CN214683740U

CN214683740U - Synchronous moving die-cutting machine for two ends of mullion of door and window aluminum alloy

Info

Publication number: CN214683740U
Application number: CN202120690005.7U
Authority: CN
Inventors: 龙运霆; 崔阳; 王向阳
Original assignee: Shanghai Ditan Energy Saving Technology Co ltd
Current assignee: Shanghai Ditan Energy Saving Technology Co ltd
Priority date: 2021-04-06
Filing date: 2021-04-06
Publication date: 2021-11-12
Anticipated expiration: 2031-04-06

Abstract

The utility model relates to a door and window aluminum alloy processing and automatic technical field just disclose a both ends synchronous movement die-cutting machine of club in door and window aluminum alloy, including the equipment main part, the upper end of equipment main part is provided with removes hydraulic platform, the side of equipment main part is provided with the connection mesa, the upper end of removing hydraulic platform is provided with die-cut device, the side of die-cut device is provided with the feed table, the feed inlet has been inlayed to the upper end of feed table, the front end of equipment main part is provided with the fixed station, the upper end of fixed station is provided with the limiting plate, the inboard of equipment main part is provided with the chute feeder. This club's both ends synchronous movement die cutting machine in door and window aluminum alloy possesses degree of automation height, need not the manual work and carries out loaded down with trivial details operation, lowers the hand labor power, and its equipment machining efficiency is high when using, has solved the problem that manual operation process is numerous and diverse, work efficiency is low, degree of automation is low.

Description

Synchronous moving die-cutting machine for two ends of mullion of door and window aluminum alloy

Technical Field

The utility model relates to a door and window aluminum alloy processing and automatic technical field specifically are a both ends synchronous movement die cutting machine of club in door and window aluminum alloy.

Background

At present, the mullion of the domestic aluminum alloy door and window is mostly processed by firstly adopting a sawing machine to saw and cut according to the dimension required by a drawing, and then adopting machine tool milling modes such as a full-automatic milling machine and the like to mill a water falling hole, a handle hole, a pin hole, a double-sided milling end face and the like of the mullion.

The existing processing equipment has certain defects when in use, firstly, the field noise is large, the operation environment is poor, the automation degree of the equipment is low, the working efficiency is not high, secondly, the equipment is used, the multi-process processing is repeated, and the manual operation is complex.

Therefore, the punching machine capable of synchronously moving the two ends of the aluminum alloy mullion of the door and the window is provided.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a both ends synchronous movement die cutting machine of club in door and window aluminum alloy possesses degree of automation height, need not the manual work and carries out loaded down with trivial details operation, lowers artifical labour, and its equipment machining efficiency is high when using, and linkage performance is strong, has solved manual operation a great deal, and work efficiency is low, problem that degree of automation is low.

For realizing above-mentioned degree of automation height, need not the manual work and carry out loaded down with trivial details operation, reduce the hand labor power, its equipment machining efficiency is high when using, and linkage performance is strong purpose, the utility model provides a following technical scheme:

the utility model provides a both ends synchronous movement die-cutting machine of club in door and window aluminum alloy, includes the equipment main part, the upper end of equipment main part is provided with removes hydraulic platform, the side of equipment main part is provided with the connection mesa, the upper end of removing hydraulic platform is provided with die-cut device, the side of die-cut device is provided with the feed table, the feed inlet has been inlayed to the upper end of feed table, the front end of equipment main part is provided with the fixed station, the upper end of fixed station is provided with the limiting plate, the inboard of equipment main part is provided with the chute feeder, the lower extreme of chute feeder is provided with the slurcam, the upper end of slurcam is provided with L type piece.

In some embodiments, the lower end of the movable hydraulic platform is movably embedded in the inner side of the equipment main body, the punching device and the movable hydraulic platform are fixedly connected, the number of the movable hydraulic platform and the punching device is two, and the movable hydraulic platform and the punching device are symmetrically arranged, the connecting table top and the equipment main body are fixedly connected, the feed inlet penetrates through the feed table, the feed chute, the feed table and the connecting table top are fixedly connected, the inner side of the feed chute is embedded with the processing middle support and movably connected, the lower end of the push plate is provided with the stabilizing frame and movably connected, the connecting seat is arranged at the joint of the L-shaped block and the push plate, the L-shaped block and the push plate are movably connected through the connecting seat, the L-shaped blocks are arranged in a plurality and are arranged in a linear array, the movable sleeve is movably embedded in the inner side of the fixing table, the inner side of the movable sleeve is provided with a brake shaft which is movably connected with the movable sleeve.

