CN111922436A - A cutting device for production of aluminum alloy window - Google Patents

Abstract

The invention discloses a cutting device for aluminum alloy window production, which comprises a base and a processing table positioned at the top end of the base, wherein symmetrically arranged supports are arranged on two sides of the top end of the processing table, a cross beam is arranged at the top end of each support, a shell is arranged on each cross beam, a first transverse plate is arranged at the top end in the shell, a sliding groove is formed in the bottom end of the first transverse plate, a sliding block matched with the sliding groove is arranged at the bottom end of the sliding groove, a fixed block is arranged at one side of the sliding groove and the bottom end of the first transverse plate, a lead screw penetrating through the sliding block is arranged at one side of the. Has the advantages that: make the perpendicular distance between a plurality of cutting knives moderate the same to realize the equidistance cutting, labour saving and time saving not only can be convenient for cut aluminum alloy door and window, and can carry out the centre gripping to aluminum alloy body when the cutting, and link up the cooperation of piece one and linking piece two, can adjust the interval between two sets of clamping pieces, realize cutting not unidimensional aluminum alloy door and window.

Description

A cutting device for production of aluminum alloy window

Technical Field

The invention relates to the technical field of window processing, in particular to a cutting device for producing an aluminum alloy window.

Background

The aluminum alloy window is a window with a frame and sash structure made of aluminum alloy building profiles, and is divided into a common aluminum alloy door window and a broken bridge aluminum alloy door window. The aluminum alloy window has the advantages of attractive appearance, sealing and high strength, is widely applied to the field of constructional engineering, and is commonly used for packaging balconies in home decoration. The surface of the aluminum alloy is oxidized, smooth and shiny. The window sash frame is large, glass with a large area can be embedded, indoor light is sufficient and bright, the virtual-real contrast of vertical surfaces between the indoor space and the outdoor space is enhanced, and a room is rich in layers. The aluminum alloy is easy to extrude, the cross section of the section bar is accurate in size, and the processing accuracy is high, so that aluminum alloy doors and windows are selected by many owners in decoration.

In the window body processing, the frame of the window body needs to be cut, the cutting mode comprises manual cutting and mechanical cutting, the manual cutting accuracy is poor, the production period is long, and the window body processing method is not suitable for the requirements of modern enterprises. Cutting machine is used to the majority among the mechanical cutting prior art, but cutting effect is not good in the cutting of current cutting machine, perhaps causes the skew of material when the cutting, and can not cut the aluminum alloy window of different thickness, and this just leads to production efficiency to reduce.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

In view of the problems in the related art, the present invention provides a cutting device for aluminum alloy window production, so as to overcome the above technical problems in the related art.

Therefore, the invention adopts the following specific technical scheme:

a cutting device for aluminum alloy window production comprises a base and a processing table located at the top end of the base, wherein symmetrical supports are arranged on two sides of the top end of the processing table, a cross beam is arranged at the top end of each support, a shell is arranged on the cross beam, a first transverse plate is arranged at the top end in the shell, a sliding groove is formed in the bottom end of the first transverse plate, a sliding block matched with the sliding groove is arranged at the bottom end of the sliding groove, a fixed block is arranged at one side of the sliding groove and at the bottom end of the first transverse plate, a lead screw penetrating through the sliding block is arranged at one side of the fixed block, one side of the lead screw is connected with the output end of a rotating motor located on the first transverse plate, a first supporting rod which is obliquely arranged is arranged at the bottom end of the fixed block, a second supporting rod which is obliquely arranged is arranged at the bottom end of the fixed block, the bottom ends of the first supporting rod and the second supporting rod extend to the lower part of the cross beam, moving blocks are arranged at the bottom ends of the moving blocks, transverse plates II are transversely arranged at the bottom ends of the moving blocks, sliding rods penetrating through the two sets of moving blocks are arranged at the top ends of the transverse plates II, a casing is arranged at the bottom end of the transverse plates II, a plurality of uniformly distributed cutting knives are arranged at the bottom end of the casing, and the cutting knives are connected with the casing through a transmission mechanism;

the bottom end of the processing table is provided with a machine case, a guide rod which is transversely arranged is arranged in the machine case, a connecting block I and a connecting block II which are matched with the guide rod are symmetrically arranged on the guide rod, one side of the first joining block is provided with a first movable rod which is obliquely arranged, one side of the first movable rod, which is far away from the second joining block, is provided with an electric telescopic rod which is connected with the inner wall of the case, one side of the connecting block II is provided with a movable rod II which is obliquely arranged, the top end of the movable rod II is provided with an arc-shaped rod, one side of the arc-shaped rod far away from the first joining block is provided with a rotating shaft connected with the inner wall of the case, and the bottom of the arc-shaped rod is provided with a connecting rod connected with the first movable rod, the top ends of the first joining block and the second joining block are respectively provided with a clamping piece extending to the upper part of the processing table, and the processing table is provided with a stroke groove matched with the clamping piece.

