CN112192220A - A four corners group angle machine aircraft nose for processing door and window - Google Patents

Abstract

The utility model relates to a four corners group angle machine aircraft nose for processing door and window belongs to aluminum alloy door and window, curtain processing equipment technical field, including the frame and set up the workstation in the frame, its characterized in that: still include the base that is connected with the frame, be equipped with the layer board that the slidable is close to the workstation on the base, the layer board is close to workstation direction tip both sides and respectively is equipped with group angle blade holder, be equipped with group angle sword on the group angle blade holder, the group angle sword symmetry of both sides sets up, and the group angle blade holder of both sides passes through the lead screw to be fixed on the layer board. The machine head can effectively prevent the dislocation of the corner combination of the aluminum alloy door and window.

Description

A four corners group angle machine aircraft nose for processing door and window

Technical Field

The utility model belongs to the technical field of aluminum alloy door and window, curtain processing equipment, specifically relate to a four corners group angle machine aircraft nose for processing door and window.

Background

The statements herein merely provide background related to the present disclosure and may not necessarily constitute prior art.

At present, along with the popularization and development of aluminum alloy doors and windows, aluminum alloy door and window processing enterprises are developing towards the direction of intensive and standardized modernization, along with the continuous development and growth of aluminum alloy door and window processing enterprises, more and more domestic and foreign large and medium aluminum alloy door and window processing enterprises need production lines which are stable, reliable and suitable for the aluminum alloy door and window processing industry, have higher automation degree, corner combining is a key step of aluminum alloy door and window production, the aluminum alloy door and window corner combining equipment in the prior art is provided with a single-corner combining machine, a double-corner combining machine, a vertical four-head corner combining machine, a full-automatic four-corner combining production line of aluminum alloy doors and windows and a four-head numerical control corner combining production line all adopt oil cylinder corner combining, and because the oil pressures of oil cylinders cannot be completely the same, the corner combining oil cylinders are asynchronous, the acting force is asynchronous, the above devices obviously cannot meet the requirements of modern production.

Disclosure of Invention

To the technical problem that prior art exists, this disclosure provides a four corners group angle machine aircraft nose for processing door and window.

The utility model discloses an at least embodiment provides a four corners group angle machine aircraft nose for processing door and window, including base and the work platen of setting on the base, still include the first layer board that is connected with the base, be equipped with the second layer board that the slidable is close to the work platen on the first layer board, the second layer board is close to workstation direction tip both sides and respectively is equipped with group angle blade holder, be equipped with group angle sword on the group angle blade holder, the group angle sword symmetry of both sides sets up, and the group angle blade holder of both sides passes through the lead screw to be fixed on the layer board.

Furthermore, the group angle knife holder comprises a group angle knife height adjusting frame, a lifting sliding groove is formed in the group angle knife height adjusting frame, an adjusting bolt is fixed in the lifting sliding groove, and the group angle knife is connected with the adjusting bolt through threads.

Furthermore, the height adjusting frame of the corner combining knife is provided with a bulge and a tension block on two sides of the height direction of the lifting sliding groove respectively, the corner combining knife is in contact with the bulge, and the tension block is in contact with the corner combining knife in a sliding mode.

Furthermore, a handle for controlling the tension block to move is arranged on the corner combining knife height adjusting frame, and the handle penetrates through the corner combining knife height adjusting frame to be connected with the tension block through threads.

Furthermore, the end part of a screw rod connected with the corner combining tool apron in the direction far away from the working table plate is connected with a servo motor, the servo motor is in transmission connection with the screw rod through a worm gear reducer, a nut is arranged on the screw rod, meanwhile, a guide rail is arranged on one side, parallel to the screw rod direction, of the supporting plate, a sliding block is arranged on the guide rail, the tops of the sliding block and the nut are connected with a sliding plate, and the corner combining tool apron is fixed on the sliding plate through a bolt.