In some embodiments, the outer surface of the brake shaft is provided with a first spring, the first spring is movably connected with the movable sleeve and the brake shaft, the inner side of the movable sleeve is embedded with a limit groove, the inner side of the limit groove is provided with a lug which is movably connected with the movable sleeve in an embedded manner, the lug is fixedly connected with the brake shaft, the lower end of the brake shaft penetrates through the movable sleeve, the lower end of the movable sleeve is fixedly provided with a first helical gear, the rear end of the connecting table is fixedly provided with a motor, the front end of the motor is movably embedded with a transmission shaft, the side end of the motor is provided with a fixed block, the fixed block is fixedly connected with the equipment main body, the side end of the fixed block is provided with a first transmission arm, a connecting shaft is arranged between the fixed block and the first transmission arm and is movably connected with the fixed block through the connecting shaft, and the transmission shaft and the connecting shaft are provided with a transmission belt on the outer surface of the connecting shaft, and the transmission belt is in transmission connection with both the transmission belt and the transmission belt.

In some embodiments, a second transmission arm is arranged at the side end of the first transmission arm, a connecting shaft is arranged at the joint of the first transmission arm and the second transmission arm, the first transmission arm and the second transmission arm are movably connected through the connecting shaft, a connecting piece is fixedly arranged at the lower end of the push plate, a connecting shaft is arranged between the second transmission arm and the connecting piece, the second transmission arm and the connecting piece are movably connected through the connecting shaft, a limiting support plate is fixedly embedded at the inner side of the feeding groove, a second threaded rod is movably embedded at the inner side of the limiting support plate, a fourth belt is arranged on the outer surfaces of the second threaded rod and the transmission shaft, the fourth belt and the fourth belt are in transmission connection, a second gear is arranged at the rear end of the second threaded rod, the second gear and the second gear are mutually meshed and movably connected, a third limiting shaft is fixedly arranged at the inner side of the second gear, and the lower end of the third limiting shaft is movably embedded at the inner side of the feeding groove, no. three spacing axles are provided with No. five belts with movable sleeve's surface, and No. five belts are the transmission with both and are connected, the incorgruous threaded rod has been inlayed to the inboard of equipment main part, the incorgruous threaded rod runs through in removal hydraulic platform and equipment main part, and the incorgruous threaded rod is swing joint with both.

In some embodiments, a second limiting shaft is movably embedded in the inner side of the limiting plate, a third belt is arranged at the side ends of the anisotropic threaded rod and the second limiting shaft, the third belt and the second limiting shaft are in transmission connection, a second helical gear is fixedly arranged at the side end of the second limiting shaft, the second helical gear and the first helical gear are meshed with each other to form movable connection, a connecting plate is fixedly arranged at the upper end of the feeding groove, a limiting frame is fixedly arranged at the side end of the connecting plate, a first screw is movably embedded in the inner side of the limiting frame, a first belt is arranged on the outer surfaces of the first screw and the transmission shaft, the first belt and the second belt are in transmission connection, a first limiting shaft is movably embedded in the inner side of the connecting plate, a first gear is fixedly arranged at the rear end of the first limiting shaft, and the first gear and the first screw are meshed with each other to form movable connection, the fixed plate that is provided with in upper end of limiting plate, the slider has been inlayed in the inboard activity of fixed plate, the inboard of slider is provided with the fixed axle, the fixed axle runs through in fixed plate and slider, and the fixed axle is swing joint with both, the front end of slider is provided with No. four driving arms.

