CN212351091U - Automatic aluminum profile machining equipment - Google Patents

Automatic aluminum profile machining equipment Download PDF

Info

Publication number
CN212351091U
CN212351091U CN202021485935.0U CN202021485935U CN212351091U CN 212351091 U CN212351091 U CN 212351091U CN 202021485935 U CN202021485935 U CN 202021485935U CN 212351091 U CN212351091 U CN 212351091U
Authority
CN
China
Prior art keywords
frame
clamping
cutting
processing
conveying
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN202021485935.0U
Other languages
Chinese (zh)
Inventor
汪建欣
汪柯
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Henan Xinke Yizhou Heavy Industry Technology Co ltd
Original Assignee
Henan Xinke Yizhou Heavy Industry Technology Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Henan Xinke Yizhou Heavy Industry Technology Co ltd filed Critical Henan Xinke Yizhou Heavy Industry Technology Co ltd
Priority to CN202021485935.0U priority Critical patent/CN212351091U/en
Application granted granted Critical
Publication of CN212351091U publication Critical patent/CN212351091U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Abstract

The utility model relates to the technical field of aluminum profile processing equipment, in particular to automatic aluminum profile processing equipment which comprises a conveying frame, a moving mechanism and a clamping mechanism, cut device and spot facing work system, moving mechanism includes first locomotive and second locomotive, fixture installs on first locomotive in order to be used for centre gripping aluminium alloy, the aluminium alloy is driven along processing direction of delivery by first locomotive and is removed in order to cut the processing with spot facing work system department at cutting device and spot facing work respectively, finally form the finished product aluminium alloy that meets the requirements, cut the device including the end cutting frame and the branch frame of cutting of all installing a plurality of cutting members, the spot facing work system includes corner cut mechanism, side spot facing work mechanism, bottom surface spot facing work mechanism and top surface spot facing work mechanism, this equipment is to the automatic processing who has realized the aluminium alloy, production efficiency and production quality have been improved greatly.