Furthermore, two sliding guide rails are arranged on the first supporting plate, and sliding blocks are arranged on the sliding guide rails; and meanwhile, a transmission lead screw parallel to the sliding guide rails is arranged between the two sliding guide rails, a transmission nut is arranged on the transmission lead screw, and the second supporting plate is simultaneously connected with the sliding block and the transmission nut.

Furthermore, a pressing device for pressing the door and the window is fixedly arranged on the working table plate, and an outer positioning device and an inner positioning device for positioning the door and the window are further arranged on the working table plate.

Furthermore, the pressing device comprises a clamp fixing shaft arranged on the working table plate, at least two clamps are arranged at the top end of the clamp fixing shaft, a pressing cylinder perpendicular to the working table plate is arranged on each clamp, and the end part of a telescopic rod of each pressing cylinder is connected with a pressing head.

Furthermore, the outer positioning device comprises an outer positioning device arranged on the working table plate, an auxiliary outer positioning working table is arranged on one side, away from the working table plate, of the working table plate, a guide groove is formed in the auxiliary outer positioning working table in the outer positioning direction, a slidable auxiliary outer positioning support is arranged in the guide groove, and an auxiliary outer positioning matched with the outer positioning is arranged on the auxiliary outer positioning support.

Further, interior positioner is including being fixed in the interior location support on the first layer board, be equipped with the slider that is parallel to each other on interior location support and the workstation support respectively, sliding connection guide rail on the slider, be fixed with interior location support on the guide rail, be equipped with the lift cylinder on the interior location support, the stiff end of lift cylinder is connected with interior location support, the removal end of lift cylinder respectively with interior location support and workstation leg joint, still including being fixed in interior location cylinder on the interior location support, with the reinforcing plate that interior location support passes through guide rail and slider sliding connection, be equipped with cylinder connecting plate and interior location fixed block on the reinforcing plate, the removal end of interior location cylinder is connected with the cylinder connecting plate, be fixed with interior setting element on the interior location.

The beneficial effects of this disclosure are as follows:

(1) the transmission is realized through the lead screw to the group angle sword support of the symmetry setting in this four corners group angle machine aircraft nose, with the help of its transmission of servo motor control, compares in traditional hydro-cylinder group angle like this, and lead screw drive has effectively solved the problem of group angle sword asynchronous, has solved the problem of group angle dislocation promptly, has ensured product quality again, has reduced the defective percentage of product.

(2) The corner combining knife in the four-corner combining machine head can be adjusted in height by rotating the adjusting bolt, and the corner combining knife is simple in structure, convenient to adjust and suitable for processing of aluminum alloy doors and windows of thickness types.

(3) The four corners angle machine aircraft nose of this disclosure passes through servo motor digitally controlled adjustment group angle sword, has solved the problem that the adjustment of group angle sword is wasted time and energy to shorten the time because of changing different specification section bar adjusting device, improved rate of equipment utilization.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure and are not to limit the disclosure.

Fig. 1 is a front view of a nose structure of a four-corner combining machine provided by an embodiment of the disclosure;

fig. 2 is a left side view of a nose structure of a four-corner combining machine provided by an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a non-supporting plate B in a head structure of a four-corner combining machine provided by the embodiment of the disclosure;

FIG. 4 is a structural view of a component B of a support plate in a nose of a four-corner combining machine provided by the embodiment of the disclosure;

fig. 5 is a schematic structural diagram of a pressing device in a nose structure of a four-corner combining machine provided by an embodiment of the disclosure;

fig. 6 is a schematic structural diagram of an external positioning device in a handpiece structure of a four-corner combining machine provided by the embodiment of the present disclosure;

FIG. 7 is a schematic axial view of an inner positioning device in a nose structure of a four-corner combining machine provided by an embodiment of the present disclosure;

FIG. 8 is an isometric view of another orientation of the inner positioning device in a four corner cube corner machine head structure provided by an embodiment of the present disclosure;

fig. 9 is a schematic structural view of a corner combining tool apron in a nose structure of a four corner combining machine provided in an embodiment of the present disclosure.