In some embodiments, the slider is provided with the connecting axle with the junction of No. four driving arms, and both are swing joint through the connecting axle, the front end of No. four driving arms is provided with No. three driving arms, be provided with the connecting axle between No. four driving arms and No. three driving arms, and both are swing joint through the connecting axle, the front end of No. three driving arms is fixed to be inlayed the rotation axis, the side of rotation axis is provided with the connecting block, and connecting block and limiting plate are fixed connection, the rotation axis inlays in the inboard of connecting block, and both are swing joint, the side of fixed plate is provided with spacing fastener, and spacing fastener is fixed connection with the equipment main part, the front end of fixed axle is fixed to be inlayed fixed pipe, the fixed sucking disc that is provided with of lower extreme of fixed pipe, the fixed guide roll that is provided with in side of fixed plate.

In some embodiments, the outer surfaces of the first limiting shaft, the first rotating shaft, the first guiding piece and the first guiding roller are provided with a second belt, the second belt and the fourth belt are in transmission connection, the fixing pipe and the limiting clamping piece are mutually embedded and movably connected, the upper end of the fixing pipe is provided with a cover plate, the fixing pipe and the limiting clamping piece are movably connected, and the lower end of the cover plate is fixedly provided with a piston ball.

In some embodiments, the piston ball and the fixed pipe are embedded into each other and movably connected, a pin is disposed at a side end of the piston ball and fixedly connected to the cover plate, the pin is embedded in an inner side of the fixed pipe and movably connected to the fixed pipe, a second spring is disposed at a lower end of the pin, and an upper end and a lower end of the second spring are correspondingly and fixedly embedded in inner sides of the pin and the fixed pipe.

The utility model provides a both ends synchronous movement die cutting machine of club in door and window aluminum alloy has following beneficial effect:

1. the punching machine capable of synchronously moving two ends of the door and window aluminum alloy mullion is characterized in that through the matching of the feeding groove, the pushing plate and the L-shaped block, when the middle support is processed, a user stores the middle support in the feeding hole in advance to enable the middle support to freely fall in the feeding groove, the motor enables the push plate to do linear reciprocating motion through the driving belt, the first driving arm and the second driving arm, when the pushing plate moves to the left side, the L-shaped block can push the processing middle support to the lower end of the sucking disc, then the pushing plate drives the L-shaped block to move to the right side, when the L-shaped block moves rightwards, the machining middle support on the right side limits the upper end part of the L-shaped block, so that the L-shaped block is turned over towards the left side end, meanwhile, the L-shaped block can directly penetrate through the lower end of the processing middle support until reaching the gap between the processing middle supports and returns to the right position under the self framework of the L-shaped block, and the processing middle support is not required to be conveyed manually.

2. The synchronous moving die cutting machine for the two ends of the aluminum alloy mullion of the door and window comprises a fixed plate, a sliding block, a fixed shaft and a fixed pipe, wherein after a mullion moves to the lower end of a sucker in the processing process, a first limiting shaft enables a rotating shaft to rotate through a second belt, the sliding block moves back and forth in the fixed plate under the cooperation of a third transmission arm and a fourth transmission arm, the fixed shaft drives the fixed pipe to move up and down, when the fixed shaft drives the fixed pipe to move to the upper end of the mullion in the processing process, the fixed pipe enables the sucker to be attached to the surface of the mullion in the processing process and extrudes air in the sucker, compressed air can push a cover plate and a piston ball to leak out, the sucker and the fixed pipe form negative pressure, the mullion in the processing process can be sucked up, when the fixed pipe moves to the upper part of a fixed platform, the fixed pipe can be embedded in the limiting clamping piece and pulls the cover plate, the air enters the fixed pipe, so that the sucker can be separated from the processing mullion, and the processing mullion can be placed on the fixed table instead of manual work.

3. This both ends synchronous movement die cutting machine of club in door and window aluminum alloy, cooperation through braking axle and movable sleeve and incorgruous threaded rod and No. three belts, when the stile was placed on the fixed station in processing, can push down the inside braking axle of movable sleeve, make a helical gear and No. two helical gear intermeshing of braking axle lower extreme, its motor passes through the cooperation of No. two gears and No. three spacing axles and No. five belts, it rotates to make movable sleeve drive the braking axle, make No. two spacing axles drive incorgruous threaded rod through a helical gear and No. two helical gears simultaneously and rotate, alright make the removal hydraulic pressure platform drive die-cut device and carry out synchronous phase to each other and remove, the operation of processing the stile.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the structure of the motor of the present invention;