Description

Automatic aluminum profile machining equipment
Technical Field
The utility model relates to an aluminium alloy processing equipment technical field, concretely relates to aluminium alloy automatic processing equipment.
Background
The traditional wood door and window material has the defects of high density, high brittleness, short service life, low safety performance and the like, while the traditional metal door and window material has high safety performance, but the appearance is not large enough, attractive and has the defect of high cost, so more and more families adopt doors and windows made of alloy materials at present, the manufacture of the metal door and window needs a plurality of steps of cutting, drilling mounting holes, drilling glue injection holes, drilling locking holes, drilling water holes and the like, and the processing is possibly needed to be carried out on different side surfaces of the section bar due to different usages of the holes, so the section bar needs to be turned over and positioned and clamped again in the processing process; the traditional method is to process step by step through manual measurement, or a specially-assigned person is responsible for a special process, the method is low in efficiency and large in error, and cannot meet daily production requirements, some devices with automatic processing functions are available on the market at present, most of the devices are semi-automatic devices, workers are required to clamp workpieces specially during operation of different processes, for example, the workpieces need to be charged by the specially-assigned person for turning over, so that errors occur in subsequent processing, the semi-automatic production devices are limited in improvement of processing efficiency, and therefore a high-precision and high-efficiency automatic door and window material processing device is needed.
SUMMERY OF THE UTILITY MODEL
In order to solve the problem, the utility model provides an aluminium alloy automatic processing equipment, including the carriage, moving mechanism, fixture, cut device and spot facing work system, moving mechanism includes first locomotive and second locomotive, fixture installs on first locomotive in order to be used for the centre gripping aluminium alloy, the aluminium alloy is driven by first locomotive and is removed in order to cut the processing and process of punching in device and spot facing work system department respectively along processing direction of delivery, finally form the finished product aluminium alloy that meets the requirements, the automatic processing of aluminium alloy has been realized, production efficiency and production quality have been improved greatly.
The utility model provides an automatic aluminum profile processing device for solving the problems, which comprises a conveying frame, a clamping mechanism, a moving mechanism, a cutting device and a hole processing system, wherein a plurality of supporting and clamping mechanisms are arranged on the conveying frame along the processing and conveying direction, a plurality of aluminum profiles to be processed are arranged in parallel with the processing and conveying direction and are supported and movably clamped on the conveying frame by the supporting and clamping mechanisms; the moving mechanism comprises a first moving vehicle and a second moving vehicle which have the same structure, the two moving vehicles are movably arranged on the conveying frame, and a moving motor for driving the moving vehicles to move along the processing conveying direction is arranged on the vehicle body; the clamping mechanism is arranged on the first moving vehicle to drive the plurality of aluminum profiles to move and adjust along the processing direction along with the moving vehicle, the slitting device comprises an end head cutting frame, a slitting frame and cutting assemblies, the end head cutting frame and the slitting frame are both erected on the conveying frame and arranged along the processing conveying direction, the end head cutting frame and the slitting frame are both movably provided with the plurality of cutting assemblies, and the plurality of aluminum profiles to be processed are driven by the first moving vehicle to move along the processing conveying direction so as to be respectively subjected to end head cutting treatment and slitting treatment by the plurality of cutting assemblies on the end head cutting frame and the slitting frame; the hole machining system comprises a corner cutting mechanism, a side hole machining mechanism, a bottom surface hole machining mechanism and a top surface hole machining mechanism, a plurality of machining alignment seats are arranged between an end cutting frame and a slitting frame on the conveying frame, the corner cutting mechanism, the side hole machining mechanism and the bottom surface hole machining mechanism are respectively installed on the conveying frame through the machining alignment seats to mill small corners, side hole machining and bottom surface hole machining of aluminum profiles, and the top surface hole machining mechanism is installed on the second locomotive to be driven by the second locomotive to adjust the top surface hole machining of the aluminum profiles.
As a further proposal of the automatic aluminum profile processing equipment of the utility model, the supporting and clamping mechanism comprises a supporting and clamping component and a supporting bottom plate, the supporting bottom plate is fixedly arranged on the conveying frame, a plurality of supporting and clamping components are uniformly and fixedly arranged on the supporting bottom plate, the arrangement direction is vertical to the processing and conveying direction, the supporting and clamping components of the supporting and clamping mechanisms respectively correspond, the supporting and clamping component comprises a supporting roll and a clamping piece, the supporting roll is vertical to the processing and conveying direction, the clamping piece comprises a fixed wheel, the movable wheels are positioned on one side of the fixed wheels and are arranged on a piston rod of the first clamping cylinder, and the aluminum profile is parallel to the processing and conveying direction and is supported and clamped by a plurality of supporting and clamping assemblies parallel to the processing and conveying direction;
the aluminum profile pressing device is characterized in that a plurality of pressing mechanisms are arranged on the conveying frame and comprise a plurality of pressing assemblies, the pressing assemblies are fixedly arranged on a supporting bottom plate and correspond to a plurality of supporting clamping assemblies on the supporting bottom plate respectively, each pressing assembly comprises a pressing base, a pressing plate and a corner cylinder, the pressing bases are fixedly arranged on the supporting bottom plate, the corner cylinders are longitudinally arranged on the supporting bottom plate, the pressing plates are arranged on piston rods of the corner cylinders and located above the pressing bases, and the pressing plates are driven by the corner cylinders to rotate and lift so as to fix aluminum profiles.
As a further scheme of the automatic aluminum profile processing equipment of the present invention, the first moving vehicle and the second moving vehicle each include a moving frame, an adjusting frame and a mounting frame, the moving frame is a gantry-shaped frame body and the bottom end thereof is provided with a guide slider, the conveying frame is fixedly provided with a guide slide rail along the length direction thereof, the moving frame is movably mounted on the guide slide rail through the guide slider at the bottom thereof, both sides of the conveying frame are provided with driving racks, the driving racks are parallel to the guide slide rail and the surface thereof is uniformly provided with a plurality of teeth along the length direction, the two moving motors are mounted on both sides of the moving frame, and the moving motors are connected with the driving racks through gears mounted on power shafts thereof; the adjusting frame is movably arranged on the moving frame and is driven by a first transverse motor arranged on the moving frame to horizontally adjust, the moving direction of the adjusting frame is vertical to the processing and conveying direction, the mounting frame is movably arranged on the adjusting frame, and a first longitudinal motor used for driving the mounting frame to longitudinally lift is arranged on the adjusting frame;
the clamping mechanism is installed on a mounting frame of the first moving vehicle and comprises a plurality of clamping components, the plurality of clamping components are movably installed on the mounting frame and are respectively driven and adjusted by a plurality of end adjusting motors arranged on the mounting frame along the processing and conveying direction, the clamping components comprise mounting rods, push rods and clamping heads, the mounting rods are movably arranged on the mounting frame and are parallel to the processing and conveying direction, clamping grooves are formed in the front end faces of the mounting rods, adjusting grooves are formed in the bottoms of the clamping grooves along the length direction of the mounting rods, bar-shaped grooves communicated with the adjusting grooves are formed in the rod bodies of the mounting rods, the push rods are movably arranged in the adjusting grooves in a penetrating mode, one ends of the push rods, located in the adjusting grooves, are fixedly connected with connecting rods, the connecting rods are arranged in the bar-shaped grooves in a penetrating mode, and one ends, located outside the mounting rods, of the connecting rods; the clamping head comprises clamping blocks, clamping jaws and a clamping rotating shaft, the clamping rotating shaft is fixedly arranged in the clamping groove in a penetrating mode and is perpendicular to the mounting rod, the two clamping blocks are respectively located on two sides of the clamping rotating shaft and hinged to the clamping rotating shaft, the clamping jaws are fixedly arranged at one ends, located outside the clamping groove, of the clamping blocks, one end, located in the clamping groove, of the push rod is located between the two clamping blocks, so that the push rod can drive the two clamping blocks to rotate around the clamping rotating shaft when moving along the axial direction, the distance between the tail ends of the two clamping jaws is changed to clamp or loosen the end portion of the aluminum profile, one end, located at the bottom of the clamping groove, of the clamping block is connected with the groove wall of the clamping groove through elastic pieces, each elastic piece is a; the conveying frame is provided with an end adjusting mechanism, the end adjusting mechanism comprises an end baffle, an adjusting bottom plate and a longitudinal cylinder, the longitudinal cylinder is longitudinally arranged on the conveying frame, the adjusting bottom plate is horizontally arranged on a piston rod of the longitudinal cylinder, and the end baffles are fixedly arranged on the adjusting bottom plate and are respectively opposite to a plurality of aluminum profiles supported and clamped on the conveying frame.
As a further scheme of the automatic aluminum profile processing equipment of the utility model, the end cutting frame and the slitting frame are both provided with a cutting driving motor and a cutting adjusting plate, the cutting adjusting plate is movably mounted and driven by the cutting driving motor to move up and down, a plurality of cutting assemblies are mounted on the cutting adjusting plate and are respectively positioned above a plurality of aluminum profiles clamped on the conveying frame; cutting assembly includes a cutting section of thick bamboo, cutting motor and cutting cutter dish, and a cutting section of thick bamboo is vertically installed on the cutting regulating plate, and horizontal installation is equipped with two cutting pivots and two cutting pivot transmissions are connected in a cutting section of thick bamboo, the cutting motor is installed on a cutting section of thick bamboo and is connected with a cutting pivot transmission, and the cutting cutter dish is installed in another cutting pivot in order to be rotatory by cutting motor drive.