In the figure: 1-supporting plate A component, 2-supporting plate B component, 3-workbench component, 4-corner combining device, 5-outer positioning device, 51-auxiliary outer positioning, 52-auxiliary outer positioning bracket, 53-auxiliary outer positioning guide groove, 54, outer positioning fixing plate, 55-outer positioning, 6-pressing device, 61-pressing air cylinder, 62-clamper, 63-clamper fixing shaft, 64-pressure head, 65-working plate, 7-positioning backup plate, 8-inner positioning device, 81, inner positioning bracket, 82, inner positioning support, 83, lifting air cylinder, 84, inner positioning air cylinder, 85, air cylinder connecting plate, 86, inner positioning fixing block, 87, inner positioning piece, 9-supporting plate A, 10-guide rail A, 11-sliding block A, 12-ball screw A, 13-ball screw support A, 14-ball screw support B, 15-worm gear reducer A, 16-servo motor A, 17-ball screw nut A, 18-supporting plate B, 19-guide rail B, 20-sliding block B, 21-sliding block connecting plate A, 22-speed reducer fixing plate A, 23-worm gear reducer B, 24-servo motor B, 25-ball screw B, 26-ball screw support C, 27-ball screw support D, 28-ball screw nut B, 29-guide rail C, 30-sliding block C, 31-sliding block connecting plate B, 32-speed reducer fixing plate B, 33-worm gear reducer C, 34-servo motor C, 35-ball screw C, 36-ball screw support E, E, 37-a ball screw support F, 38-a ball screw nut C, 39-a workbench support I, 40-a workbench support II, 41-a workbench plate, 42-a group angle tool apron A, 43-a group angle tool A, 44-a group angle tool height adjusting device A, 45-a group angle tool apron B, 46-a group angle tool B, 47-a group angle tool height adjusting device B.

Detailed Description

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure belongs.

As shown in fig. 1, an embodiment of the present disclosure provides a structural schematic diagram of a novel four-corner-combining machine head for processing doors and windows, where the machine head mainly includes a supporting plate a component 1, a supporting plate B component 2, a workbench component 3, and a corner combining device 4. The supporting plate B component 2 is arranged on the supporting plate A component in a sliding mode and can move left and right on the supporting plate A component, the two sides of the end portion of the workbench in the direction on the supporting plate B component 2 are respectively provided with an angle assembling device 4, angle assembling knives are arranged on the angle assembling devices 4, the angle assembling knives on the two sides are symmetrically arranged, and the angle assembling knife blocks on the two sides are fixed on the supporting plate B component 2 through screws.

As shown in fig. 2-3, the support plate a in this example is provided with two parallel guide rails a10, each of the two guide rails a is provided with a slide block a11, each of the two parallel guide rails a11 is provided with a set of screw transmission system, the screw transmission system mainly includes a ball screw support a13, a ball screw support B14 and a ball screw a12 arranged between the two supports, wherein one end of the ball screw a12 is fixed with a worm gear reducer a15, the worm gear reducer a15 is connected with a servo motor a16, the ball screw a12 is provided with a ball screw nut a17, the slide block a11 and the ball screw nut a17 are provided with bolt holes, and the two components are connected with the support plate B18 through bolts, so that the rotation of the ball screw a can drive the support plate B18 to move.

Furthermore, the middle of the supporting plate B18 is provided with a horizontal groove, one end of the horizontal groove in the length direction penetrates through one end of the supporting plate B18 in the length direction, and the other end of the supporting plate B is connected with the sliding block A11 and the ball screw nut A17. As shown in fig. 1 and 4, two sets of angle assembling devices 4 are symmetrically arranged at one end of the supporting plate B, and are divided into a left angle assembling device and a right angle assembling device, wherein the left corner combining device mainly comprises a speed reducer fixing plate A22, a servo motor B24 is arranged on the speed reducer fixing plate 22, the servo motor B24 is connected with a worm gear speed reducer B23, the output end of the turbine worm speed reducer B23 is connected with a driving gear, one side of the turbine worm speed reducer B is also provided with a set of lead screw transmission system, the screw drive system comprises a ball screw support C26 and a ball screw support D27, a ball screw B25 is arranged between the two supports, a ball screw nut B28 is arranged on the ball screw B25, wherein one end of the ball screw B25 close to the worm gear reducer B23 is provided with a driven gear, the driven gear is meshed with a driving gear at the output end of the worm gear speed reducer B23 to realize the rotation of the ball screw B25.