FIG. 3 is a schematic structural view of a third belt of the present invention;

FIG. 4 is a schematic structural view of a second gear of the present invention;

fig. 5 is a schematic structural view of the fourth transmission arm of the present invention;

fig. 6 is a schematic structural view of the connecting block of the present invention;

FIG. 7 is a schematic structural view of a second bevel gear according to the present invention;

FIG. 8 is a schematic structural view of a second spring according to the present invention;

fig. 9 is a schematic structural view of the first spring of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 9, the embodiment provides a both ends synchronous movement die cutting machine of club in door and window aluminum alloy, as shown in fig. 1, including equipment main part 1, the upper end of equipment main part 1 is provided with removal hydraulic platform 2, the side of equipment main part 1 is provided with connection mesa 3, the upper end of removing hydraulic platform 2 is provided with die-cut device 6, the side of die-cut device 6 is provided with feed table 7, feed table 7's upper end has inlayed feed inlet 8, the front end of equipment main part 1 is provided with fixed station 4, the upper end of fixed station 4 is provided with limiting plate 5, the inboard of equipment main part 1 is provided with chute feeder 9, the lower extreme of chute feeder 9 is provided with slurcam 10, the upper end of slurcam 10 is provided with L11.

The lower extreme activity of removing hydraulic platform 2 inlays in the inboard of equipment main part 1, die-cut device 6 is fixed connection with removing hydraulic platform 2, the quantity of removing hydraulic platform 2 and die-cut device 6 is two sets of, and be the symmetry and arrange, it is fixed connection to connect mesa 3 and equipment main part 1, feed inlet 8 runs through in feed table 7, be fixed connection between chute 9 and feed table 7 and the connection mesa 3, very 46 in the processing has been inlayed to the inboard of chute 9, and both gomphosis are swing joint each other.

The lower extreme of slurcam 10 is provided with steady rest 57, and both gomphosis are swing joint each other, and the junction of L type piece 11 and slurcam 10 is provided with the connecting seat, and both are swing joint through the connecting seat, and the quantity of L type piece 11 is a plurality of, and is linear array and arranges, and movable sleeve 38 has been inlayed in the inboard activity of fixed station 4, and the inboard of movable sleeve 38 is provided with brake shaft 39, and both are swing joint, and die-cut device 6 carries out processing to tappet 46 in the processing.

The outer surface of the brake shaft 39 is provided with a first spring 40 as shown in fig. 9, the first spring 40 is movably connected with the movable sleeve 38 and the brake shaft 39, the inner side of the movable sleeve 38 is embedded with a limit groove 42, the inner side of the limit groove 42 is provided with a lug 41 which is embedded with each other and movably connected, the lug 41 is fixedly connected with the brake shaft 39, the lower end of the brake shaft 39 penetrates through the movable sleeve 38, the lower end of the movable sleeve 38 is fixedly provided with a first helical gear 43, the rear end of the connecting table board 3 is fixedly provided with the motor 12, the front end of the motor 12 is movably embedded with a transmission shaft 16, the side end of the motor 12 is provided with a fixed block 31, the fixed block 31 is fixedly connected with the equipment main body 1, the side end of the fixed block 31 is provided with a first transmission arm 14, a connecting shaft is arranged between the fixed block 31 and the first transmission arm 14, and the fixed block 31 and the first transmission arm 14 are movably connected through the connecting shaft, the transmission shaft 16 and the outer surface of the connecting shaft are provided with a transmission belt 13, the transmission belt 13 and the connecting shaft are in transmission connection, and the first bevel gear 43 can be in mesh transmission with a second bevel gear 44 shown in fig. 7 by moving the braking shaft 39 downwards.

The side of a transmission arm 14 is provided with a transmission arm 15 II, the joint of the transmission arm 14 and the transmission arm 15 II is provided with a connecting shaft, and the transmission arm 14 and the transmission arm 15 II are movably connected through the connecting shaft.

The lower end of the pushing plate 10 is fixedly provided with a connecting piece 30, a connecting shaft is arranged between the second transmission arm 15 and the connecting piece 30, and the second transmission arm and the connecting piece are movably connected through the connecting shaft.