As a further scheme of the utility model, a stub bar processing mechanism is arranged on the conveying frame below the end cutting frame, the stub bar processing mechanism comprises a stub bar clamp and a roll-over stand, the roll-over stand comprises a roll-over shaft, a roll-over cylinder and a vertically arranged mounting plate, the two mounting plates are arranged in parallel and are arranged oppositely, the mounting plate is movably arranged on the conveying frame and is driven by a longitudinal adjusting cylinder longitudinally arranged on the conveying frame to lift and adjust, the roll-over shaft is parallel to a supporting roll and two ends of the roll-over shaft are movably connected with the two mounting plates, a connecting block is fixedly arranged on the roll-over shaft, the roll-over cylinder is arranged on the mounting plate, and two ends of the roll-over cylinder are respectively hinged with the mounting plate and the connecting block to drive the; the material head clamp comprises a material head fixing plate, a material head movable plate and a second clamping cylinder, the material head fixing plate is fixedly arranged on the turnover shaft and synchronously overturned along the turnover shaft, the second clamping cylinder is vertically arranged on the material head fixing plate, and the material head movable plate is arranged above the material head fixing plate through the second clamping cylinder to be matched with the material head fixing plate to clamp the end of the aluminum profile;
a slitting fixing mechanism is arranged on the conveying frame below the slitting frame and comprises a slitting fixing plate and a slitting pressing component, the slitting fixing plate is horizontally and fixedly arranged on the conveying frame, a plurality of slitting pressing components are uniformly arranged on the slitting fixing plate along the direction parallel to the supporting roll and respectively correspond to a plurality of aluminum profiles supported and clamped on the conveying frame so as to respectively clamp the aluminum profiles, cut the pressure material subassembly and include two and cut the fly leaf, two cut the fly leaf and set up and the two is all installed on cutting the fixed plate through cutting fixed cylinder along processing direction of delivery, cut and lie in two on the fixed plate and cut the logical groove of offering on the face between the fly leaf and be used for the cutting assembly cutting, the end-to-end connection of carriage has the transport frame and be provided with a plurality of conveying rollers on the transport frame, a plurality of conveying roller transmissions are connected and transported in order to cut the aluminium alloy after by the transport motor drive on the transport frame.
As a further scheme of aluminium alloy automatic processing equipment, processing counterpoint seat is including counterpointing base and horizontal counterpoint frame, and the base of counterpointing and carriage rigid coupling and its face level on, has set firmly horizontal counterpoint slide rail and the horizontal motor of second on the base of counterpointing, horizontal counterpoint slide rail is parallel with the backing roll, and horizontal counterpoint frame is L shape frame structure and movable mounting on the slide rail of transversely counterpointing, and the horizontal motor of second is installed and is adjusted along the slide rail removal of transversely counterpointing with the horizontal counterpointing of drive frame on the base of counterpointing.
As a further scheme of aluminium alloy automatic processing equipment, corner cut mechanism includes corner cut frame, corner cut axle, corner cut blade disc and corner cut motor, corner cut frame movable mounting is on the horizontal counterpoint frame of a processing counterpoint seat and by the vertical lift adjustment of the vertical motor drive of the second on this horizontal counterpoint frame, evenly install a plurality of corner cut axles along the direction parallel with the backing roll on the corner cut frame, the vertical setting of corner cut axle and its axis body that is located corner cut frame top install the corner cut blade disc, a plurality of corner cut axle transmissions are connected and are rotatory by the corner cut motor drive on the installation corner cut frame, after the corner cut blade disc that is rotatory by corner cut motor drive drives the height-adjusting by the vertical motor of the second on the processing counterpoint seat, remove along the direction parallel with the backing roll with the little angle processing of milling of aluminium alloy tip by the horizontal motor drive of second.
As a further proposal of the aluminum profile automatic processing device of the utility model, the side hole processing mechanism is a plurality of and is respectively arranged on a plurality of processing alignment seats, the side hole processing mechanism comprises a plurality of side hole processing components which are distributed and arranged on a transverse alignment rack along the direction parallel to a supporting roll, the side hole processing components comprise an installation cylinder, a drill bit clamping shaft, a side hole drilling motor and a side hole adjusting plate, the side hole adjusting plate is movably arranged on the transverse alignment rack and is driven by a third longitudinal motor arranged on the transverse alignment rack to longitudinally adjust, the installation cylinder is longitudinally fixed on the side hole adjusting plate and is provided with an installation hole on the side surface, the drill bit clamping shaft is movably arranged in the installation hole and is connected with the installation cylinder through a bearing, the side hole drilling motor is arranged on the side hole adjusting plate and is connected with the drill bit clamping shaft in a transmission way, the drill bit clamping shaft is horizontally arranged and, one end of the drill clamping shaft is provided with a drill chuck for mounting a drill or a milling cutter, and the plurality of side surface hole machining mechanisms are respectively positioned on two sides of the central line of the conveying frame to respectively drill holes on two side surfaces of the aluminum profile.
As a further scheme of aluminium alloy automatic processing equipment, bottom surface hole processing mechanism installs on the carriage through a processing counterpoint seat, bottom surface hole processing mechanism includes along the direction distribution parallel with the backing roll set up a plurality of bottom outlet processing subassemblies on horizontal counterpoint frame, bottom outlet processing subassembly includes the bottom outlet regulating plate, bottom outlet drilling motor and the vertical motor of fourth, bottom outlet regulating plate movable mounting is on horizontal counterpoint frame and by the vertical lift adjustment of the vertical motor drive of fourth of installing on horizontal counterpoint frame, bottom outlet drilling motor installs on the bottom outlet regulating plate and its power shaft is vertical, install the drill bit on the power shaft of bottom outlet drilling motor.
As a further scheme of the utility model relates to an aluminium alloy automatic processing equipment, top surface spot facing work mechanism includes a plurality of top hole processing subassemblies, a plurality of top hole processing subassemblies are installed on the mounting bracket of second locomotive along the direction parallel with the backing roll, top hole processing subassembly is including activity drilling motor and nip roll, activity drilling motor fixed mounting is vertical in the bottom of mounting bracket and its power shaft, install the drill bit on the power shaft of activity drilling motor, the nip roll level sets up and installs the bottom at the pressure cylinder through the mount pad, the vertical setting of pressure cylinder is in the bottom of mounting bracket.
Compared with the prior art, the utility model discloses the beneficial effect who has does: 1. after the plurality of aluminum profiles are clamped by the clamping mechanism, the plurality of clamping assemblies are in linkage fit with the end adjusting mechanism to reduce the difference of the front ends of the plurality of aluminum profiles, so that the front ends of the plurality of aluminum profiles are in a parallel or nearly parallel state, the front end cutting amount of the aluminum profiles can be effectively reduced when the front ends of the plurality of aluminum profiles are cut, and resource waste is avoided; 2. the cut end is processed and clamped by the stub bar when the end of the aluminum profile is processed, so that the situation that the end is scattered in a workshop or needs extra personnel for processing is avoided; 3. the hole machining system comprises a corner cutting mechanism, a side hole machining mechanism, a bottom hole machining mechanism and a top hole machining mechanism, wherein the corner cutting mechanism, the side hole machining mechanism and the bottom hole machining mechanism are all installed on the conveying frame through machining alignment seats, the corner cutting mechanism is used for milling small corners of the end face of the aluminum profile, the side hole machining mechanisms are used for machining a plurality of functional holes and cutting ribs on the two side faces of the aluminum profile respectively, the bottom hole machining mechanism is used for machining the functional holes of the end face of the aluminum profile, the top hole machining mechanism is installed on a second movable trolley, and the second movable trolley drives the top hole machining mechanism to move and adjust so as to machine the functional holes in the top of the aluminum profile; 4. the aluminum profile processed by the hole processing system is driven to the slitting frame by the first movable vehicle to be slit, the aluminum profile after being quantitatively slit is a processed finished product, automatic processing is realized on two end faces of the length of the finished aluminum profile and each functional hole, and manpower is greatly liberated.
Drawings
Fig. 1 is a schematic side view of the present invention; fig. 2 is a schematic view of the installation of the slitting device according to the present invention; fig. 3 is a schematic side view of the installation structure of the slitting device of the present invention; fig. 4 is a schematic structural view of the cutting assembly of the present invention; fig. 5 is a schematic front view of the cutting assembly of the present invention; fig. 6 is an installation schematic diagram of the pressing mechanism and the slitting fixing mechanism of the present invention; fig. 7 is a schematic top view of the mounting structure of the pressing mechanism and the slitting fixing mechanism of the present invention; fig. 8 is an installation schematic view of a first mobile cart of the present invention; fig. 9 is an installation schematic view of the clamping mechanism of the present invention; fig. 10 is a schematic structural view of the clamping mechanism of the present invention; fig. 11 is a schematic view of the internal structure of the clamping head of the clamping mechanism of the present invention; fig. 12 is a schematic structural view of the end adjusting mechanism of the present invention; fig. 13 is an installation schematic diagram of the swaging mechanism of the present invention; fig. 14 is a schematic perspective view of an installation structure of the swaging mechanism of the present invention; fig. 15 is an enlarged schematic view of the present invention at a in fig. 6; fig. 16 is a schematic structural view of the stub bar handling mechanism of the present invention; fig. 17 is a schematic structural view of the slitting fixing mechanism of the present invention; fig. 18 is a schematic perspective view of the slitting fixing mechanism of the present invention; fig. 19 is a side schematic view of the hole machining mechanism of the present invention; fig. 20 is a schematic structural view of the corner cutting mechanism of the present invention; fig. 21 is a schematic structural view of the side hole machining mechanism of the present invention; fig. 22 is a schematic perspective view of the side hole machining mechanism of the present invention; fig. 23 is a schematic structural view of a bottom surface hole machining mechanism of the present invention; fig. 24 is an installation diagram of the top surface hole machining mechanism of the present invention;