Preferably, a cross rod penetrating through the clamping piece is arranged in the case, the clamping piece is horizontally and transversely arranged, and a hole groove matched with the cross rod is formed in the clamping piece.

Preferably, the connecting rod is respectively connected with the arc-shaped rod and the movable rod through a first connecting shaft, and the sliding rod is of a U-shaped structure.

Preferably, the top end of the second transverse plate is provided with a sliding rail matched with the moving block, and the machine shell is connected with the second transverse plate through a fixing bolt.

Preferably, the first support rod and the second support rod are respectively connected with the sliding block, the fixed block and the moving block through two connecting shafts.

Preferably, the transmission mechanism comprises a first rotating shaft, a second rotating shaft and a third rotating shaft which are positioned in the casing and sequentially arranged from top to bottom, the first rotating shaft, the second rotating shaft and the third rotating shaft are symmetrically provided with the cutting knives matched with the first rotating shaft, one side of the first rotating shaft is connected with the output end of the driving motor positioned in the casing, a first belt connected with the second rotating shaft is sleeved on the first rotating shaft, and a second belt connected with the third rotating shaft is symmetrically arranged on the second rotating shaft.

Preferably, the first rotating shaft and the second rotating shaft are respectively provided with a first belt pulley matched with the first belt.

Preferably, the belt II is respectively connected with the second rotating shaft and the third rotating shaft through a second belt pulley.

Preferably, the rotating motor is a forward and reverse rotating motor, and a plurality of uniformly distributed discharge ports are formed in the processing table.

Preferably, be equipped with in the base with the collecting box that the bin outlet is connected, just the bottom of base is equipped with the backing plate of horizontal setting.

The invention has the beneficial effects that:

the first supporting rod and the second supporting rod are matched to realize cross movement, and then the second transverse plate is driven to synchronously translate, so that the distance between the cutting knife and the processing table can be adjusted, and the cutting depth of the aluminum alloy window can be controlled.

Two, through carrying out trapezoidal distribution setting with a plurality of cutting knives for vertical distance between a plurality of cutting knives is moderate equal, so that realize the equidistance cutting, labour saving and time saving improves the efficiency of cutting processing.

And the design of two sets of clamping pieces not only can be convenient for cut the aluminum alloy body, and can carry out the centre gripping to the aluminum alloy body when the cutting, and links up the cooperation of piece one and linking piece two, can adjust the interval between two sets of clamping pieces, realizes cutting not unidimensional aluminum alloy door and window.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is one of the structural schematic views of a cutting apparatus for aluminum alloy window production according to an embodiment of the present invention.

Fig. 2 is one of the structural schematic diagrams of a cutting apparatus for aluminum alloy window production according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a case in a cutting device for aluminum alloy window production according to an embodiment of the invention.

Fig. 4 is a schematic structural diagram of a transmission mechanism in a cutting device for aluminum alloy window production according to an embodiment of the invention.

In the figure:

1. a base; 2. a processing table; 3. a support; 4. a cross beam; 5. a housing; 6. a first transverse plate; 7. a chute; 8. a slider; 9. a fixed block; 10. a screw rod; 11. a rotating electric machine; 12. a first supporting rod; 13. a second supporting rod; 14. a fixed shaft; 15. a moving block; 16. a transverse plate II; 17. a slide bar; 18. a housing; 19. a cutting knife; 20. a chassis; 21. a guide bar; 22. a first connecting block; 23. a second connecting block; 24. a first movable rod; 25. an electric telescopic rod; 26. a second movable rod; 27. an arcuate bar; 28. a connecting rod; 29. a clip; 30. a stroke slot; 31. a cross bar; 32. a first rotating shaft; 33. a second rotating shaft; 34. a third rotating shaft; 35. a first belt; 36. a second belt; 37. a first belt pulley; 38. a second belt pulley; 39. a discharge outlet; 40. a backing plate.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to enable others of ordinary skill in the art to understand the various embodiments and advantages of the invention, and, by reference to these figures, reference is made to the accompanying drawings, which are not to scale and wherein like reference numerals generally refer to like elements.