The fixed limit support plate 33 that has inlayed in inboard of chute feeder 9, No. two threaded rods 34 have inlayed in the inboard activity of limit support plate 33, and No. two threaded rods 34 and the surface of transmission shaft 16 are provided with No. four belts 32, and No. four belts 32 and both are the transmission connection.

The rear end of No. two threaded rod 34 is provided with No. two gears 35 as shown in fig. 4, and both intermeshing are swing joint, and the inboard of No. two gears 35 is fixed and is provided with No. three spacing axle 36, and the lower extreme activity of No. three spacing axle 36 inlays in the inboard of chute feeder 9, and No. three spacing axle 36 and movable sleeve 38's surface is provided with No. five belts 37, and No. five belts 37 with both be transmission connection.

The incorgruous threaded rod 26 has been inlayed to the inboard of equipment main part 1, and incorgruous threaded rod 26 runs through in removing hydraulic platform 2 and equipment main part 1, and incorgruous threaded rod 26 and both are swing joint, and the rotation of incorgruous threaded rod 26 alright makes and removes hydraulic platform 2 and drive die-cut device 6 and carry out synchronous motion.

The inner side of the limit plate 5 is movably embedded with a second limit shaft 28, the ends of the incongruous threaded rod 26 and the second limit shaft 28 are provided with a third belt 27 as shown in fig. 3, the third belt 27 and the second limit shaft 28 are in transmission connection, the end of the second limit shaft 28 is fixedly provided with a second bevel gear 44, and the second bevel gear 44 and the first bevel gear 43 are meshed with each other to be in movable connection.

The upper end of chute feeder 9 is fixed and is provided with connecting plate 18, and the side of connecting plate 18 is fixed and is provided with spacing, and the inboard activity of spacing has inlayed screw rod 19 No. one, and screw rod 19 and transmission shaft 16's surface is provided with belt 17 No. one, and belt 17 and both are transmission connection.

A first limiting shaft 21 is movably embedded in the inner side of the connecting plate 18, a first gear 20 is fixedly arranged at the rear end of the first limiting shaft 21, the first gear 20 is movably engaged with the first screw rod 19, the upper end of the limiting plate 5 is fixedly provided with a fixing plate 22, a sliding block 47 is movably embedded in the inner side of the fixing plate 22, a fixing shaft 48 is arranged on the inner side of the sliding block 47, the fixing shaft 48 penetrates through the fixing plate 22 and the sliding block 47, the fixing shaft 48 and the fixing shaft 48 are movably connected, a fourth transmission arm 53 shown in figure 5 is arranged at the front end of the sliding block 47, and the sliding block 47 moves back and forth in the fixing plate 22, so that the fixing shaft 48 can drive the fixing pipe 49 to move up and down.

The connecting shaft is arranged at the joint of the sliding block 47 and the fourth transmission arm 53, the sliding block 47 and the fourth transmission arm 53 are movably connected through the connecting shaft, the third transmission arm 52 is arranged at the front end of the fourth transmission arm 53, the connecting shaft is arranged between the fourth transmission arm 53 and the third transmission arm 52, the connecting shaft is movably connected through the connecting shaft, the rotating shaft 25 is fixedly embedded at the front end of the third transmission arm 52, the connecting block 51 shown in figure 6 is arranged at the side end of the rotating shaft 25, the connecting block 51 is fixedly connected with the limiting plate 5, the rotating shaft 25 is embedded at the inner side of the connecting block 51, the rotating shaft and the limiting plate are movably connected, the limiting clamping piece 45 is arranged at the side end of the fixing plate 22, the limiting clamping piece 45 is fixedly connected with the equipment main body 1, the fixing tube 49 is fixedly embedded at the front end of the fixing shaft 48, the sucking disc 50 is fixedly arranged at the lower end of the fixing tube 49, the guide roller is fixedly arranged at the side end of the fixing plate 22, under the cooperation of the guide roller and the guide piece 23, the first limiting shaft 21 drives the rotating shaft 25 to rotate through the second belt 24.