the labels in the figure are: 1. a conveying frame, 2, a clamping mechanism, 3, a moving mechanism, 4, a slitting device, 5, a supporting and clamping mechanism, 6, a hole processing system, 7, a slitting fixing mechanism, 8, a processing aligning seat, 9, a material pressing mechanism, 10, an end adjusting mechanism, 11, a stub bar processing mechanism, 101, a transfer frame, 201, an end adjusting motor, 202, a mounting rod, 203, a push rod, 204, a clamping cylinder, 205, a clamping block, 206, a clamping jaw, 301, a first moving vehicle, 302, a second moving vehicle, 303, a moving frame, 304, an adjusting frame, 305, a mounting frame, 306, a moving motor, 401, an end cutting frame, 402, a slitting frame, 403, a cutting driving motor, 404, a cutting adjusting plate, 405, a cutting cylinder, 406, a cutting motor, 407, a cutting cutter disc, 501, a supporting bottom plate, 502, a supporting roller, 503, a fixed wheel, 504, a movable wheel, 601, a cutting angle frame, 602, a cutting angle cutter disc, 603. the angle cutting motor 604, the mounting barrel 605, the drill clamping shaft 606, the side hole drilling motor 607, the bottom hole adjusting plate 608, the bottom hole drilling motor 609, the movable drilling motor 610, the material pressing roller 611, the material pressing cylinder 701, the slitting fixing plate 702, the slitting movable plate 703, the through groove 801, the alignment base 802, the transverse alignment frame 803, the second transverse motor 901, the material pressing base 902, the material pressing plate 903, the corner cylinder, the end baffle 1002, the adjusting bottom plate 1001, the 1003, the longitudinal cylinder 1101, the turnover shaft 1102, the turnover cylinder 1103, the mounting plate 1104, the longitudinal adjusting cylinder 1105, the stub bar fixing plate 1106 and the stub bar movable plate.
Detailed Description
As shown in the figure: the utility model provides an adaptation change to the actual processing part's in each mechanism of equipment quantity still belongs to the protection scope of this scheme, and this equipment can carry out the simultaneous processing of a plurality of aluminium alloy, and the scheme that the diagram can four aluminium alloy of simultaneous processing at most is given the schematic illustration to this equipment for the scheme that the diagram shows, and the time diagram that should understand does not show the complete limit to this equipment, to each mechanism of equipment. The equipment comprises a conveying frame 1, a clamping mechanism 2, a moving mechanism 3, a slitting device 4 and a hole machining system 6, wherein the conveying frame 1 is of a cubic frame structure, a plurality of supporting and clamping mechanisms 5 are arranged at the top of the conveying frame along the machining and conveying direction, and four aluminum profiles to be machined are supported on the conveying frame 1 through the plurality of supporting and clamping mechanisms 5 and clamped to be parallel to the machining and conveying direction; the moving mechanism 3 comprises a first moving vehicle 301 and a second moving vehicle 302 which are identical in structure and can move quantitatively along the processing conveying direction, a clamping mechanism 2 is installed on the first moving vehicle 301, four aluminum profiles supported and clamped on the conveying frame 1 are clamped by the clamping mechanism 2 on the first moving vehicle 301 and move along the processing conveying direction along with the first moving vehicle 301, and the four aluminum profiles move and are adjusted along the processing conveying direction and are respectively cut at the cutting device 4 and punched at the hole processing system 6.
The upper surface of the conveying frame 1 is fixedly provided with a guide slide rail along the length direction, the upper ends of two side surfaces of the conveying frame 1 are respectively fixedly provided with a driving rack, the driving racks are parallel to the guide slide rail, the upper surface and the lower surface of each driving rack are respectively and uniformly and fixedly provided with a plurality of teeth along the length direction, the first movable trolley 301 and the second movable trolley 302 have the same structure and both comprise a movable frame 303, the automatic feeding device comprises an adjusting frame 304 and a mounting frame 305, wherein a moving frame 303 is a gantry-shaped frame body, a guide slide block is mounted at the bottom end of the moving frame 303, a guide slide rail is fixedly arranged on a conveying frame 1 along the length direction of the conveying frame, the moving frame 303 is movably mounted on the guide slide rail through the guide slide block at the bottom of the moving frame 303, L-shaped frame bodies are fixedly arranged on two sides of the moving frame 303, moving motors 306 are mounted on the L-shaped frame bodies, gears are fixedly connected to power shafts of the moving motors 306 and are meshed with teeth on the lower surfaces of driving racks, and the two moving motors 306 are servo motors and synchronously act to drive a moving vehicle on which the moving frame is located; remove the last face of frame 303 and install first transverse electric motor and first transverse slide rail, first transverse slide rail level and perpendicular with processing direction of delivery, alignment jig 304 is the L shaped plate, slider swing joint that alignment jig 304 set firmly through its diaphragm bottom is on first transverse slide rail, the power shaft of first transverse electric motor passes through screw rod and alignment jig 304 swing joint in order to drive alignment jig 304 along first transverse slide rail removal regulation, first vertical slide rail has set firmly on the vertical plate of alignment jig 304, mounting bracket 305 is the L shaped plate also, mounting bracket 305 is on first vertical slide rail through the slider swing joint that sets firmly on its vertical plate, install first vertical electric motor on the alignment jig 304, first vertical electric motor is connected through the screw rod with mounting bracket 305 and is adjusted in order to drive the vertical lift of mounting bracket 305.
Fixture 2 installs on first locomotive 301's mounting bracket 305, fixture 2 includes four centre gripping subassemblies, the bottom of first locomotive 301's mounting bracket 305 is provided with four end regulation slide rails, and four end regulation slide rails are along all parallel with processing direction of delivery with the direction evenly distributed and four of first transverse sliding rail, and four centre gripping subassemblies are movable mounting respectively on four end regulation slide rails, still be provided with four end accommodate motor 201 on first locomotive 301's mounting bracket 305, and the power shaft of four end accommodate motor 201 is respectively through screw rod and four centre gripping subassembly spiral connection, and four centre gripping subassemblies are adjusted in order to adjust four aluminium alloy end positions of being gripped respectively by four centre gripping subassemblies by four end accommodate motor 201 drive respectively, be provided with end adjustment mechanism 10 on the carriage 1, end adjustment mechanism 10 includes end baffle 1001, The aluminum profile conveying device comprises an adjusting bottom plate 1002 and a longitudinal cylinder 1003, wherein the longitudinal cylinder 1003 is longitudinally arranged on a conveying frame 1, the adjusting bottom plate 1002 is horizontally arranged on a piston rod of the longitudinal cylinder 1003, a plurality of end baffles 1001 are fixedly arranged on the adjusting bottom plate 1002 and are respectively opposite to four aluminum profiles supported and clamped on the conveying frame 1, the surfaces of the baffles correspond to the aluminum profiles when the longitudinal cylinder 1003 extends so that the aluminum profiles can be abutted against the baffles, and the upper edges of the baffles are lower than the lower edges of the aluminum profiles when the longitudinal cylinder 1003 contracts so as to avoid influencing the movement of the aluminum profiles along the conveying direction;
the clamping assembly comprises an installation rod 202, a push rod 203 and a clamping head, the installation rod 202 is movably arranged on an installation frame 305 and is parallel to the processing and conveying direction, a clamping groove is formed in the front end face of the installation rod 202, an adjusting groove is formed in the groove bottom of the clamping groove along the length direction of the installation rod 202, a strip-shaped groove communicated with the adjusting groove is formed in the rod body of the installation rod 202, the push rod 203 is movably arranged in the adjusting groove in a penetrating mode, one end of the push rod 203, which is located in the adjusting groove, is fixedly connected with a connecting rod, the connecting rod is arranged in the strip-shaped groove in a penetrating mode, one end, which is located outside the installation rod 202, is connected with a clamping cylinder 204 fixedly arranged outside the installation rod 202, and the telescopic direction of the clamping cylinder 204 is parallel to the processing and conveying direction; the clamping head comprises clamping blocks 205, clamping jaws 206 and a clamping rotating shaft, the clamping rotating shaft is fixedly arranged in the clamping groove in a penetrating mode and is perpendicular to the mounting rod 202, the two clamping blocks 205 are respectively positioned on two sides of the clamping rotating shaft and hinged to the clamping rotating shaft, one ends, positioned outside the clamping groove, of the clamping blocks 205 are fixedly provided with the clamping jaws 206, one ends, positioned in the clamping groove, of the push rods 203 are positioned between the two clamping blocks 205 so that the push rods can drive the two clamping blocks 205 to rotate around the clamping rotating shaft when moving along the axial direction, the distance between the tail ends of the two clamping jaws 206 is changed so as to clamp or loosen the end portion of an aluminum profile, one ends, positioned at the bottom of the clamping groove, of the clamping blocks 205 are connected with the groove wall of the clamping groove through elastic pieces, the elastic pieces are U; the flexible push rod 203 action that drives of centre gripping cylinder 204 to adjust the state of centre gripping head, the centre gripping subassembly is with aluminium alloy tip centre gripping back, and the position of centre gripping subassembly is adjusted along processing direction of delivery to the end position of adjusting the aluminium alloy, reduces the position difference of four aluminium alloy front ends to the end counterpoint motor.