According to an embodiment of the present invention, there is provided a cutting apparatus for aluminum alloy window production.

Example one

As shown in fig. 1-4, the cutting device for aluminum alloy window production according to the embodiment of the invention comprises a base 1 and a processing table 2 located at the top end of the base 1, wherein symmetrically arranged brackets 3 are arranged at two sides of the top end of the processing table 2, a cross beam 4 is arranged at the top end of the brackets 3, a housing 5 is arranged on the cross beam 4, a first cross plate 6 is arranged at the top end in the housing 5, a chute 7 is arranged at the bottom end of the first cross plate 6, a sliding block 8 matched with the chute 7 is arranged at the bottom end of the chute 7, a fixed block 9 is arranged at one side of the chute 7 and the bottom end of the first cross plate 6, a lead screw 10 penetrating through the sliding block 8 is arranged at one side of the fixed block 9, one side of the lead screw 10 is connected with an output end of a rotating motor 11 located on the first cross plate 6, and, the bottom end of the fixed block 9 is provided with a second support rod 13 which is obliquely arranged, the first support rod 12 and the second support rod 13 are arranged in a crossed manner, a fixed shaft 14 is arranged at the crossed position of the first support rod 12 and the second support rod 13, the bottom ends of the first support rod 12 and the second support rod 13 extend to the lower part of the cross beam 4, a moving block 15 is arranged below the cross beam 4, the bottom end of the moving block 15 is provided with a second transverse plate 16 which is transversely arranged, the top end of the second transverse plate 16 is provided with a slide rod 17 which penetrates through the two sets of moving blocks 15, the bottom end of the second transverse plate 16 is provided with a casing 18, the bottom end of the casing 18 is provided with a plurality of cutting knives 19 which are;

the bottom end of the processing table 2 is provided with a case 20, a transversely arranged guide rod 21 is arranged in the case 20, a connecting block I22 and a connecting block II 23 which are matched with the guide rod 21 are symmetrically arranged on the guide rod 21, a movable rod I24 which is obliquely arranged is arranged on one side of the connecting block I22, an electric telescopic rod 25 which is connected with the inner wall of the case 20 is arranged on one side of the movable rod I24 away from the connecting block II 23, a movable rod II 26 which is obliquely arranged is arranged on one side of the connecting block II 23, an arc-shaped rod 27 is arranged at the top end of the movable rod II 26, a rotating shaft which is connected with the inner wall of the case 20 is arranged on one side of the arc-shaped rod 27 away from the connecting block I22, a connecting rod 28 which is connected with the movable rod I24 is arranged at the bottom end of the arc-shaped rod 27, clamping pieces 29 which extend to the upper part of the processing table 2 are arranged at the top ends of the connecting block I22, the processing table 2 is provided with a stroke groove 30 matched with the clamping piece 29.

Example two

As shown in fig. 1 to 4, a cross bar 31 penetrating through the clip 29 is disposed in the case 20, the clip 29 is horizontally disposed, a hole groove matched with the cross bar 31 is formed in the clip 29, the connecting rod 28 is connected to the arc rod 27 and the movable rod 24 through a first connecting shaft, the sliding rod 17 is of a U-shaped structure, a sliding rail matched with the moving block 15 is formed at the top end of the second transverse plate 16, the housing 18 is connected to the second transverse plate 16 through a fixing bolt, and the first support rod 12 and the second support rod 13 are connected to the sliding block 8, the fixed block 9 and the moving block 15 through a second connecting shaft. From the design, the cross rod 31 can limit the clip 29 in the moving process, so that the clip is in a smooth state in the moving process; the slide rail design facilitates the moving block 15 to slide rapidly on the slide bar 17.

EXAMPLE III

As shown in fig. 1 to 4, the transmission mechanism includes a first rotating shaft 32, a second rotating shaft 33 and a third rotating shaft 34 which are sequentially arranged in the housing 18 from top to bottom, the first rotating shaft 32, the second rotating shaft 33 and the third rotating shaft 34 are symmetrically provided with the cutting knives 19 matched with the first rotating shaft, one side of the first rotating shaft 32 is connected with the output end of the driving motor arranged in the housing 18, the first rotating shaft 32 is sleeved with a first belt 35 connected with the second rotating shaft 33, the second rotating shaft 33 is symmetrically provided with second belts 36 connected with the third rotating shaft 34, the first rotating shaft 32 and the second rotating shaft 33 are both provided with a first belt pulley 37 matched with the first belt 35, and the second belt pulley 36 is respectively connected with the second rotating shaft 33 and the third rotating shaft 34 through the second belt pulleys 38. It can be seen from the above design that, through the design of the transmission mechanism, the driving motor drives the first rotating shaft 32 to rotate, and under the action of the first belt 35 and the second belt 36, the second rotating shaft 33 and the third rotating shaft 34 are sequentially driven, so that the first rotating shaft 32, the second rotating shaft 33 and the third rotating shaft 34 synchronously drive the cutting knife 19 to cut the aluminum alloy window in the rotating process.