Further, a guide rail B19 parallel to the ball screw B25 is arranged on one side of the ball screw B25 in the extending direction, a sliding block B20 is arranged on the guide rail B19 in a sliding mode, the sliding block B20 and a ball screw nut B25 are jointly used for fixing a sliding plate of the corner combining knife, an assembly knife holder 42 and a corner combining knife holder 45 are arranged on the sliding plate, the corner combining knife holder is provided with the corner combining knife, rotation of the ball screw B25 is achieved through transmission of a main gear and a driven gear, and then the corner combining knife holder is moved.

It should be noted that the right corner combining device in this embodiment mainly includes a speed reducer fixing plate B32, a turbine speed reducer C33, a servo motor C34, a ball screw C35, a ball screw holder E36, a ball screw holder F37, and a ball screw nut C35, wherein a guide rail C29 is disposed on one side of the ball screw C35, a slider C30 is mounted on the guide rail C29, and the connection relationship and the disposition position between these specific components are symmetrically disposed with the left corner combining device.

Through the arrangement, compared with the traditional oil cylinder corner assembling, the lead screw transmission effectively solves the problem that corner assembling cutters are not synchronous, namely the problem that corner assembling dislocation is caused is solved, the product quality is guaranteed, and the defective rate of products is reduced. Meanwhile, the angle knife is adjusted through digital control of the servo motor, and the problem that time and labor are wasted in adjustment of the angle knife is solved, so that the time for replacing profile adjusting equipment with different specifications is shortened, and the equipment utilization rate is improved.

Furthermore, when the door and window are processed, the door and window need to be fixed on the workbench component 3, then the door and window are fixed by the inner positioning device 8, the outer positioning device 5 and the pressing device 6,

as shown in fig. 5, the pressing device 6 in this embodiment mainly includes a pressing cylinder 61, a holder 62, a pressing head 64, and a holder fixing shaft 63, wherein the holder fixing shaft 63 is fixed on the work table 3, the holder 62 is fixed on the top end of the holder fixing shaft 63, the pressing cylinder 61 is fixed on the holder 62, and the pressing head is fixed on the end of the pressing cylinder 61, so that the door and window is pressed on the work table by the pressing head through the expansion and contraction of the pressing cylinder.

As shown in fig. 6, the external positioning device 5 mainly includes an auxiliary external positioning 51, an auxiliary external positioning support 52, an auxiliary external positioning guide groove 53, an external positioning fixing plate 54 and an external positioning 55, wherein the external positioning fixing plate 54 is fixed on the work table 3, the external positioning 55 is fixed on the external positioning fixing plate 3 through bolts, the auxiliary external positioning guide groove is fixed on the work table support i 39, the auxiliary external positioning support is mounted on the guide groove, the auxiliary external positioning is mounted on the auxiliary external positioning support, the external positioning device further includes an auxiliary external positioning adjusting bolt fixing plate fixed on the work table support i 39, an adjusting bolt is fixed on the auxiliary external positioning adjusting bolt fixing plate, and one end of the adjusting bolt is connected with the auxiliary external positioning support.