The supporting and clamping mechanism 5 comprises a supporting bottom plate 501 and four supporting and clamping components, the supporting bottom plate 501 is horizontally and fixedly arranged on the conveying frame 1, the four supporting and clamping components are uniformly and fixedly arranged on the supporting bottom plate 501 along the direction perpendicular to the processing and conveying direction, each supporting and clamping component comprises a supporting roller 502 and a clamping piece, the supporting rollers 502 are arranged on the supporting bottom plate 501 through bearings with seats and are perpendicular to the processing and conveying direction, each clamping piece comprises a fixed wheel 503, a movable wheel 504 and a first clamping cylinder, the fixed wheels 503 are multiple and are fixedly arranged on the supporting bottom plate 501 along the processing and conveying direction, wheel shafts of the fixed wheels 503 are fixedly connected with the supporting bottom plate 501 perpendicularly, the first clamping cylinder is fixedly arranged on the supporting bottom plate 501 and is parallel to the supporting rollers 502, the movable wheels 504 are positioned on one side of the fixed wheels 503, the wheel shafts of the movable wheels are vertically and fixedly connected to piston rods of the first clamping cylinder, and the movable, the aluminum profile is supported by a plurality of supporting rollers 502 of the supporting and clamping assembly and is positioned between the fixed wheel 503 and the movable wheel 504, the first clamping cylinders of the supporting and clamping assembly shrink to clamp the aluminum profile to a state vertical to the machining direction, at the moment, wheel bodies of the movable wheel 504 and the fixed wheel 503 are respectively attached to two side surfaces of the aluminum profile, the aluminum profile is horizontally supported and movably clamped, and the aluminum profile can be driven by the first moving vehicle 301 to move along the machining and conveying direction after being clamped by the clamping mechanism 2;
the aluminum profile pressing device comprises a conveying frame 1, a plurality of pressing mechanisms 9, a plurality of supporting and clamping mechanisms 5, a plurality of pressing assemblies 9, a plurality of corner cylinders 903 and a plurality of corner cylinders 902, wherein the conveying frame 1 is provided with the plurality of pressing mechanisms 9, the pressing mechanisms 9 are installed on the conveying frame 1 through the supporting and clamping mechanisms 5, the pressing mechanisms 9 are used for longitudinally fixing an aluminum profile to prevent the aluminum profile from axially displacing, the pressing mechanisms 9 comprise the plurality of pressing assemblies, the plurality of pressing assemblies are fixedly arranged on a supporting bottom plate 501 of one supporting and clamping mechanism 5 and respectively correspond to the plurality of supporting and clamping assemblies on the supporting bottom plate 501, the pressing assemblies comprise pressing bases 901, pressing plates 902 and the corner cylinders 903, the pressing bases 901 are fixedly installed on the supporting bottom plate 501, the corner cylinders 903 are longitudinally and fixedly arranged on the supporting bottom plate 501, the pressing plates 902 are installed on piston rods; its main part is located one side of revolving cylinder when the aluminium alloy is by activity clamping, and pressure flitch 902 is the strip shaped plate, and pressure flitch 902 is in the state parallel with processing direction of delivery under the revolving cylinder extension state, and the plate body of pressure flitch 902 is located the top lateral part of aluminium alloy this moment, and during the rotatory shrink of revolving cylinder, pressure flitch 902 is rotatory thereupon and moves down, and the plate body of pressure flitch 902 rotates to aluminium alloy place side this moment, and the lower plate face of final pressure flitch 902 is pressed and is made it unable along processing direction of delivery to move on the aluminium alloy, in order to guarantee the machining precision.
The slitting device 4 comprises an end cutting frame 401, a slitting frame 402 and cutting assemblies, the end cutting frame 401 and the slitting frame 402 are erected on the conveying frame 1 and arranged along the machining conveying direction, a cutting driving motor 403 and a cutting adjusting plate 404 are arranged on the end cutting frame 401 and the slitting frame 402 respectively, cutting guide rails for mounting the cutting adjusting plate 404 are longitudinally and fixedly arranged on the end cutting frame 401 and the slitting frame 402 respectively, the cutting adjusting plate 404 is longitudinally and movably arranged and driven by the cutting driving motor 403 to adjust the height, four cutting assemblies are mounted on the cutting adjusting plate 404, the four cutting assemblies are arranged at equal heights and are perpendicular to the machining conveying direction, and the four cutting assemblies are respectively positioned above four aluminum profiles clamped on the conveying frame 1; the cutting assembly comprises a cutting drum 405, a cutting motor 406 and a cutting cutter disc 407, wherein the cutting drum 405 is longitudinally arranged on a cutting adjusting plate 404, two cutting rotating shafts are horizontally arranged in the cutting drum 405 and are in transmission connection with each other, the cutting motor 406 is arranged on the cutting drum 405 and is in transmission connection with one cutting rotating shaft, and the cutting cutter disc 407 is arranged on the other cutting rotating shaft so as to be driven to rotate by the cutting motor 406; the cutting motor 406 works to drive the cutting cutter disc 407 to rotate, the cutting adjusting motor drives four cutting assemblies on the same cutting adjusting plate 404 to synchronously lift and lower so as to synchronously cut four aluminum profiles clamped on the conveying frame 1, preferably, a cutting installing plate 1103 is horizontally and fixedly arranged on the cutting adjusting plate 404, four installing round holes are formed in the cutting installing plate 1103, a plurality of arc-shaped adjusting holes are formed in the cutting installing plate 1103 by taking each installing round hole as the center, a plurality of installing discs are arranged on the cutting installing plate 1103 and comprise an upper disc and a lower disc, circular bulges are formed on the opposite plate surfaces of the upper disc and the lower disc, the upper disc and the lower disc are respectively positioned above and below the cutting installing plate 1103 and are movably clamped in the installing round holes, the upper disc and the lower disc are connected through connecting rods penetrating through the arc-shaped adjusting holes, the cutting assemblies are installed on the cutting adjusting plate 404 through the installing discs and, thereby allowing the angle of deflection of cutter disc 407 to be adjusted. Four aluminium alloy are supported the 2 centre gripping of fixture on the clamping on carriage 1 back by first locomotive 301 and are adjusted the end position, first locomotive 301 drives the aluminium alloy and removes to make its end be in end cutting frame 401 below by the cutting assembly cutting end on the end cutting frame 401, first locomotive 301 drives the aluminium alloy and removes to make its position of need cutting be cut in the position below cutting frame 402 by the cutting assembly cutting on the cutting frame 402, the terminal surface angle and the length of the aluminium alloy that cuts off all accord with needs.
The lower part of the end cutting frame 401 on the conveying frame 1 is provided with a stub bar processing mechanism 11, the stub bar processing mechanism 11 comprises a stub bar clamp and a turning frame, the turning frame comprises a turning shaft 1101, a turning cylinder 1102 and vertically arranged mounting plates 1103, the two mounting plates 1103 are arranged in parallel and are arranged oppositely, the two mounting plates 1103 are movably arranged inside the frame body of the conveying frame 1 and driven to lift and adjust by a longitudinal adjusting cylinder 1104 longitudinally arranged inside the frame body of the conveying frame 1, preferably, two side faces of the conveying frame 1 are both longitudinally and fixedly provided with guide plates, the two guide plates are arranged oppositely and are longitudinally and fixedly provided with longitudinal adjusting slide rails on the opposite plate faces, and the two mounting plates 1103 are respectively and movably arranged on the longitudinal adjusting slide rails of the two guide plates; the overturning shaft 1101 is parallel to the supporting roller 502, two ends of the overturning shaft are movably connected with the two mounting plates 1103 through bearing connecting pieces, a connecting block is fixedly arranged on the overturning shaft 1101, and two ends of the overturning cylinder 1102 are respectively hinged with the mounting plates 1103 and the connecting block so as to drive the overturning shaft 1101 to rotate when the overturning cylinder stretches; four stub bar fixtures are uniformly and fixedly arranged on the turnover shaft 1101 along the length direction, the four stub bar fixtures correspond to four aluminum profiles supported and clamped on the conveying frame 1 respectively so that the four aluminum profiles can be clamped respectively, each stub bar fixture comprises a stub bar fixing plate 1105, a stub bar movable plate 1106 and a second clamping cylinder, the stub bar fixing plate 1105 is fixedly arranged on the turnover shaft 1101 and synchronously overturned along with the turnover shaft 1101, the second clamping cylinder is vertically arranged on the stub bar fixing plate 1105, and the stub bar movable plate 1106 is arranged above the stub bar fixing plate 1105 through the second clamping cylinder so as to be matched with the stub bar fixing plate 1105 to clamp the end of the aluminum profile; when the aluminum profile is subjected to end cutting below the end cutting frame 401, the stub bar fixing plate 1105 is in a horizontal state, the front ends of four aluminum profiles are respectively clamped by four stub bar clamps, after the cutting is finished, the first moving vehicle 301 drives the aluminum profile main body to retreat, the overturning cylinder 1102 drives the overturning shaft 1101 to rotate so as to drive the stub bar fixing plate 1105 of the stub bar clamps to incline, the second clamping cylinder extends to enable the stub bar movable plate 1106 to be away from the stub bar fixing plate 1105, the overturning cylinder 1102 resets to enable the stub bar fixing plate 1105 to be horizontal after the cut stub bar is separated from the stub bar clamps, and then the first moving vehicle 301 drives the four aluminum profiles to continue moving along the processing and conveying direction;
a slitting fixing mechanism 7 is arranged on the conveying frame 1 below the slitting frame 402, the slitting fixing mechanism 7 comprises a slitting fixing plate 701 and slitting pressing components, the slitting fixing plate 701 is horizontally and fixedly arranged on the conveying frame 1, four slitting pressing components are uniformly arranged on the slitting fixing plate 701 along the direction parallel to the supporting roller 502, the four slitting pressing components respectively correspond to four aluminum profiles supported and clamped on the conveying frame 1 so as to respectively press and fix the four aluminum profiles, the slitting pressing components comprise two slitting movable plates 702, the two slitting movable plates 702 are arranged along the processing conveying direction and are both arranged on the slitting fixing plate 701 through a slitting fixing air cylinder, a through groove 703 is formed in the plate surface of the slitting fixing plate 701 between the two slitting movable plates 702, the through groove 703 is a strip-shaped groove and is parallel to the end surface of the slitting end of the aluminum profile, and the lower part of a cutting cutter disc 407 of the cutting component on the slitting frame 402 can penetrate into the through groove 703 during cutting, preferably, clamping pieces are arranged on the slitting fixing plate 701 corresponding to the slitting and pressing assemblies; the end-to-end connection of carriage 1 has transports frame 101 and transport and be provided with a plurality of conveying rollers on the frame 101, a plurality of conveying roller transmission are connected and transported in order to cut the aluminium alloy after by the transportation motor drive on the frame 101, the last edge of conveying roller, cut the last face of fixed plate 701 and the equal height in last edge of backing roll 502, divide the aluminium alloy of cutting off to be supported by conveying roller and cut fixed plate 701, loosen the back when cutting fixed subassembly, under the effect of conveying roller, the aluminium alloy is transported frame 101 directly, need not the manual work and shifts, and the part aluminium alloy of 2 centre grippings of fixture then changes or reprocesses according to surplus length.
