deformed and damaged due to the fact that the upper part of the aluminum alloy doors and windows is pressed during processing is prevented.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an aluminum alloy door and window processing auxiliary assembly, includes processing table (1), its characterized in that: the upper end of the inner surface of the processing table (1) is detachably connected with an auxiliary fixing mechanism (2);

the auxiliary fixing mechanism (2) comprises a motor (21), a rotating shaft (22), a first clamping plate (23), a first bevel gear (24), a second bevel gear (25), an expansion rod (26), a first ring (27), a second ring (28), a connecting curved plate (29), a first expansion shaft (210), a first spring (211), a top plate (212), a pressing plate (213) and a threaded rod (214), wherein the motor (21) is fixedly connected to the upper end of the inner surface of the processing table (1), the rotating shaft (22) is fixedly connected to the output end of the motor (21), the first clamping plate (23) is fixedly connected to the upper end of the outer surface of the rotating shaft (22), the first bevel gear (24) is detachably connected to the outer surface of the upper end of the first clamping plate (23), the second bevel gear (25) is uniformly and slidably connected to the outer surface of the first bevel gear (24), and the number of the second bevel gears (25) is four, telescopic link (26) fixed connection is in second bevel gear (25) internal surface, pivot (22) one end surface is kept away from in telescopic link (26) threaded rod (214) fixed connection, first ring (27) rotate connect in threaded rod (214) surface be close to one side of pivot (22), second ring (28) rotate connect in threaded rod (214) surface keep away from one side of pivot (22), connect equal fixed connection in first ring (27) and second ring (28) surface upper end position of bent plate (29), first telescopic shaft (210) fixed connection is in being close to one side of pivot (22) and is connected one side upper end position that motor (21) were kept away from in bent plate (29), first spring (211) sliding connection is in first telescopic shaft (210) surface, roof (212) fixed connection is in first telescopic shaft (210) and is kept away from pivot (22) one side surface, the pressing plate (213) is fixedly connected to the outer surface of the upper end of the connecting bent plate (29) at one side far away from the rotating shaft (22).

2. The aluminum alloy door and window processing auxiliary assembly of claim 1, wherein: the outer surface of the upper end of the processing table (1) is provided with a square sliding groove matched with the connecting curved plate (29), and the outer surface of the lower end of the first bevel gear (24) is provided with a curved groove matched with the first clamping plate (23).

3. The aluminum alloy door and window processing auxiliary assembly of claim 1, wherein: the outer surface of the rotating shaft (22) is fixedly connected with a contraction mechanism (6), the contraction mechanism (6) comprises a second clamping plate (61) and a third bevel gear (62), the second clamping plate (61) is fixedly connected to the lower end of the outer surface of the rotating shaft (22), the third bevel gear (62) is slidably connected to the outer surface of the lower end of the rotating shaft (22), and the third bevel gear (62) is located below the second clamping plate (61).

4. The aluminum alloy door and window processing auxiliary assembly of claim 3, wherein: the contraction mechanism (6) further comprises fourth bevel gears (63) and reciprocating screw rods (64), the fourth bevel gears (63) are evenly connected to the outer surfaces of the third bevel gears (62) in a sliding mode, the number of the fourth bevel gears (63) is four, and the reciprocating screw rods (64) are rotationally connected to the inner surfaces of the fourth bevel gears (63).

5. The aluminum alloy door and window processing auxiliary assembly of claim 3, wherein: the contraction mechanism (6) further comprises a sliding block (65) and a second bearing (66), the sliding block (65) is rotatably connected to the outer surface of the reciprocating screw rod (64), and the second bearing (66) is fixedly connected to the upper end of the outer surface of one side, close to the third bevel gear (62), of the sliding block (65).

6. The aluminum alloy door and window processing auxiliary assembly of claim 1, wherein: processing table (1) internal surface lower extreme position can be dismantled and be connected with adjustment mechanism (3), and adjustment mechanism (3) are including movable plate (34) and first bearing (35), and first bearing (35) rotate and are connected with pivot (22) surface lower extreme position, and movable plate (34) fixed connection is in first bearing (35) lower extreme surface, drives pivot (22) extension through first bearing (35).

7. The aluminum alloy door and window processing auxiliary assembly of claim 6, wherein: the adjusting mechanism (3) further comprises a second telescopic shaft (36) and a second spring (37), the second telescopic shaft (36) is uniformly and fixedly connected to the outer surface of the lower end of the moving plate (34), the second spring (37) is connected to the outer surface of the second telescopic shaft (36) in a sliding mode, and the second telescopic shaft (36) keeps balance to the displacement of the moving plate (34).

8. The aluminum alloy door and window processing auxiliary assembly of claim 6, wherein: adjustment mechanism (3) still include first spliced pole (31) and second spliced pole (33), second spliced pole (33) fixed connection in movable plate (34) upper end surface right side position, first spliced pole (31) sliding connection in second spliced pole (33) upper end surface.

9. The aluminum alloy door and window processing auxiliary assembly of claim 6, wherein: adjustment mechanism (3) still include fixture block (32), fixture block (32) even fixed connection in first spliced pole (31) surface lower extreme position, processing table (1) internal surface seted up with first spliced pole (31) and fixture block (32) assorted spout (8), processing table (1) internal surface seted up with fixture block (32) assorted draw-in groove (7).

10. The aluminum alloy door and window processing auxiliary assembly of claim 1, wherein: the edge position of the outer surface of the upper end of the processing table (1) is connected with a first protection pad (4) in a sliding mode, the middle position of the outer surface of the upper end of the processing table (1) is connected with a second protection pad (5) in a sliding mode, and the outer surface of the lower end of the processing table (1) is evenly and fixedly connected with supporting legs (9).