Example four

As shown in fig. 1-4, the rotating motor 11 is a forward and reverse rotating motor, a plurality of material discharge ports 39 are uniformly distributed on the processing table 2, a collecting box connected with the material discharge ports 39 is arranged in the base 1, and a transverse backing plate 40 is arranged at the bottom end of the base 1. The design of the discharge opening 39 and the backing plate 40 is conventional and will not be described in detail.

For the convenience of understanding the technical solutions of the present invention, the following detailed description will be made on the working principle or the operation mode of the present invention in the practical process.

In practical application, an aluminum alloy door and window is placed on the processing table 2 and located between the two groups of clamping pieces 29, then the electric telescopic rod 25 is started to drive the first movable rod 24 to move, the first movable rod 24 simultaneously pushes the first connecting block 22 and the connecting rod 28 in the rotating process, the first connecting block 22 moves rightwards on the guide rod 21 under the pushing action of the first movable rod 24, the connecting rod 28 drives the arc-shaped rod 27 to rotate by taking the rotating shaft as a base point under the pulling action of the first movable rod 24, the top of the arc-shaped rod 27 pushes the second movable rod 26, the second movable rod 26 pushes the second connecting block 23 to move leftwards on the guide rod 21, the first connecting block 22 and the second connecting block 23 are gathered towards the middle on the guide rod 21, the clamping pieces 29 are driven to clamp and fix the side wall of the aluminum alloy door and window, then the driving motor is started to drive the first rotating shaft 32 to rotate, under the action of the first belt 35 and the second belt 36, drive rotation axis two 33 and rotation axis three 34 in proper order, make rotation axis one 32, rotation axis two 33 and rotation axis three 34 drive cutting knife 19 in step at rotatory in-process and cut the aluminum alloy window, and rotating electrical machines 11 drives lead screw 10 and rotates, make slider 8 remove along with the rotation of lead screw 10, realize crossing between bracing piece one 12 and the bracing piece two 13, bracing piece one 12 and bracing piece two 13 its bottom downwardly extending drives diaphragm two 16 translations at crossing in-process, can adjust the interval between cutting knife 19 and the processing platform 2, realize the control to the aluminum alloy window cutting depth.

In summary, according to the above technical solution of the present invention, through the matching design of the first support rod 12 and the second support rod 13, the cross movement is realized, and then the second transverse plate 16 is driven to perform the synchronous translation, so as to adjust the distance between the cutting knife 19 and the processing table 2, and realize the control of the cutting depth of the aluminum alloy window. Through carrying out trapezoidal distribution setting with a plurality of cutting knife 19 for vertical distance between a plurality of cutting knife 19 is moderate equally, so that realize the equidistance cutting, labour saving and time saving improves the efficiency of cutting process. And two sets of clamping pieces 29's design not only can be convenient for cut aluminum alloy door and window, and can carry out the centre gripping to aluminum alloy body when the cutting, and links up the cooperation of piece one 22 and linking piece two 23, can adjust the interval between two sets of clamping pieces 29, realizes cutting not unidimensional aluminum alloy door and window.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The cutting device for aluminum alloy window production is characterized by comprising a base (1) and a processing table (2) positioned at the top end of the base (1), wherein symmetrical supports (3) are arranged on two sides of the top end of the processing table (2), a cross beam (4) is arranged at the top end of each support (3), a shell (5) is arranged on each cross beam (4), a first transverse plate (6) is arranged at the top end in each shell (5), a sliding groove (7) is formed in the bottom end of the first transverse plate (6), a sliding block (8) matched with the sliding groove is arranged at the bottom end of the sliding groove (7), a fixed block (9) is arranged at one side of the sliding groove (7) and the bottom end of the first transverse plate (6), a lead screw (10) penetrating through the sliding block (8) is arranged at one side of the fixed block (9), and the output end of a rotating motor (11) positioned on the first transverse plate (6) is connected with, a first support rod (12) which is obliquely arranged is arranged at the bottom end of the sliding block (8), a second support rod (13) which is obliquely arranged is arranged at the bottom end of the fixed block (9), the first support rod (12) and the second support rod (13) are arranged in a crossed manner, a fixed shaft (14) is arranged at the crossed position of the first support rod (12) and the second support rod (13), moving blocks (15) are arranged below the cross beam (4) in a manner that the bottom ends of the first support rod (12) and the second support rod (13) both extend to the lower part of the cross beam (4), a transverse plate (16) which is transversely arranged is arranged at the bottom end of each moving block (15), slide rods (17) which penetrate through two sets of moving blocks (15) are arranged at the top end of each transverse plate (16), a machine shell (18) is arranged at the bottom end of each transverse plate (16), and, the cutting knife (19) is connected with the shell (18) through a transmission mechanism;