As shown in fig. 7-8, the inner positioning device 8 comprises an inner positioning bracket 81 fixed on the part a1 of the supporting plate, a sliding block is respectively arranged on the inner positioning bracket 81 and the second worktable bracket 40 in parallel, a guide rail is connected on the sliding block in a sliding way, an inner positioning support 82 is fixed on the guide rail, fixed ends of a lifting cylinder 83 are fixed at two ends of the positioning support, moving ends of the lifting cylinder are respectively connected with the inner positioning bracket and the second worktable bracket, the inner positioning device also comprises an inner positioning cylinder 84 fixed on the inner positioning support, a reinforcing plate connected with the inner positioning support in a sliding way through the guide rail and the sliding block, a cylinder connecting plate 85 and an inner positioning fixing block 86 are fixed on the reinforcing plate, a moving end of the inner positioning cylinder is connected with the cylinder connecting plate, an inner positioning member 87 is fixed on the inner positioning fixing, and then the inner positioning piece is contacted with the inner side surface of the corner of the aluminum alloy door and window frame to complete the inner positioning.

Further, in order to adjust the height of the corner-knife assembly, and to be suitable for processing aluminum alloy doors and windows with different heights, as shown in fig. 9, the assembly knife holder 42 and the corner-knife assembly knife holder 45 in this embodiment are respectively provided with corner-knife assemblies a43 and B46) and corner-knife height adjusting devices a44 and B47, the corner-knife height adjusting devices are used for adjusting the height of the corner-knife assembly, the corner-knife assembly knife holder 42 and the corner-knife assembly knife holder 45 are symmetrically arranged with respect to each other, the left corner-side corner-knife assembly knife holder 42 is taken as an example to describe in detail the specific structure of the knife holder, and the right corner-knife assembly knife holder is symmetrically arranged, so that redundant description is omitted.

Group's angle blade holder 42 includes height adjustment frame 48, the bottom round of subassembly blade holder evenly is equipped with a plurality of bolt holes and is used for passing through bolted connection with the layer board the centre of subassembly blade holder is fixed with height adjustment frame, height adjustment frame is equipped with the sliding tray along the direction of height, be equipped with the adjusting bolt 49 of a vertical installation in the sliding tray, adjusting bolt is last to be connected group's angle sword, adjusting bolt's top is passed through adjusting bolt gasket 50 and is fixed on height adjustment frame, can adjust adjusting bolt like this and realize organizing the ascending regulation of angle sword direction of height. Further, in order to ensure the stability of the gang saw, in this embodiment, a tensioning block 51 is disposed on one side of the sliding groove of the height adjusting bracket, the tensioning block can move in the horizontal direction, an adjustable handle 52 is disposed on one side of the height adjusting bracket, and the movement of the tensioning block can be realized by rotating the adjustable handle to fix the gang saw.

The novel four-corner combining machine head is used as follows:

the transmission mechanism falls the aluminum alloy door and window frame on the working table plate 41, then the servo motor drives the supporting plate A1 part to drive the outer positioning device 5 and the positioning backup plate 7 on the working table plate 41 to move and position the outer angle of the aluminum alloy door and window frame, after the outer positioning device 5 and the positioning backup plate 7 are positioned, the inner positioning device 8 starts to position the inner angle of the aluminum alloy door and window frame under the drive of the air cylinder, after the inner angle of the aluminum alloy door and window frame is positioned, the pressing device 6 presses the aluminum alloy door and window frame tightly, then the servo motor A16 drives the supporting plate B2 part to the position to be subjected to angle combination, and after the position is reached, the servo motor B24 and the servo motor C34 simultaneously drive the angle combination knife block A42 and the angle combination knife B46 to respectively drive the angle combination knife A43 and the angle combination knife B. After the corner combining is finished, the corner combining knife A43, the corner combining knife B46, the pressing device 6 and the inner positioning device 8 return to the original positions in sequence, the outer positioning device 5 and the positioning backup plate 7 return to the transmission positions, and the transmission mechanism transmits the aluminum alloy doors and windows out.

Finally, the above embodiments are only intended to illustrate the technical solutions of the present disclosure and not to limit, although the present disclosure has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present disclosure without departing from the spirit and scope of the technical solutions, and all of them should be covered in the claims of the present disclosure.

Although the present disclosure has been described with reference to specific embodiments, it should be understood that the scope of the present disclosure is not limited thereto, and those skilled in the art will appreciate that various modifications and changes can be made without departing from the spirit and scope of the present disclosure.