The hole processing system 6 comprises a corner cutting mechanism, a side hole processing mechanism, a bottom hole processing mechanism and a top hole processing mechanism, the top hole processing mechanism is mounted on the second moving vehicle 302 to punch on the upper surface of the aluminum profile, the corner cutting mechanism, the side hole processing mechanism and the bottom hole processing mechanism are mounted on the conveying frame 1 through processing aligning seats 8 to respectively perform corner cutting processing, side punching processing and bottom punching processing on the aluminum profile, a plurality of processing aligning seats 8 are arranged on the frame body between the end cutting frame 401 and the dividing and cutting frame 402 on the conveying frame 1, each processing aligning seat 8 comprises an aligning base 801 and a transverse aligning frame 802, the aligning base 801 is fixedly arranged inside the frame of the conveying frame 1, the upper surface of the aligning base is horizontal, a transverse aligning slide rail and a second transverse motor 803 are fixedly arranged on the aligning base 801, the transverse aligning slide rail is parallel to the supporting roller 502, the transverse alignment frame 802 is an L-shaped frame structure and is movably mounted on a transverse alignment slide rail, and the second transverse motor 803 is mounted on the alignment base 801 so as to drive the transverse alignment frame 802 to move and adjust along the transverse alignment slide rail through a screw;
the corner cutting mechanism comprises a corner cutting frame 601, corner cutting shafts, a corner cutting cutter disc 602 and a corner cutting motor 603, wherein the corner cutting frame 601 is movably installed on a transverse alignment frame 802 of a processing alignment seat 8 and is driven by a second longitudinal motor on the transverse alignment frame 802 to longitudinally lift and adjust, the corner cutting frame 601 is uniformly provided with four corner cutting shafts along the direction parallel to the supporting roller 502, the corner cutting shafts are vertically arranged, the corner cutting cutter disc 602 is installed on a shaft body above the corner cutting frame 601, and the four corner cutting shafts are in transmission connection and are driven to rotate by the corner cutting motor 603 installed on the corner cutting frame 601; the second longitudinal motor drives the corner cutting frame 601 to lift and adjust the heights of the plurality of corner cutting cutter discs 602, the corner cutting motor 603 drives the four corner cutting cutter discs 602 to rotate, then the second transverse motor 803 drives the plurality of corner cutting cutter discs 602 to transversely move so as to mill small corners on the lower edge or the upper edge of the end face of the aluminum profile, then the second longitudinal motor drives the corner cutting frame 601 to lift and adjust, the second transverse motor 803 drives the plurality of corner cutting cutter discs 602 to transversely reset, so that the four corner cutting cutter discs 602 mill small corners on the upper edge or the lower edge of the aluminum profile, the corner cutting motor 603 stops rotating after the corner cutting is completed, and the second longitudinal motor drives the plurality of corner cutting frames 601 to move downwards to take the corner cutting mechanism into the conveying frame 1;
the side hole processing mechanism is arranged on the other processing aligning seat 8, the side hole processing mechanism comprises four side hole processing components which are distributed on the transverse aligning frame 802 along the direction parallel to the supporting roller 502, each side hole processing component comprises an installation cylinder 604, a drill bit clamping shaft 605, a side hole drilling motor 606 and a side hole adjusting plate, the side hole adjusting plate is movably arranged on the transverse aligning frame 802 and is driven to longitudinally adjust by a third longitudinal motor arranged on the transverse aligning frame 802, the installation cylinder 604 is longitudinally and fixedly arranged on the side hole adjusting plate, the side face of the installation cylinder is provided with an installation hole, the drill bit clamping shaft 605 is movably arranged in the installation hole in a penetrating way and is connected with the installation cylinder 604 through a bearing, the side hole drilling motor 606 is arranged on the side hole adjusting plate and is in transmission connection with the drill bit clamping shaft 605, the drill bit clamping shaft 605 is horizontally arranged and is vertical to the processing and conveying direction, and one end of the drill bit clamping shaft 605 is provided with a drill chuck for mounting a drill bit or a milling cutter; the third longitudinal motors can respectively adjust the heights of the side hole machining assemblies so that the drill bit clamping shaft 605 corresponds to the position to be punched on the side surface of the aluminum profile, the heights of the side hole machining assemblies can be independently adjusted to adapt to simultaneous machining of various aluminum profiles, the side hole drilling motor 606 drives the drill bit to rotate by driving the drill bit clamping shaft 605, and the second transverse motor 803 drives the rotary drill bits to punch the side surface of the aluminum profile; preferably, the three side hole processing mechanisms are respectively a first side hole processing mechanism, a second side hole processing mechanism and a third side hole processing mechanism along the processing and conveying direction, the three side hole processing mechanisms are respectively arranged on the three processing aligning seats 8, a drill bit arranged on a drill bit clamping shaft 605 of the first side hole processing mechanism is a step drill bit, the first side hole processing mechanism is used for processing glue injection holes, mullion holes and the like on one side surface of the aluminum profile, a common milling cutter is arranged on the drill bit clamping shaft 605 of the second side hole processing mechanism, the second side hole processing mechanism is used for milling a handle hole on the side surface of the aluminum profile, the third side hole processing mechanism and the first side hole processing mechanism are symmetrically arranged in the direction parallel to the supporting roller 502, a step milling cutter arranged on the drill bit clamping shaft 605 of the third side hole processing mechanism is used for drilling a step hole and milling a water falling hole on the side surface of the aluminum profile, the third side hole machining mechanism is linked with the first moving vehicle 301, and can also perform rib milling operation on the aluminum profile;
the bottom hole machining mechanism is also arranged on the conveying frame 1 through a machining alignment seat 8 and comprises four bottom hole machining assemblies which are distributed on the transverse alignment frame 802 along the direction parallel to the supporting roller 502, each bottom hole machining assembly comprises a bottom hole adjusting plate 607, a bottom hole drilling motor 608 and a fourth longitudinal motor, the bottom hole adjusting plates 607 are movably arranged on the transverse alignment frame 802 and are driven by the fourth longitudinal motors arranged on the transverse alignment frame 802 to vertically lift and adjust, the bottom hole drilling motors 608 are arranged on the bottom hole adjusting plates 607, power shafts of the bottom hole drilling motors 608 are vertical, and drill bits or milling cutters are arranged on the power shafts of the bottom hole drilling motors 608; the fourth longitudinal motor drives the bottom hole drilling motor 608 in a working state to move upwards so as to drill the bottom surface of the aluminum profile;
the top surface hole machining mechanism comprises four top hole machining assemblies, the four top hole machining assemblies are installed on an installation frame 305 of the second movable trolley 302 along the direction parallel to the supporting roller 502, each top hole machining assembly comprises a movable drilling motor 609 and a pressure roller 610, the movable drilling motor 609 is fixedly installed at the bottom of the installation frame 305 and a power shaft of the movable drilling motor 609 is vertical, a drill bit or a milling cutter is installed on the power shaft of the movable drilling motor 609, the pressure roller 610 is horizontally arranged and installed at the bottom end of a pressure air cylinder 611 through an installation seat, and the pressure air cylinder 611 is vertically arranged at the bottom of the installation frame 305. The mounting seat is a v-21274, the material pressing roller 610 is mounted on the mounting seat through a bearing, after the movable drilling motor 609 drives the drill bit or the milling cutter to rotate, the first longitudinal motor on the second moving vehicle 302 is driven to move downwards so as to punch the top of the aluminum profile, and the first transverse motor on the second moving vehicle 302 is used for adjusting the position of the movable drilling motor 609 so as to ensure the machining precision.
The use flow of the device is briefly described as follows: four aluminum profiles are arranged on a conveying frame 1 and supported and clamped to be parallel to a processing and conveying direction by a plurality of supporting and clamping mechanisms 5, four aluminum profiles are clamped by a clamping mechanism 2 on a first movable trolley 301, the clamping mechanism 2 is in linkage fit with an end adjusting mechanism 10 to enable the front ends of the four aluminum profiles to be parallel and level or reduce the difference of the front ends of the four aluminum profiles, the first movable trolley 301 drives the four aluminum profiles to move along the processing and conveying direction, four cutting assemblies on an end cutting frame 401 cut the front ends of the four aluminum profiles, the cut end profiles are processed by an end processing mechanism, the first movable trolley 301 drives the four aluminum profiles to continuously move to enable a rod body to be positioned at a hole processing system 6 between the end cutting frame 401 and a slitting frame 402, and under the adjustment of the first movable trolley 301, a small-angle milling mechanism is used for milling the front ends of the aluminum profiles, the device comprises a plurality of side hole processing mechanisms, a plurality of bottom hole processing mechanisms, a plurality of second movable vehicles (302), a plurality of first movable vehicles (301), a plurality of second movable vehicles (302), a plurality of clamping units (402), a plurality of clamping units (101), a plurality of clamping units (301), a plurality of clamping units (1), a plurality of electric control systems (electric control systems), a plurality of motors and cylinders, wherein the side hole processing mechanisms process different functional holes and cut ribs on two sides of an aluminum profile, the bottom hole processing mechanisms punch holes on the bottom surface of the aluminum profile, the top hole processing mechanisms are installed on the second movable vehicles (302), the second movable vehicles (302) drive the top hole processing mechanisms to move and punch holes on the top surface of the aluminum profile, after punching is completed, the first movable vehicles (301) drive the aluminum profile to move along the processing and conveying direction to enable the position to be cut to be positioned below a cutting frame (402), the cutting assemblies on the cutting frame (402) cut the, through the program control action of the electrical system, the processing accuracy is ensured, the processing efficiency is greatly improved, and the scale of the equipment can be changed according to the production requirement so as to simultaneously process 1 or more aluminum profiles
The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiments, and although the present invention has been disclosed with the preferred embodiments, it is not limited to the present invention, and any skilled person in the art can make some modifications or equivalent changes without departing from the technical scope of the present invention.