the bottom of the processing table (2) is provided with a case (20), a transversely arranged guide rod (21) is arranged in the case (20), the guide rod (21) is symmetrically provided with a connecting block I (22) and a connecting block II (23) which are matched with the guide rod, one side of the connecting block I (22) is provided with a movable rod I (24) which is obliquely arranged, one side of the movable rod I (24) far away from the connecting block II (23) is provided with an electric telescopic rod (25) connected with the inner wall of the case (20), one side of the connecting block II (23) is provided with a movable rod II (26) which is obliquely arranged, the top end of the movable rod II (26) is provided with an arc-shaped rod (27), one side of the arc-shaped rod (27) far away from the connecting block I (22) is provided with a rotating shaft connected with the inner wall of the case (20), and the bottom end of the arc-shaped rod (27) is provided with a connecting rod (28) connected with the movable rod I (24, the top ends of the first joining block (22) and the second joining block (23) are provided with clamping pieces (29) extending to the upper side of the processing table (2), and the processing table (2) is provided with a stroke groove (30) matched with the clamping pieces (29).

2. The cutting device for producing the aluminum alloy window according to claim 1, wherein a cross bar (31) penetrating through the clamping piece (29) is arranged in the case (20), the clamping piece (29) is horizontally and transversely arranged, and a hole groove matched with the cross bar (31) is formed in the clamping piece (29).

3. The cutting device for aluminum alloy window production according to claim 1, wherein the connecting rod (28) is connected with the arc rod (27) and the movable rod (24) through a first connecting shaft, and the sliding rod (17) is of a U-shaped structure.

4. The cutting device for producing the aluminum alloy window according to claim 1, wherein a slide rail matched with the moving block (15) is arranged at the top end of the second transverse plate (16), and the casing (18) is connected with the second transverse plate (16) through a fixing bolt.

5. The cutting device for producing the aluminum alloy window according to claim 1, wherein the first support rod (12) and the second support rod (13) are respectively connected with the sliding block (8), the fixed block (9) and the moving block (15) through two corresponding connecting shafts.

6. The cutting device for aluminum alloy window production according to claim 1, wherein the transmission mechanism comprises a first rotating shaft (32), a second rotating shaft (33) and a third rotating shaft (34) which are sequentially arranged in the casing (18) from top to bottom, the first rotating shaft (32), the second rotating shaft (33) and the third rotating shaft (34) are symmetrically provided with the cutting knives (19) matched with the first rotating shaft (32), one side of the first rotating shaft (32) is connected with the output end of the driving motor in the casing (18), the first rotating shaft (32) is sleeved with a first belt (35) connected with the second rotating shaft (33), and the second rotating shaft (33) is symmetrically provided with a second belt (36) connected with the third rotating shaft (34).

7. A cutting device for aluminium alloy window production according to claim 6, characterized in that the first rotating shaft (32) and the second rotating shaft (33) are provided with a first belt pulley (37) matching the first belt (35).

8. The cutting device for aluminum alloy window production according to claim 7, wherein the second belt (36) is connected with the second rotating shaft (33) and the third rotating shaft (34) through a second pulley (38), respectively.

9. The cutting device for aluminum alloy window production according to claim 1, wherein the rotating motor (11) is a forward and reverse rotating motor, and the processing table (2) is provided with a plurality of uniformly distributed discharge outlets (39).

10. A cutting device for aluminium alloy window production according to claim 9, characterized in that a collecting box is provided in the base (1) in connection with the discharge opening (39), and that the base (1) is provided at its bottom end with a transversely arranged backing plate (40).

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