Claims (10)

1. The utility model provides a four corners group angle machine aircraft nose for processing door and window, includes base and the work platen of setting on the base, its characterized in that: the automatic angle-adjusting device is characterized by further comprising a first supporting plate connected with the base, a second supporting plate which can slide close to the working table plate is arranged on the first supporting plate, angle-adjusting knife seats are respectively arranged on two sides of the end portion, close to the direction of the working table, of the second supporting plate, angle-adjusting knives are arranged on the angle-adjusting knife seats, the angle-adjusting knives on the two sides are symmetrically arranged, and the angle-adjusting knife seats on the two sides are fixed on the supporting plate through screws.

2. The machine head of a four-corner combining machine for machining doors and windows according to claim 1, wherein the corner combining tool apron comprises a corner combining tool height adjusting frame, a lifting sliding groove is formed in the corner combining tool height adjusting frame, an adjusting bolt is fixed in the lifting sliding groove, and the corner combining tool is in threaded connection with the adjusting bolt.

3. The head of claim 2, wherein the height adjusting frame of the corner-combining tool is provided with a protrusion and a tension block at two sides of the height direction of the lifting sliding groove, the assembly tool contacts with the protrusion, and the tension block contacts with the corner-combining tool in a sliding manner.

4. The head of a four corner-cube corner machine according to claim 3, wherein the height-adjusting frame of the corner-cube corner-.

5. The machine head of a four-corner combining machine for processing doors and windows according to claim 1, wherein a screw rod connected with the corner combining tool apron is connected with a servo motor at the end part far away from the direction of the working platen, the servo motor is in transmission connection with the screw rod through a worm gear and worm reducer, the screw rod is provided with a nut, a guide rail is arranged on one side of the supporting plate parallel to the direction of the screw rod, the guide rail is provided with a slide block, the tops of the slide block and the nut are connected with a sliding plate, and the corner combining tool apron is fixed on the sliding plate through a.

6. The head of the four-corner-combining machine for doors and windows according to claim 1, wherein the first supporting plate is provided with two sliding rails, and the sliding rails are provided with sliding blocks; and meanwhile, a transmission lead screw parallel to the sliding guide rails is arranged between the two sliding guide rails, a transmission nut is arranged on the transmission lead screw, and the second supporting plate is simultaneously connected with the sliding block and the transmission nut.

7. The head of claim 1, wherein the working platen has a pressing device for pressing the door and window, and the working platen has an outer positioning device and an inner positioning device for positioning the door and window.

8. The head of claim 7, wherein the pressing device comprises a holder fixing shaft disposed on the working platen, the holder fixing shaft has at least two holders at a top end thereof, the holder is provided with a pressing cylinder perpendicular to the working platen, and an end of a telescopic rod of the pressing cylinder is connected to the pressing head.

9. The head as claimed in claim 7, wherein the outer positioning device comprises an outer positioning member disposed on the working platen, an auxiliary outer positioning table disposed on a side of the working platen away from the working platen, a guide groove disposed on the auxiliary outer positioning table along the direction of the outer positioning member, an auxiliary outer positioning bracket slidably disposed in the guide groove, and an auxiliary outer positioning member disposed on the auxiliary outer positioning bracket and engaged with the outer positioning member.

10. The machine head of the four corner combining machine for processing doors and windows according to claim 7, wherein the inner positioning device comprises an inner positioning support fixed on the first supporting plate, the inner positioning support and the workbench support are respectively provided with a sliding block parallel to each other, the sliding block is connected with a guide rail in a sliding manner, an inner positioning support is fixed on the guide rail, the positioning support is provided with a lifting cylinder, the moving end of the lifting cylinder is respectively connected with the inner positioning support and the workbench support, the machine head further comprises an inner positioning cylinder fixed on the inner positioning support, and a reinforcing plate which is in sliding connection with the inner positioning support through the guide rail and the sliding block, the reinforcing plate is provided with a cylinder connecting plate and an inner positioning fixed block, the moving end of the inner positioning cylinder is connected with the.

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