Claims (10)

1. The utility model provides an aluminium alloy automatic processing equipment which characterized in that: the aluminum profile cutting machine comprises a conveying frame (1), clamping mechanisms (2), a moving mechanism (3), a slitting device (4) and a hole machining system (6), wherein a plurality of supporting and clamping mechanisms (5) are arranged on the conveying frame (1) along the machining and conveying direction, a plurality of aluminum profiles to be machined are arranged in parallel with the machining and conveying direction, supported by the plurality of supporting and clamping mechanisms (5) and movably clamped on the conveying frame (1); the moving mechanism (3) comprises a first moving vehicle (301) and a second moving vehicle (302) which are identical in structure, the two moving vehicles are movably mounted on the conveying frame (1), and a moving motor (306) for driving the moving vehicles to move along the machining conveying direction is arranged on the vehicle body; the clamping mechanism (2) is installed on a first moving vehicle (301) to drive a plurality of aluminum profiles to move and adjust along the processing direction along with the moving vehicle, the slitting device (4) comprises an end cutting frame (401), a slitting frame (402) and cutting assemblies, the end cutting frame (401) and the slitting frame (402) are erected on the conveying frame (1) and are arranged along the processing conveying direction, the end cutting frame (401) and the slitting frame (402) are movably provided with the cutting assemblies, and the aluminum profiles to be processed are driven by the first moving vehicle (301) to move along the processing conveying direction to be respectively subjected to end cutting processing and slitting processing by the cutting assemblies on the end cutting frame (401) and the slitting frame (402); hole system of processing (6) is including corner cut mechanism, side spot facing work mechanism, bottom surface spot facing work mechanism and top surface spot facing work mechanism, lies in on carriage (1) and is provided with a plurality of processing counterpoint seats (8) between end cutting frame (401) and slitting frame (402), and corner cut mechanism, side spot facing work mechanism and bottom surface spot facing work mechanism are installed on carriage (1) through processing counterpoint seat (8) respectively in order to mill little angle, side spot facing work and bottom surface spot facing work to the aluminium alloy, top surface spot facing work mechanism installs on second locomotive (302) in order to be driven by second locomotive (302) to adjust and carry out top surface spot facing work to the aluminium alloy.
2. The aluminum profile automatic processing equipment as claimed in claim 1, characterized in that: the supporting and clamping mechanism (5) comprises supporting and clamping components and a supporting bottom plate (501), the supporting bottom plate (501) is fixedly arranged on the conveying frame (1), the supporting and clamping components are uniformly and fixedly arranged on the supporting bottom plate (501) and the arrangement direction of the supporting and clamping components is perpendicular to the processing and conveying direction, the supporting and clamping components of the supporting and clamping mechanism (5) respectively correspond to each other, the supporting and clamping components comprise supporting rollers (502) and clamping pieces, the supporting rollers (502) are perpendicular to the processing and conveying direction, the clamping pieces comprise fixed wheels (503), movable wheels (504) and first clamping cylinders, the fixed wheels (503) are multiple and fixedly arranged on the supporting bottom plate (501) along the processing and conveying direction, the first clamping cylinders are fixedly arranged on the supporting bottom plate (501) and are parallel to the supporting rollers (502), the movable wheels (504) are positioned on one side of the fixed wheels (503) and are arranged on piston rods of the first clamping cylinders, the aluminum profile is parallel to the processing and conveying direction and is supported and clamped by a plurality of supporting and clamping components parallel to the processing and conveying direction;
the aluminum profile pressing device is characterized in that a plurality of pressing mechanisms (9) are arranged on the conveying frame (1), each pressing mechanism (9) comprises a plurality of pressing components, the plurality of pressing components are fixedly arranged on one supporting bottom plate (501) and correspond to a plurality of supporting and clamping components on the supporting bottom plate (501) respectively, each pressing component comprises a pressing base (901), a pressing plate (902) and a corner cylinder (903), the pressing bases (901) are fixedly arranged on the supporting bottom plates (501), the corner cylinders (903) are longitudinally arranged on the supporting bottom plates (501), the pressing plates (902) are arranged on piston rods of the corner cylinders (903) and located above the pressing bases (901), and the pressing plates (902) are driven by the corner cylinders (903) to rotate and lift so as to fix an aluminum profile.
3. The aluminum profile automatic processing equipment as claimed in claim 2, characterized in that: the first moving vehicle (301) and the second moving vehicle (302) respectively comprise a moving frame (303), an adjusting frame (304) and a mounting frame (305), the moving frame (303) is a gantry-shaped frame body, a guide sliding block is mounted at the bottom end of the moving frame, a guide sliding rail is fixedly arranged on the conveying frame (1) along the length direction of the conveying frame, the moving frame (303) is movably mounted on the guide sliding rail through the guide sliding block at the bottom of the moving frame, driving racks are arranged on two sides of the conveying frame (1), the driving racks are parallel to the guide sliding rail, a plurality of teeth are uniformly arranged on the surfaces of the driving racks along the length direction, two moving motors (306) are mounted on two sides of the moving frame (303), and the moving motors (306) are in transmission connection with the driving racks through gears mounted on power shafts of the; the adjusting frame (304) is movably mounted on the moving frame (303) and is driven by a first transverse motor mounted on the moving frame (303) to be horizontally adjusted, the moving direction of the adjusting frame (304) is perpendicular to the processing and conveying direction, the mounting frame (305) is movably mounted on the adjusting frame (304), and a first longitudinal motor used for driving the mounting frame (305) to longitudinally lift is arranged on the adjusting frame (304);
the clamping mechanism (2) is arranged on a mounting rack (305) of a first moving vehicle (301), the clamping mechanism (2) comprises a plurality of clamping components, the plurality of clamping components are movably arranged on the mounting rack (305) and are respectively driven and adjusted by a plurality of end adjusting motors (201) arranged on the mounting rack (305) along a processing and conveying direction, the clamping components comprise a mounting rod (202), a push rod (203) and clamping heads, the mounting rod (202) is movably arranged on the mounting rack (305) and is parallel to the processing and conveying direction, a clamping groove is formed in the front end face of the mounting rod (202), an adjusting groove is formed in the bottom of the clamping groove along the length direction of the mounting rod (202), a strip-shaped groove communicated with the adjusting groove is formed in the rod body of the mounting rod (202), the push rod (203) is movably arranged in the adjusting groove in a penetrating manner, one end of the push rod is arranged in the clamping groove, a connecting rod is fixedly connected to the end of the push rod (203) in the adjusting groove, one end of the connecting rod, which is positioned outside the mounting rod (202), is connected with a clamping cylinder (204) which is fixedly arranged outside the mounting rod (202); the clamping head comprises clamping blocks (205), clamping jaws (206) and a clamping rotating shaft, the clamping rotating shaft is fixedly arranged in the clamping groove in a penetrating mode and is perpendicular to the installation rod (202), the two clamping blocks (205) are respectively located on two sides of the clamping rotating shaft and hinged to the clamping rotating shaft, the clamping jaws (206) are fixedly arranged at one ends, located outside the clamping groove, of the clamping blocks (205), one end, located in the clamping groove, of the push rod (203) is located between the two clamping blocks (205) so that the push rod can drive the two clamping blocks (205) to rotate around the clamping rotating shaft when moving along the axial direction, the distance between the tail ends of the two clamping jaws (206) is changed to clamp or loosen the end portion of an aluminum profile, one end, located at the bottom of the clamping groove, of each clamping block (205) is connected with the groove wall of the clamping groove through an elastic sheet, each elastic sheet is a U-shaped sheet; the conveying frame is characterized in that an end adjusting mechanism (10) is arranged on the conveying frame (1), the end adjusting mechanism (10) comprises an end baffle (1001), an adjusting bottom plate (1002) and a longitudinal cylinder (1003), the longitudinal cylinder (1003) is longitudinally installed on the conveying frame (1), the adjusting bottom plate (1002) is horizontally installed on a piston rod of the longitudinal cylinder (1003), and a plurality of end baffles (1001) are fixedly arranged on the adjusting bottom plate (1002) and are respectively opposite to a plurality of aluminum profiles supported, installed and clamped on the conveying frame (1).
4. The aluminum profile automatic processing equipment as claimed in claim 2, characterized in that: the end cutting frame (401) and the dividing and cutting frame (402) are respectively provided with a cutting driving motor (403) and a cutting adjusting plate (404), the cutting adjusting plate (404) is movably mounted and driven by the cutting driving motor (403) to move up and down, a plurality of cutting assemblies are mounted on the cutting adjusting plate (404) and are respectively positioned above a plurality of aluminum profiles clamped on the conveying frame (1); the cutting assembly comprises a cutting drum (405), a cutting motor (406) and a cutting cutter disc (407), wherein the cutting drum (405) is longitudinally installed on a cutting adjusting plate (404), two cutting rotating shafts are horizontally installed in the cutting drum (405) and are in transmission connection with the two cutting rotating shafts, the cutting motor (406) is installed on the cutting drum (405) and is in transmission connection with one cutting rotating shaft, and the cutting cutter disc (407) is installed on the other cutting rotating shaft to be driven and rotated by the cutting motor (406).
5. The aluminum profile automatic processing equipment as claimed in claim 4, characterized in that: a stub bar processing mechanism (11) is arranged on the conveying frame (1) and below the end cutting frame (401), the stub bar processing mechanism (11) comprises a stub bar clamp and a turning frame, the turning frame comprises a turning shaft (1101), a turning cylinder (1102) and a vertically arranged mounting plate (1103), the two mounting plates (1103) are arranged in parallel and just opposite to each other, the mounting plate (1103) is movably arranged on the conveying frame (1) and driven by a longitudinal adjusting cylinder (1104) longitudinally arranged on the conveying frame (1) to be lifted and lowered, the overturning shaft (1101) is parallel to the supporting roller (502), two ends of the overturning shaft are movably connected with the two mounting plates (1103), a connecting block is fixedly arranged on the overturning shaft (1101), the overturning air cylinder (1102) is arranged on the mounting plate (1103), and two ends of the overturning air cylinder (1102) are respectively hinged with the mounting plate (1103) and the connecting block so as to drive the overturning shaft (1101) to rotate; the end clamping device comprises a stub bar fixing plate (1105), a stub bar movable plate (1106) and a second clamping cylinder, wherein the stub bar fixing plate (1105) is fixedly arranged on the turnover shaft (1101) and synchronously overturns along with the turnover shaft (1101), the second clamping cylinder is vertically arranged on the stub bar fixing plate (1105), and the stub bar movable plate (1106) is arranged above the stub bar fixing plate (1105) through the second clamping cylinder to be matched with the stub bar fixing plate (1105) to clamp the end of the aluminum profile;
a slitting fixing mechanism (7) is arranged on the conveying frame (1) and below the slitting frame (402), the slitting fixing mechanism (7) comprises a slitting fixing plate (701) and a slitting pressing component, the slitting fixing plate (701) is horizontally and fixedly arranged on the conveying frame (1), a plurality of slitting pressing components are uniformly arranged on the slitting fixing plate (701) along the direction parallel to the supporting roller (502), the slitting pressing components respectively correspond to a plurality of aluminum profiles supported and clamped on the conveying frame (1) to clamp the aluminum profiles respectively, the slitting pressing component comprises two slitting movable plates (702), the two slitting movable plates (702) are arranged along the processing conveying direction and are both arranged on the slitting fixing plate (701) through a slitting fixing cylinder, a through groove (703) for cutting the cutting components is formed in the surface of the slitting fixing plate (701) between the two slitting movable plates (702), the end-to-end connection of carriage (1) has transports frame (101) and transports and be provided with a plurality of conveying rollers on frame (101), and a plurality of conveying roller transmission are connected and transported in order to transport the aluminium alloy after will cutting by the transportation motor drive on transporting frame (101).
6. The aluminum profile automatic processing equipment as claimed in claim 3, characterized in that: processing counterpoint seat (8) are including counterpointing base (801) and horizontal counterpoint frame (802), counterpoint base (801) and carriage (1) rigid coupling and its upper plate level, are counterpointed and have set firmly horizontal counterpoint slide rail and second transverse electric machine (803) on base (801), horizontal counterpoint slide rail is parallel with backing roll (502), and horizontal counterpoint frame (802) are L shape frame body structure and movable mounting on horizontal counterpoint slide rail, and second transverse electric machine (803) are installed on counterpointing base (801) and are adjusted along horizontal counterpoint slide rail removal with horizontal counterpoint frame (802) of drive.
7. The aluminum profile automatic processing equipment as claimed in claim 6, characterized in that: the corner cutting mechanism comprises a corner cutting frame (601), corner cutting shafts, a corner cutting cutter head (602) and a corner cutting motor (603), wherein the corner cutting frame (601) is movably arranged on a transverse alignment frame (802) of a processing alignment seat (8) and is driven by a second longitudinal motor on the transverse alignment frame (802) to vertically lift and adjust, a plurality of corner cutting shafts are uniformly arranged on the corner cutting frame (601) along the direction parallel to a supporting roller (502), the corner cutting shafts are vertically arranged, a shaft body above the corner cutting frame (601) is provided with the corner cutting cutter head (602), the plurality of corner cutting shafts are in transmission connection and are driven to rotate by the corner cutting motor (603) arranged on the corner cutting frame (601), the corner cutting cutter head (602) driven to rotate by the corner cutting motor (603) is driven by the second longitudinal motor on the processing alignment seat (8) to adjust the height, the second transverse motor (803) drives the aluminum profile to move in the direction parallel to the supporting rollers (502) so as to mill small angles on the end of the aluminum profile.
8. The aluminum profile automatic processing equipment as claimed in claim 6, characterized in that: the side hole processing mechanism is multiple and is respectively installed on a plurality of processing alignment seats (8), the side hole processing mechanism comprises a plurality of side hole processing assemblies which are distributed and arranged on a transverse alignment frame (802) along the direction parallel to a supporting roller (502), each side hole processing assembly comprises an installation cylinder (604), a drill bit clamping shaft (605), a side hole drilling motor (606) and a side hole adjusting plate, the side hole adjusting plates are movably installed on the transverse alignment frame (802) and are longitudinally adjusted by a third longitudinal motor installed on the transverse alignment frame (802), the installation cylinders (604) are longitudinally fixed on the side hole adjusting plates, the side surfaces of the installation cylinders are provided with installation holes, the drill bit clamping shafts (605) are movably arranged in the installation holes in a penetrating mode and are connected with the installation cylinders (604) through bearings, the side hole drilling motors (606) are installed on the side hole adjusting plates and are in transmission connection with the drill bit clamping shafts (605), the drill bit clamping shafts (605) are horizontally arranged and are perpendicular to the conveying direction, one end of the drill clamping shaft (605) is provided with a drill chuck for mounting a drill or a milling cutter, and the plurality of side surface hole processing mechanisms are respectively positioned at two sides of the central line of the conveying frame (1) to respectively drill holes on two side surfaces of the aluminum profile.
9. The aluminum profile automatic processing equipment as claimed in claim 6, characterized in that: bottom surface hole processing machine constructs and installs on carriage (1) through a processing counterpoint seat (8), bottom surface hole processing machine constructs including along a plurality of bottom outlet processing subassemblies of direction distribution setting on horizontal counterpoint frame (802) parallel with backing roll (502), the bottom outlet processing subassembly includes bottom outlet regulating plate (607), bottom outlet drilling motor (608) and the vertical motor of fourth, bottom outlet regulating plate (607) movable mounting is on horizontal counterpoint frame (802) and by installing the vertical lift adjustment of the vertical motor drive of fourth on horizontal counterpoint frame (802), bottom outlet drilling motor (608) are installed on bottom outlet regulating plate (607) and its power shaft is vertical, install the drill bit on the power shaft of bottom outlet drilling motor (608).
10. The aluminum profile automatic processing equipment as claimed in claim 6, characterized in that: top surface hole processing agency includes a plurality of top hole processing subassemblies, a plurality of top hole processing subassemblies are installed on mounting bracket (305) of second locomotive (302) along the direction parallel with backing roll (502), the top hole processing subassembly includes activity drilling motor (609) and nip roll (610), activity drilling motor (609) fixed mounting is in the bottom of mounting bracket (305) and its power shaft vertical, install the drill bit on the power shaft of activity drilling motor (609), the bottom at swage cylinder (611) is installed through the mount pad to nip roll (610) level setting, the vertical bottom that sets up at mounting bracket (305) of swage cylinder (611).
CN202021485935.0U 2020-07-24 2020-07-24 Automatic aluminum profile machining equipment Active CN212351091U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021485935.0U CN212351091U (en) 2020-07-24 2020-07-24 Automatic aluminum profile machining equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021485935.0U CN212351091U (en) 2020-07-24 2020-07-24 Automatic aluminum profile machining equipment