No. two belts 24 are arranged on the outer surfaces of the first limiting shaft 21, the rotating shaft 25, the guiding piece 23 and the guide roller, the second belts 24 and the fourth belts are in transmission connection, the fixed pipe 49 and the limiting clamping piece 45 are mutually embedded and movably connected, a cover plate 54 is arranged at the upper end of the fixed pipe 49 and movably connected with the fixed pipe 49, a piston ball 29 is fixedly arranged at the lower end of the cover plate 54, and the piston ball 29 can enable the fixed pipe 49 to be in a temporary sealing state.

The piston ball 29 and the fixed pipe 49 are embedded with each other and movably connected, a plug pin 56 is arranged at the side end of the piston ball 29, the plug pin 56 and the cover plate 54 are fixedly connected, the plug pin 56 is embedded in the inner side of the fixed pipe 49 and movably connected, a second spring 55 shown in fig. 8 is arranged at the lower end of the plug pin 56, the upper end and the lower end of the second spring 55 are correspondingly and fixedly embedded in the plug pin 56 and the inner side of the fixed pipe 49, and the cover plate 54 can be pulled by the second spring 55.

The working principle is as follows: when the device is used, a user only needs to store the processing middle support 46 to be processed in the feed inlet 8, the device main body 1 can be started, the pushing plate 10 drives the L-shaped block 11 to move, the processing middle support 46 can be moved to the lower end of the suction disc 50, then under the driving of the motor 12, the rotating shaft 25 can drive the fixing tube 49 to move up and down through the matching of the third transmission arm 52 and the fourth transmission arm 53, the processing middle support 46 can be moved to the upper end of the fixing table 4 to be processed through the suction of the suction disc 50 on the processing middle support 46, when the processing middle support 46 is placed at the upper end of the fixing table 4, the braking shaft 39 in the movable sleeve 38 can be pressed downwards, the first helical gear 43 is meshed with the second helical gear 44, the second limiting shaft 28 can move the incongruous threaded rod 26 through the third belt 27, and the incongruous threaded rod 26 rotates, the movable hydraulic platform 2 can drive the punching device 6 to synchronously move in opposite directions, and the processing mullion 46 can be processed after the movable hydraulic platform moves to a certain position.

In conclusion, in the punching machine capable of synchronously moving two ends of the aluminum alloy mullion for doors and windows, through the matching of the feeding groove 9, the pushing plate 10 and the L-shaped block 11, when the mullion is processed, a user stores the mullion in the feeding hole 8 in advance, so that the mullion freely falls in the feeding groove 9, the motor 12 enables the pushing plate 10 to do linear reciprocating motion through the driving belt 13, the first driving arm 14 and the second driving arm 15, when the pushing plate 10 moves towards the left side, the L-shaped block 11 can push the processing mullion 46 to the lower end of the sucking disc 50, then the pushing plate 10 drives the L-shaped block 11 to move towards the right side, in the process that the processing mullion 46 at the right side moves towards the right side of the L-shaped block 11, so that the L-shaped block 11 turns over towards the left side end, and meanwhile, the L-shaped block 11 can directly pass through the lower end of the processing mullion 46 until reaching the gap between the processing mullions 46, the L-shaped block 11 is constructed to return to the right position, and the machined middle stile 46 does not need to be conveyed manually; through the cooperation of the fixed plate 22 and the sliding block 47, the fixed shaft 48 and the fixed tube 49, after the elevator 46 moves to the lower end of the suction cup 50 in the processing, the first limit shaft 21 rotates the rotating shaft 25 through the second belt 24, and simultaneously, under the cooperation of the third transmission arm 52 and the fourth transmission arm 53, the sliding block 47 moves back and forth in the fixed plate 22, and simultaneously, the fixed shaft 48 drives the fixed tube 49 to move up and down, when the fixed shaft 48 drives the fixed tube 49 to move to the upper end of the elevator 46 in the processing, the fixed tube 49 makes the suction cup 50 adhere to the surface of the elevator 46 in the processing, and extrudes the air in the suction cup 50, the compressed air can push the cover plate 54 and the piston ball 29 to leak out, so that the suction cup 50 and the fixed tube 49 form negative pressure, the elevator 46 in the processing can be sucked up, when moving to the upper part of the fixed table 4, the fixed tube 49 can be embedded in the limit clamp 45, the cover plate 54 is pulled, air enters the fixing pipe 49, the sucking disc 50 can be separated from the processing mullion 46, and the processing mullion 46 can be placed on the fixing table 4 instead of manual work; through the matching of the brake shaft 39, the movable sleeve 38, the anisotropic threaded rod 26 and the third belt 27, when the tappet 46 is placed on the fixed table 4 in the machining process, the brake shaft 39 inside the movable sleeve 38 is pressed downwards, the first helical gear 43 and the second helical gear 44 at the lower end of the brake shaft 39 are meshed with each other, the motor 12 enables the movable sleeve 38 to drive the brake shaft 39 to rotate through the matching of the second gear 35, the third limiting shaft 36 and the fifth belt 37, and simultaneously enables the second limiting shaft 28 to drive the anisotropic threaded rod 26 to rotate through the first helical gear 43 and the second helical gear 44, so that the movable hydraulic platform 2 can drive the punching device 6 to synchronously move towards each other, and the machining operation is carried out on the tappet 46 in the machining process.

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 a both ends synchronous movement die cutting machine of club in door and window aluminum alloy, includes equipment main part, its characterized in that: the upper end of equipment main part is provided with removes hydraulic platform, the side of equipment main part is provided with the connection mesa, the upper end of removing hydraulic platform is provided with die-cut device, the side of die-cut device is provided with the feed table, the feed inlet has been inlayed to the upper end of feed table, the front end of equipment main part is provided with the fixed station, the upper end of fixed station is provided with the limiting plate, the inboard of equipment main part is provided with the chute feeder, the lower extreme of chute feeder is provided with the slurcam, the upper end of slurcam is provided with L type piece.

2. The die-cutting machine for synchronously moving two ends of the aluminum alloy mullion for doors and windows as claimed in claim 1, wherein: the lower end of the movable hydraulic platform is movably embedded in the inner side of the equipment main body, the punching device is fixedly connected with the movable hydraulic platform, the movable hydraulic platform and the punching device are arranged in two groups and symmetrically, the connecting table top is fixedly connected with the equipment main body, the feed inlet penetrates through the feeding table, the feeding groove is fixedly connected with the feeding table and the connecting table top, the inner side of the feeding groove is embedded with a processing middle support, the feeding groove and the feeding table are movably connected, the lower end of the pushing plate is provided with a stabilizing frame, the pushing plate and the feeding table are movably connected, a connecting seat is arranged at the joint of the L-shaped block and the pushing plate and is movably connected with the L-shaped block through the connecting seat, the L-shaped block is provided with a plurality of L-shaped blocks and is arranged in a linear array, the movable sleeve is movably embedded in the inner side of the fixing table, and the inner side of the movable sleeve is provided with a braking shaft, and the two are movably connected.

3. The die-cutting machine for synchronously moving two ends of the aluminum alloy mullion for doors and windows as claimed in claim 2, wherein: the outer surface of the brake shaft is provided with a first spring, the first spring is movably connected with the movable sleeve and the brake shaft, the inner side of the movable sleeve is embedded with a limit groove, the inner side of the limit groove is provided with a lug which is movably connected with the movable sleeve in an embedded manner, the lug is fixedly connected with the brake shaft, the lower end of the brake shaft penetrates through the movable sleeve, the lower end of the movable sleeve is fixedly provided with a first helical gear, the rear end of the connecting table board is fixedly provided with a motor, the front end of the motor is movably embedded with a transmission shaft, the side end of the motor is provided with a fixed block which is fixedly connected with the equipment main body, the side end of the fixed block is provided with a first transmission arm, the fixed block and the first transmission arm are arranged in a movable manner through a connecting shaft, the transmission shaft is movably connected with the outer surface of the connecting shaft, and a transmission belt is arranged on the outer surface of the connecting shaft, and the transmission belt is in transmission connection with both the transmission belt and the transmission belt.

4. The die-cutting machine for synchronously moving two ends of the aluminum alloy mullion for doors and windows as claimed in claim 3, wherein: the side end of the first transmission arm is provided with a second transmission arm, a connecting shaft is arranged at the joint of the first transmission arm and the second transmission arm, the first transmission arm and the second transmission arm are movably connected through the connecting shaft, the lower end of the push plate is fixedly provided with a connecting piece, a connecting shaft is arranged between the second transmission arm and the connecting piece, the first transmission arm and the second transmission arm are movably connected through the connecting shaft, the inner side of the feeding groove is fixedly embedded with a limiting support plate, the inner side of the limiting support plate is movably embedded with a second threaded rod, the outer surfaces of the second threaded rod and the transmission shaft are provided with a fourth belt, the fourth belt and the fourth belt are in transmission connection, the rear end of the second threaded rod is provided with a second gear, the second gear and the second gear are mutually meshed and movably connected, the inner side of the second gear is fixedly provided with a third limiting shaft, the lower end of the third limiting shaft is movably embedded in the inner side of the feeding groove, and the outer surfaces of the third limiting shaft and the movable sleeve are provided with a fifth belt, and No. five belts are the transmission with both to be connected, the incorgruous threaded rod has been inlayed to the inboard of equipment main part, the incorgruous threaded rod runs through in removal hydraulic platform and equipment main part, and the incorgruous threaded rod is swing joint with both.

5. The die-cutting machine for synchronously moving two ends of the aluminum alloy mullion for doors and windows as claimed in claim 4, wherein: the inner side of the limiting plate is movably embedded with a second limiting shaft, the side ends of the anisotropic threaded rod and the second limiting shaft are provided with a third belt, the third belt and the second limiting shaft are in transmission connection, the side end of the second limiting shaft is fixedly provided with a second helical gear, the second helical gear and the first helical gear are meshed with each other to be in movable connection, the upper end of the feeding groove is fixedly provided with a connecting plate, the side end of the connecting plate is fixedly provided with a limiting frame, the inner side of the limiting frame is movably embedded with a first screw rod, the outer surfaces of the first screw rod and the transmission shaft are provided with a first belt, the first belt and the first belt are in transmission connection, the inner side of the connecting plate is movably embedded with a first limiting shaft, the rear end of the first limiting shaft is fixedly provided with a first gear, the first gear and the first screw rod are meshed with each other to be in movable connection, and the upper end of the limiting plate is fixedly provided with a fixing plate, the slider has been inlayed in the inboard activity of fixed plate, the inboard of slider is provided with the fixed axle, the fixed axle runs through in fixed plate and slider, and the fixed axle is swing joint with both, the front end of slider is provided with No. four transmission arms.

6. The die-cutting machine for synchronously moving two ends of the aluminum alloy mullion for doors and windows as claimed in claim 5, wherein: the slider is provided with the connecting axle with the junction of No. four driving arms, and both are swing joint through the connecting axle, the front end of No. four driving arms is provided with No. three driving arms, be provided with the connecting axle between No. four driving arms and No. three driving arms, and both are swing joint through the connecting axle, the front end of No. three driving arms is fixed to be inlayed the rotation axis, the side of rotation axis is provided with the connecting block, and connecting block and limiting plate are fixed connection, the rotation axis inlays in the inboard of connecting block, and both are swing joint, the side of fixed plate is provided with spacing fastener, and spacing fastener is fixed connection with the equipment main part, the front end of fixed axle is fixed to be inlayed fixed pipe, the fixed sucking disc that is provided with of lower extreme of fixed pipe, the fixed guide roll that is provided with in side of fixed plate.

7. The die-cutting machine for synchronously moving two ends of the aluminum alloy mullion for doors and windows as claimed in claim 6, wherein: the surface of a spacing axle and rotation axis and guide roll is provided with No. two belts, and No. two belts and four are the transmission and are connected, fixed pipe and the mutual gomphosis of spacing fastener, and both are swing joint, the upper end of fixed pipe is provided with the apron, and both are swing joint, the fixed piston ball that is provided with of lower extreme of apron.

8. The die-cutting machine for synchronously moving two ends of the aluminum alloy mullion for doors and windows as claimed in claim 7, wherein: the piston ball and the fixed pipe are mutually embedded and movably connected, a bolt is arranged at the side end of the piston ball and fixedly connected with the cover plate, the bolt is embedded in the inner side of the fixed pipe and movably connected with the fixed pipe, a second spring is arranged at the lower end of the bolt, and the upper end and the lower end of the second spring are correspondingly and fixedly embedded in the inner sides of the bolt and the fixed pipe.