Publications (1)

Publication Number Publication Date
CN212351091U true CN212351091U (en) 2021-01-15

Family

ID=74131520

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202021485935.0U Active CN212351091U (en) 2020-07-24 2020-07-24 Automatic aluminum profile machining equipment

Country Status (1)

Country Link
CN (1) CN212351091U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114700696A (en) * 2022-04-14 2022-07-05 浙江森歌电器有限公司 Manufacturing method of intelligent combustor with automatic temperature measurement function

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114700696A (en) * 2022-04-14 2022-07-05 浙江森歌电器有限公司 Manufacturing method of intelligent combustor with automatic temperature measurement function

Similar Documents

Publication Publication Date Title
CN111687647A (en) Automatic aluminum profile machining equipment
CN108188756B (en) Glass window section bar preprocessing system
CN111687482A (en) Automatic cutting device is used in aluminium alloy processing
CN105922388A (en) Full-automatic machining production line for bamboo tubes
CN212351091U (en) Automatic aluminum profile machining equipment
CN211136237U (en) Automatic processing equipment for door and window materials
CN113714330A (en) Fifteen-roller middle plate straightener with adjustable roll gap distance and operation method thereof
CN216264558U (en) Novel door and window processing lines
CN113732391A (en) Stock cutter of machining production usefulness
CN211053919U (en) Turnover mechanism of engraving and milling machine
CN212762114U (en) Hole machining system for machining aluminum profile
CN212762370U (en) Pushing device for aluminum profile machining
CN110549123B (en) Automatic door and window material processing equipment
CN210633033U (en) Automatic sawing equipment for 45-degree angle of aluminum profile
CN212761480U (en) Automatic cutting device is used in aluminium alloy processing
CN210731693U (en) Processing device for aluminum alloy carriage cargo assembly
CN207900643U (en) A kind of glass window profile preprocess system
CN211891227U (en) Turnover mechanism of engraving and milling machine
CN113857862A (en) Door and window processing production line and processing technology
CN210818281U (en) Automatic unloading mechanism of going up of ring gear
CN111545808A (en) Aluminum template double-row milling equipment with adjusting and conveying functions and using method thereof
CN217343773U (en) Hydraulic cutting equipment for aluminum profiles
CN214517738U (en) Motor stator hole rolling machine
CN220761646U (en) Automatic chamfering and drilling equipment for plates
CN215280172U (en) Machining device for deburring on two sides of steel belt

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant