CN219484858U - Double-saw blade aluminum pipe cutting and milling machine - Google Patents

Double-saw blade aluminum pipe cutting and milling machine Download PDF

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Publication number
CN219484858U
CN219484858U CN202320870952.3U CN202320870952U CN219484858U CN 219484858 U CN219484858 U CN 219484858U CN 202320870952 U CN202320870952 U CN 202320870952U CN 219484858 U CN219484858 U CN 219484858U
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feeding
cutting
milling
plate
motor
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李庆迟
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
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Abstract

The utility model discloses a double-saw-blade aluminum pipe cutting and milling machine, which comprises an aluminum strip feeding frame, wherein a milling support is arranged on one side of the aluminum strip feeding frame, a plurality of material supporting rollers are distributed on the aluminum strip feeding frame at equal intervals in parallel, an aluminum strip feeding mechanism is arranged between two material supporting rollers close to one side of the milling support, an aluminum strip feeding mechanism is arranged on one side of the aluminum strip feeding mechanism, a cutting mechanism is arranged on one side of the aluminum strip feeding mechanism, an edge milling mechanism is arranged on one side of the cutting mechanism, and a waste recycling groove is arranged below one side of the edge milling mechanism. The utility model realizes a series of operations of feeding and positioning, pre-cutting treatment, edge milling processing, waste recycling, aluminum section fixed-length feeding, aluminum strip cutting and the like on one piece of equipment automatically, and the operations do not need manual participation, so that the utility model has the advantages of high processing efficiency, high processing precision and good processing effect, reduces the labor intensity of workers and the labor cost of enterprises, and meets the requirements of mass production of enterprises.

Description

Double-saw blade aluminum pipe cutting and milling machine
Technical Field
The utility model relates to a double-saw-blade aluminum pipe cutting and milling machine.
Background
The traditional processing of aluminium strip is generally firstly cut off it, then, the aluminium strip that the people hand will cut off again is transferred CNC equipment and is moulded it, and this kind of processing method need separate two processes and go on, leads to the processing of aluminium strip very time consuming, laborious, makes it have the problem that machining efficiency is low and machining precision is low. In addition, because the aluminum strip after cutting needs the staff to transfer the aluminum strip to CNC equipment for feeding and the staff to transfer the processed aluminum strip from CNC equipment for discharging, the aluminum strip cutting machine has the defects of high labor intensity of workers and high labor cost of enterprises, and the feeding and discharging modes of cutting the aluminum strip by the staff and transferring the aluminum strip by the staff can not meet the requirements of large-scale batch production and automatic production of enterprises.
Disclosure of Invention
The utility model aims to solve the technical problem of providing a double-saw-blade aluminum pipe cutting and milling machine, which is characterized in that the integral structural design of the double-saw-blade aluminum pipe cutting and milling machine realizes a series of operations such as feeding and positioning, pre-cutting treatment, edge milling, waste recycling, aluminum section fixed-length feeding, aluminum strip cutting, aluminum strip transferring and discharging after cutting and the like on one piece of equipment, and the operations are not needed to be carried out among different pieces of equipment separately and manually and are not needed to be participated in transferring the aluminum strips among different working procedures, so that the double-saw-blade aluminum pipe cutting and milling machine has the advantages of high processing efficiency, high processing precision and good processing effect, reduces the labor intensity of workers and labor cost of enterprises, is more convenient, time-saving and labor-saving in use, and solves the problems of low processing efficiency, poor processing effect, high labor intensity of workers and high labor cost of enterprises caused by the traditional modes of cutting the aluminum strips by manually transferring the aluminum strips and feeding the aluminum strips by hands. The utility model is realized by the following technical scheme:
the double-saw-blade aluminum pipe cutting and milling machine comprises an aluminum strip feeding frame, wherein a milling support is arranged on one side of the aluminum strip feeding frame, a plurality of supporting rollers are distributed on the aluminum strip feeding frame at equal intervals, an aluminum strip feeding mechanism is arranged between two supporting rollers close to one side of the milling support, an aluminum strip feeding mechanism is arranged on one side of the aluminum strip feeding mechanism, an aluminum strip feeding mechanism is arranged on the milling support, a cutting mechanism is arranged on one side of the aluminum strip feeding mechanism, an edge milling mechanism is arranged on one side of the cutting mechanism, and a waste recycling groove is formed below one side of the edge milling mechanism. The aluminum strip feeding rack, the milling support and the waste recycling tank are functional descriptions of the feeding rack, the support and the recycling tank respectively.
When the technical scheme is adopted, the aluminum strips are firstly placed on the material supporting roller and are fed to the aluminum strip feeding mechanism through the aluminum strip feeding mechanism, the aluminum strip feeding mechanism can feed the aluminum strips, and then the cutting mechanism can pre-cut the front ends of the aluminum strips according to production requirements, so that the need of milling the larger parts of the front ends of the aluminum strips is reduced; then, the edge milling mechanism mills the edge of the aluminum strip which is pre-cut, so that the edge can be processed into a shape required by production; then, the aluminum strip feeding mechanism conveys the aluminum strip to a length required by cutting, so that the cutting mechanism can automatically cut the aluminum strip into sections or cut the aluminum strip.
Preferably, the aluminum strip feeding mechanism comprises a feeding bottom plate, a feeding sliding rail is arranged on the feeding bottom plate, a feeding sliding plate is arranged on the feeding sliding rail, two ends of the same side of the feeding sliding plate are respectively provided with a clamping cylinder mounting plate, one side of each clamping cylinder mounting plate is provided with a feeding clamping cylinder, and one side of each feeding clamping cylinder is provided with a feeding clamping plate; one end of the feeding bottom plate is provided with a feeding motor, and the feeding motor is connected with a feeding screw rod assembly through a feeding sliding plate.
After the technical scheme is adopted, when the aluminum strips are placed on the upper surfaces of the feeding slide plate and the material supporting roller, the two feeding clamping cylinders respectively push the feeding clamping plates connected with the feeding clamping cylinders to move in opposite directions, the feeding motor can push the feeding slide plate to move in the direction of the aluminum strip feeding mechanism through the feeding screw rod assembly, so that the aluminum strips can be conveyed and fed; when two material loading clamp cylinders promote respectively and do the centre gripping to the aluminium strip when the loading splint that is connected with it makes the motion of being in opposite directions, then, material loading motor drive material loading slide resets the removal to the direction of keeping away from aluminium strip feeding mechanism, and it is the material loading of next aluminium strip and prepares, and aluminium strip feeding mechanism's structural design has realized can carry out whole material loading to it before aluminium strip processing.
Preferably, the aluminum strip feeding mechanism comprises a feeding bottom plate, feeding sliding rails are arranged on the feeding bottom plate, feeding sliding blocks are arranged on the feeding sliding rails in a sliding manner, feeding sliding plates are arranged on the feeding sliding blocks, a plurality of clamping sliding rails are arranged on the feeding sliding plates, one or a plurality of clamping sliding blocks are arranged on each clamping sliding rail, a feeding clamping bottom plate is arranged on each clamping sliding block, a feeding clamping cylinder connecting piece is arranged on each feeding clamping bottom plate, and a feeding clamping finger is arranged on one side of each feeding clamping cylinder connecting piece; the two sides of the feeding slide plate are respectively provided with a feeding clamping plate, a plurality of feeding clamping cylinders are arranged in each feeding clamping plate in parallel or in parallel, and each feeding clamping cylinder is arranged on one side of each feeding clamping cylinder connecting piece; one side of the feeding slide rail is provided with a feeding motor, the other side of the feeding slide rail is provided with a feeding positioning frame, and the feeding motor is connected with a feeding screw rod assembly through a feeding slide plate. The feed spacer is a functional description of the spacer.
Preferably, the aluminum strip feeding mechanism further comprises a feeding positioning sliding rail arranged on the feeding positioning frame, one end of the feeding positioning sliding rail is provided with a feeding positioning fixed block, the other end of the feeding positioning sliding rail is provided with a feeding positioning clamping cylinder mounting plate, one side of the feeding positioning clamping cylinder mounting plate is provided with a feeding positioning clamping cylinder, and two sides of the feeding positioning fixed block are respectively provided with a feeding positioning fixed clamping finger; a feeding positioning slide block is arranged on the feeding positioning slide rail in a sliding manner; the feeding positioning sliding block is provided with a feeding positioning air cylinder connecting piece, and two sides of the feeding positioning air cylinder connecting piece are respectively provided with a feeding positioning movable clamping finger. The feeding positioning fixing block is a functional description of the fixing block or the positioning block.
After the technical scheme is adopted, when a plurality of groups of two opposite feeding clamping cylinders respectively push a feeding clamping cylinder connecting piece, a feeding clamping bottom plate and a clamping sliding block which are arranged on the same side of the feeding clamping cylinders in sequence to move oppositely along the clamping sliding rail, the two feeding clamping fingers can be driven to synchronously move oppositely, and the two feeding clamping fingers which move oppositely can clamp the aluminum strip; the feeding slide plate can move towards the direction of the processing stations of the cutting mechanism and the edge milling mechanism through the feeding screw rod assembly under the driving of the feeding motor, so that the front end of the aluminum strip can reach the processing station of the cutting mechanism or reach the processing station of the edge milling mechanism, and the feeding device can feed the aluminum strip. When the front end of the aluminum strip reaches a processing station of the cutting mechanism or a processing station of the edge milling mechanism, the feeding positioning movable clamping finger sequentially passes through the feeding positioning cylinder connecting piece and the feeding positioning sliding block and can approach to the feeding positioning fixed clamping finger along the feeding positioning sliding rail under the pushing of the feeding positioning clamping cylinder, so that the aluminum strip can be clamped between the feeding positioning fixed clamping finger and the feeding positioning movable clamping finger, and the clamping and positioning of the aluminum strip can be realized; when the cutting mechanism cuts off the aluminum strip or the edge milling mechanism mills the aluminum strip, the aluminum strip cutting mechanism can ensure that the aluminum strip cannot be loosened so as to influence the processing precision. When the cutting mechanism needs to cut the aluminum strip by a certain length, the feeding motor can push the feeding bottom plate to move by a certain stroke through the feeding screw rod assembly according to the required length of the aluminum strip cut by a certain length, the stroke is the length of the aluminum strip cut by a certain length, meanwhile, the feeding positioning movable clamping finger can clamp the aluminum strip between the feeding positioning movable clamping finger and the feeding positioning fixed clamping finger under the driving of the feeding positioning clamping cylinder, and the cutting mechanism is to cut the aluminum strip. After the front end of the aluminum strip is milled by the edge milling mechanism, the feeding positioning movable clamp finger can release the clamping of the aluminum strip when the feeding positioning slide rail moves away from the feeding positioning fixed clamp finger through the feeding positioning cylinder connecting piece and the feeding positioning slide block under the pushing of the feeding positioning clamping cylinder.
Preferably, the cutting mechanism comprises a cutting and traversing slide rail, one end of the cutting and traversing slide rail is provided with a cutting and traversing motor, a cutting and traversing slide plate is arranged on the cutting and traversing slide rail in a sliding way, and the cutting and traversing motor and the cutting and traversing slide plate are connected with a cutting and traversing screw rod assembly; a cutting support is arranged on the cutting transverse sliding plate, a cutting lifting slide rail is arranged on one side of the cutting support, a cutting lifting slide plate is arranged on one side of the cutting lifting slide rail in a sliding manner, a cutting motor mounting plate is arranged on one side of the cutting lifting slide plate, a cutting motor belt pulley and a cutting saw blade belt pulley are respectively arranged on one side of the cutting motor mounting plate from top to bottom, a cutting motor and a cutting saw blade are respectively arranged on the other side of the cutting motor mounting plate from top to bottom, and the cutting motor belt pulley is arranged on an output shaft of the cutting motor; the upper side of the cutting-off motor is provided with a corner rotating plate, a corner coupler is arranged on the corner rotating plate, a corner motor mounting plate is arranged on the corner coupler, the cutting-off corner motor is arranged on the corner motor mounting plate, and a cutting-off lifting servo motor is arranged on one side of the cutting-off corner motor. The cut-off bracket and corner coupling are functional descriptions of the bracket and coupling, respectively. The cutting blade means a blade for cutting off an aluminum bar. The corner rotating plate is equivalent to the mounting plate. The belt is connected with the cutting motor belt pulley and the cutting saw blade belt pulley.
After the technical scheme is adopted, when the cutting-off transverse moving motor rotates forwards and backwards, the cutting-off transverse moving sliding plate can be driven to move left and right on the cutting-off transverse moving sliding rail through the cutting-off transverse moving screw rod assembly, so that the cutting saw blade sequentially passes through the cutting-off motor mounting plate and the cutting-off bracket and moves left and right along with the movement of the cutting-off transverse moving sliding plate, and the cutting saw blade moving left and right can position the cutting position of the aluminum strip; when the cutting-off corner motor rotates, the corner rotating plate and the cutting-off motor mounting plate can be driven to synchronously rotate through the corner coupler, so that a cutting saw blade arranged on one side of the cutting-off motor mounting plate can rotate along with the rotation of the cutting-off motor mounting plate; the cutting mechanism can control whether the cutting saw blade is vertical tangent or vertical inclined cutting according to the requirements of front end milling of the aluminum section, and the rotating cutting saw blade can adjust the cutting angle of the aluminum strip; when the cutting-off lifting servo motor performs lifting movement, the cutting-off lifting slide plate can be pushed to perform lifting movement along the cutting-off lifting slide rail, and when the cutting-off lifting slide plate lifts, the corner motor mounting plate, the corner rotating plate and the cutting-off motor mounting plate can be driven to synchronously lift, so that the cutting saw blade can lift along with the lifting of the cutting-off motor mounting plate, and the descending cutting saw blade can be positioned on the surface of an aluminum strip and is also suitable for cutting the aluminum strips with different heights; when the cutting motor rotates, the belt pulley of the cutting motor can be driven to rotate, when the belt pulley of the cutting motor rotates, the belt pulley of the cutting saw blade can be driven to rotate through a belt connected with the belt pulley of the cutting motor, when the belt pulley of the cutting saw blade rotates, the cutting saw blade can be driven to rotate, the cutting saw blade can move downwards, and the rotating cutting saw blade can automatically cut aluminum strips; the structural design of the cutting mechanism realizes the positioning of the automatic cutting position and the vertical cutting angle of the aluminum strips and can automatically cut the aluminum strips with different specifications.
Preferably, the edge milling mechanism comprises an edge milling bottom plate, an edge milling X-axis sliding rail is arranged on the edge milling bottom plate, an edge milling X-axis sliding plate is arranged on the edge milling X-axis sliding rail in a sliding mode, an edge milling X-axis motor is arranged at one end of the edge milling X-axis sliding rail, an edge milling X-axis screw rod component is connected with the edge milling X-axis sliding plate, an edge milling Y-axis sliding rail is arranged on the edge milling X-axis sliding plate, an edge milling Y-axis sliding plate is arranged on the edge milling Y-axis sliding rail in a sliding mode, an edge milling Y-axis motor is arranged at one end of the edge milling Y-axis sliding rail, and an edge milling Y-axis screw rod component is connected with the edge milling Y-axis sliding plate.
Preferably, the edge milling mechanism further comprises an edge milling mounting plate arranged on the edge milling Y-direction sliding plate, an arc forming milling cutter is arranged on one end of the edge milling mounting plate, an edge milling motor is arranged on the other end of the edge milling mounting plate, a forming cutter belt pulley is arranged below the arc forming milling cutter, and an edge milling motor belt pulley is arranged on an output shaft of the edge milling motor. The radian shaping milling cutter is a milling cutter for milling or shaping an aluminum strip. The forming cutter belt pulley is connected with the edge milling motor belt pulley and is also provided with a belt.
After the technical scheme is adopted, the edge milling X-axis sliding plate can move in the X direction along the edge milling X-axis sliding rail through the edge milling X-axis screw rod assembly under the drive of the edge milling X-axis motor, so that the edge milling Y-axis sliding rail can move in the X direction along with the movement of the edge milling X-axis sliding plate; the edge milling mounting plate moves along the Y direction along with the edge milling Y direction sliding plate through the edge milling Y axis screw rod assembly and can move along the edge milling Y axis sliding rail under the drive of the edge milling Y axis motor, so that the edge milling mounting plate can move along with the edge milling Y direction sliding plate and can move along the X direction and also move along with the Y direction under the common drive of the edge milling X axis motor and the edge milling Y axis motor; the arc forming milling cutter and the edge milling motor can move together with the movement of the edge milling mounting plate, so that the arc forming milling cutter can position the edge milling track of the arc forming milling cutter in the edge milling process; when the edge milling motor rotates, the belt pulley of the edge milling motor can be driven to synchronously rotate, the belt connected with the belt pulley of the edge milling motor can drive the forming cutter belt pulley to synchronously rotate, the forming cutter belt pulley can drive the radian forming milling cutter to rotate when rotating, and the rotating radian forming milling cutter can carry out edge milling processing on the aluminum strip. The structural design of the edge milling mechanism realizes edge milling processing of various different shapes of the front end of the aluminum strip, and has the advantages of high processing efficiency, good edge milling effect and high edge milling precision.
Preferably, the cutting saw blade belt pulley is connected with the cutting saw blade, the radian forming milling cutter is connected with the forming cutter belt pulley and is also provided with the connecting shaft, the cutting motor belt pulley is connected with the cutting saw blade belt pulley, and the forming cutter belt pulley is connected with the edge milling motor belt pulley and is also provided with the belt.
Preferably, the loading base plate, the feeding clamping base plate and the edge milling base plate are all functional descriptions of the base plate. The feeding slide rail, the clamping slide rail, the feeding positioning slide rail, the cutting-off transverse sliding slide rail, the cutting-off lifting slide rail, the edge milling X-axis slide rail and the edge milling Y-axis slide rail are all functional descriptions of the slide rails. Both the feeding slide block and the clamping slide block are functional descriptions of the slide blocks. The feeding slide plate, the cutting transverse sliding slide plate, the cutting lifting slide plate, the edge milling X-direction slide plate and the edge milling Y-direction slide plate are all functional descriptions of the slide plates. The clamping cylinder mounting plate, the feeding positioning clamping cylinder mounting plate, the cutting motor mounting plate, the corner motor mounting plate and the edge milling mounting plate are all functional descriptions of the mounting plates. The feeding clamping cylinder, the feeding clamping cylinder and the feeding positioning clamping cylinder are all functional descriptions of the cylinders. The feeding motor, the cutting-off transverse moving motor, the cutting-off corner motor, the cutting-off lifting servo motor, the edge milling X-axis motor, the edge milling Y-axis motor and the edge milling motor are all functional descriptions of the motors. The loading splint and the feeding splint are both functional descriptions of the splint. The feed clamp cylinder connector and the feed positioning cylinder connector are both functional descriptions of the connector. The feeding clamp finger, the feeding positioning fixed clamp finger and the feeding positioning movable clamp finger are all functional descriptions of the clamp finger. The cutoff motor pulley, the cutting saw blade pulley, the forming cutter pulley, and the edge milling motor pulley are all functional descriptions of the pulleys. The feeding screw rod assembly, the cutting-off transverse moving screw rod assembly, the edge milling X-axis screw rod assembly and the edge milling Y-axis screw rod assembly all comprise nut supporting seats and ball screws penetrating through the centers of the nut supporting seats.
Preferably, the controller or the control system is respectively connected with the aluminum strip feeding mechanism, the cutting mechanism, the edge milling mechanism and other components in a signal way, the controller is a PLC programmable logic controller, and the PLC programmable logic controller can adopt a programmable logic controller with the production place of Shenzhen and the model of XDS-40T-D, but the controller is not limited to the programmable logic controller.
Compared with the prior art, the utility model has the beneficial effects that: the aluminum strip feeding mechanism, the cutting mechanism and the edge milling mechanism are respectively designed, and the aluminum strip feeding mechanism, the cutting mechanism and the edge milling mechanism are matched with an aluminum strip feeding frame, a material supporting roller and a waste recycling groove for use, so that the aluminum strip feeding mechanism can feed aluminum strips, the aluminum strip feeding mechanism can feed aluminum strips in a fixed length, the cutting mechanism can pre-cut the aluminum strips and cut the aluminum strips in a fixed length according to the production requirement, the edge milling mechanism can mill the edges of the aluminum strips subjected to the pre-cutting treatment, and waste materials generated by milling can be recycled through the waste recycling groove; the whole structural design of the aluminum strip feeding and discharging device realizes a series of operations such as feeding and positioning, pre-cutting treatment, edge milling processing, aluminum fixed-length feeding, aluminum strip cutting and aluminum strip transferring and discharging after cutting on one device, and the operation is performed without manual participation, so that the problems of low processing efficiency, poor processing effect, low processing precision, high labor intensity of workers and high labor cost of enterprises caused by the traditional mode of cutting the aluminum strip by hands and feeding and discharging the aluminum strip by hands are solved.
Drawings
For ease of illustration, the utility model is described in detail by the following preferred embodiments and the accompanying drawings.
Fig. 1 is a perspective view of a dual saw blade aluminum pipe cutting and milling machine of the present utility model.
Fig. 2 is a perspective view of an aluminum strip feeding mechanism of the double-saw-blade aluminum pipe cutting and milling machine of the utility model, which is matched with one of the supporting rollers for use.
Fig. 3 is a perspective view of an aluminum strip feeding mechanism of the double-saw blade aluminum pipe cutting and milling machine of the utility model.
Fig. 4 is a perspective view of the aluminum strip feeding mechanism of the double-saw blade aluminum pipe cutting and milling machine of the utility model in different directions.
Fig. 5 is a perspective view of a cutting mechanism of the double saw blade aluminum pipe cutting and milling machine of the present utility model.
Fig. 6 is a left side view of the cutoff mechanism of the double saw blade aluminum pipe cutter of the present utility model.
Fig. 7 is a perspective view of a milling mechanism of the dual saw blade aluminum pipe cutting and milling machine of the present utility model.
Fig. 8 is a front view of the edge milling mechanism of the double saw blade aluminum pipe cutting and milling machine of the present utility model.
Description of the embodiments
In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.
In this embodiment, referring to fig. 1 to 8, the dual-saw blade aluminum pipe cutting and milling machine of the utility model comprises an aluminum strip feeding frame 1, wherein a milling support 2 is arranged on one side of the aluminum strip feeding frame 1, a plurality of material supporting rollers 3 are distributed on the aluminum strip feeding frame 1 at equal intervals, an aluminum strip feeding mechanism 4 is installed between the two material supporting rollers 3 on one side of the milling support 2, an aluminum strip feeding mechanism 5 is arranged on one side of the aluminum strip feeding mechanism 4, the aluminum strip feeding mechanism 5 is installed on the upper side of the milling support 2, a cutting mechanism 6 is arranged on one side of the aluminum strip feeding mechanism 5, a milling mechanism 7 is arranged on one side of the cutting mechanism 6, and a waste recycling groove 8 is arranged below one side of the milling mechanism 7.
In one embodiment, the aluminum strip feeding mechanism 4 comprises a feeding bottom plate 41, a feeding sliding rail 42 is arranged on the feeding bottom plate 41, a feeding sliding plate 43 is arranged on the feeding sliding rail 42, clamping cylinder mounting plates 44 are respectively arranged at two ends of the same side of the feeding sliding plate 43, a feeding clamping cylinder 45 is arranged on one side of each clamping cylinder mounting plate 44, and a feeding clamping plate 46 is arranged on one side of each feeding clamping cylinder 45; one end of the feeding bottom plate 41 is provided with a feeding motor 47, and the feeding motor 47 and the feeding sliding plate 43 are connected with a feeding screw rod assembly 48.
In one embodiment, the aluminum strip feeding mechanism 5 comprises a feeding bottom plate 50, a feeding sliding rail 51 is arranged on the feeding bottom plate 50, a feeding sliding block 52 is arranged on the feeding sliding rail 51 in a sliding manner, a feeding sliding plate 53 is arranged on the feeding sliding block 52, a plurality of clamping sliding rails 54 are arranged on the feeding sliding plate 53, one or more clamping sliding blocks 55 are arranged on each clamping sliding rail 54, a feeding clamping bottom plate 56 is arranged on each clamping sliding block 55, a feeding clamping cylinder connecting piece 57 is arranged on each feeding clamping bottom plate 56, and a feeding clamping finger 58 is arranged on one side of each feeding clamping cylinder connecting piece 57; feeding clamping plates 59 are respectively arranged on two sides of the feeding sliding plate 53, a plurality of feeding clamping cylinders 501 are arranged in each feeding clamping plate 59 in parallel or in parallel, and each feeding clamping cylinder 501 is arranged on one side of each feeding clamping cylinder connecting piece 57; a feeding motor 502 is arranged on one side of the feeding sliding rail 51, a feeding positioning frame 503 is arranged on the other side of the feeding sliding rail 51, and a feeding screw rod assembly 504 is connected with the feeding motor 502 and the feeding sliding plate 53.
In one embodiment, the aluminum strip feeding mechanism 5 further comprises a feeding positioning sliding rail 505 arranged on the feeding positioning frame 503, one end of the feeding positioning sliding rail 505 is provided with a feeding positioning fixed block 506, the other end of the feeding positioning sliding rail 505 is provided with a feeding positioning clamping cylinder mounting plate 507, one side of the feeding positioning clamping cylinder mounting plate 507 is provided with a feeding positioning clamping cylinder 508, and two sides of the feeding positioning fixed block 506 are respectively provided with a feeding positioning fixed clamping finger 509; a feeding positioning slide block 510 is slidably arranged on the feeding positioning slide rail 505; a feeding positioning cylinder connecting piece 511 is arranged on the feeding positioning slide block 510, and feeding positioning movable clamping fingers 512 are respectively arranged on two sides of the feeding positioning cylinder connecting piece 511.
In one embodiment, the cutting mechanism 6 comprises a cutting and traversing slide rail 60, a cutting and traversing motor 61 is arranged at one end of the cutting and traversing slide rail 60, a cutting and traversing slide plate 62 is arranged on the cutting and traversing slide rail 60 in a sliding way, and the cutting and traversing motor 61 and the cutting and traversing slide plate 62 are connected with a cutting and traversing screw rod assembly 63; a cutting bracket 64 is arranged on the cutting transverse sliding plate 62, a cutting lifting slide rail 65 is arranged on one side of the cutting bracket 64, a cutting lifting slide plate 66 is arranged on one side of the cutting lifting slide rail 65 in a sliding manner, a cutting motor mounting plate 67 is arranged on one side of the cutting lifting slide plate 66, a cutting motor belt pulley 68 and a cutting saw blade belt pulley 69 are respectively arranged on one side of the cutting motor mounting plate 67 from top to bottom, a cutting motor 601 and a cutting saw blade 602 are respectively arranged on the other side of the cutting motor mounting plate 67 from top to bottom, and the cutting motor belt pulley 68 is arranged on an output shaft of the cutting motor 601; the upper side of the cutting motor 601 is provided with a corner rotating plate 603, the upper surface of the corner rotating plate 603 is provided with a corner coupler 604, the upper surface of the corner coupler 604 is provided with a corner motor mounting plate 605, the upper surface of the corner motor mounting plate 605 is provided with a cutting corner motor 606, and one side of the cutting corner motor 606 is provided with a cutting lifting servo motor 607.
In one embodiment, the edge milling mechanism 7 includes an edge milling bottom plate 71, an edge milling X-axis sliding rail 72 is disposed on the edge milling bottom plate 71, an edge milling X-axis sliding plate 73 is disposed on the edge milling X-axis sliding rail 72 in a sliding manner, an edge milling X-axis motor 74 is disposed at one end of the edge milling X-axis sliding rail 72, the edge milling X-axis motor 74 and the edge milling X-axis sliding plate 73 are connected with an edge milling X-axis screw assembly 75, an edge milling Y-axis sliding rail 76 is disposed on the edge milling X-axis sliding plate 73, an edge milling Y-axis sliding plate 77 is disposed on the edge milling Y-axis sliding rail 76 in a sliding manner, an edge milling Y-axis motor 78 is disposed at one end of the edge milling Y-axis sliding rail 76, and the edge milling Y-axis motor 78 and the edge milling Y-axis sliding plate 77 are connected with an edge milling Y-axis screw assembly 79.
In one embodiment, the edge milling mechanism 7 further comprises an edge milling mounting plate 701 arranged on the edge milling Y-direction sliding plate 77, an arc forming milling cutter 702 is arranged on one end of the edge milling mounting plate 701, an edge milling motor 703 is arranged on the other end of the edge milling mounting plate 701, a forming cutter belt pulley 704 is arranged below the arc forming milling cutter 702, and an edge milling motor belt pulley 705 is arranged on an output shaft of the edge milling motor 703.
In one embodiment, the structural design principle of the double-saw blade aluminum pipe cutting and milling machine is as follows: firstly, placing aluminum strips on a plurality of material supporting rollers 3 which are distributed in parallel, wherein the aluminum strips are also placed between a front material clamping plate 46 and a rear material clamping plate 46 in an aluminum strip feeding mechanism 4, and the front material clamping cylinder 45 and the rear material clamping cylinder 45 respectively push the material clamping plates 46 connected with the front material clamping cylinders to perform opposite movement so as to clamp the aluminum strips in the middle; when the feeding motor 47 pushes the feeding sliding plate 43 to move towards the direction of the aluminum strip feeding mechanism 5 through the feeding screw rod assembly 48, the aluminum strips can be conveyed and fed. When the aluminum strips are conveyed between a plurality of pairs of feeding clamping fingers 58 which are distributed in parallel in the aluminum strip feeding mechanism 5 under the pushing of the feeding motor 47, each pair of feeding clamping fingers 58 can clamp the aluminum strips when being driven by a feeding clamping cylinder 501 arranged on the same side to move in opposite directions; when the feeding slide plate 53 passes through the feeding screw rod assembly 504 and is driven by the feeding motor 502 to move towards the cutting mechanism 6 and the edge milling mechanism 7 respectively, the front end of the aluminum strip can reach the processing station of the cutting mechanism 6 or the processing station of the edge milling mechanism 7 respectively, so that the processing of the aluminum strip can be fed; when the front end of the aluminum strip reaches the processing station of the cutting mechanism 6 or the processing station of the edge milling mechanism 7, the feeding positioning movable clamping finger 512 can move towards the feeding positioning fixed clamping finger 509 under the pushing of the feeding positioning clamping cylinder 508, so that the aluminum strip can be clamped between the feeding positioning fixed clamping finger 509 and the feeding positioning movable clamping finger 512, the aluminum strip can be clamped and positioned, and the phenomenon that the aluminum strip is loosened or deviated when the aluminum strip is cut by the subsequent cutting mechanism 6 or the aluminum strip is milled by the edge milling mechanism 7 is avoided, so that the processing precision is influenced. When the front end of the aluminum strip conveyed into the processing station of the cutting mechanism 6 is of an oblique structure, a cutting corner motor 606 in the cutting mechanism 6 can drive a corner rotating plate 603 to rotate by a certain angle through a corner coupler 604, so that a cutting motor mounting plate 67 can rotate along with the rotation of the corner rotating plate 603, and a cutting saw blade 602 can rotate by a certain angle along with the rotation of the cutting motor mounting plate 67 to position the aluminum strip with the front end of the oblique structure before cutting; then, the front end of the aluminum strip is precut by the cutting saw blade 602 under the drive of the cutting motor 601, so that the need of the edge milling mechanism 7 for milling the larger part of the front end of the aluminum strip is reduced; the arc forming milling cutter 702 in the edge milling mechanism 7 can move in the Y direction and in the X direction under the common drive of the edge milling Y-axis motor 78 and the edge milling X-axis motor 74, so that the arc forming milling cutter 702 can be accurately positioned at the position of the aluminum strip to be milled; when the radian forming milling cutter 702 in the edge milling mechanism 7 rotates under the drive of the edge milling motor 703, the edge of the aluminum strip after precutting can be milled into a shape required by production, and the waste generated in the process of milling the aluminum strip by the radian forming milling cutter 702 can fall into the waste recovery tank 8 for recovery. Then, the feeding motor 502 in the aluminum strip feeding mechanism 5 can drive the feeding bottom plate 50 to move for a certain stroke through the feeding screw rod assembly 504 according to the length required by cutting the aluminum strip for a certain length, and the moving stroke of the feeding bottom plate 50 is the length required by cutting the aluminum strip for a certain length because the aluminum strip can move along with the movement of the feeding bottom plate 50, and the feeding positioning movable clamping finger 512 in the aluminum strip feeding mechanism 5 can clamp the aluminum strip between the feeding positioning clamping finger 509 and the feeding positioning fixed clamping finger 508 under the driving of the feeding positioning clamping cylinder 508, so that the cutting saw blade 602 can automatically cut the clamped aluminum strip when driven by the cutting motor 601 to rotate.
The above embodiment is only an example of the present utility model and is not intended to limit the scope of the present utility model, and all technical solutions identical or equivalent to those described in the claims should be included in the scope of the present utility model.

Claims (7)

1. Double saw blade aluminum pipe surely mills machine, its characterized in that: including aluminium strip material loading frame, one side of aluminium strip material loading frame is provided with the milling support, equidistant distribution above the aluminium strip material loading frame has a plurality of to hold in the palm the material cylinder, two near two support material cylinders of milling support one side are installed aluminium strip feed mechanism, one side of aluminium strip feed mechanism is provided with aluminium strip feeding mechanism, and aluminium strip feeding mechanism installs on the milling support, one side of aluminium strip feeding mechanism is provided with cutting mechanism, one side of cutting mechanism is provided with mills limit mechanism, the below of milling limit mechanism one side is provided with the waste recovery groove.
2. The dual saw blade aluminum pipe cutting and milling machine as recited in claim 1 wherein: the aluminum strip feeding mechanism comprises a feeding bottom plate, a feeding sliding rail is arranged on the feeding bottom plate, a feeding sliding plate is arranged on the feeding sliding rail, two ends of the same side of the feeding sliding plate are respectively provided with a clamping cylinder mounting plate, one side of each clamping cylinder mounting plate is provided with a feeding clamping cylinder, and one side of each feeding clamping cylinder is provided with a feeding clamping plate; one end of the feeding bottom plate is provided with a feeding motor, and the feeding motor is connected with a feeding screw rod assembly through a feeding sliding plate.
3. The dual saw blade aluminum pipe cutting and milling machine as recited in claim 1 wherein: the aluminum strip feeding mechanism comprises a feeding bottom plate, a feeding sliding rail is arranged on the feeding bottom plate, a feeding sliding block is arranged on the feeding sliding rail in a sliding manner, a feeding sliding plate is arranged on the feeding sliding block, a plurality of clamping sliding rails are arranged on the feeding sliding plate, one or a plurality of clamping sliding blocks are arranged on each clamping sliding rail, a feeding clamping bottom plate is arranged on each clamping sliding block, a feeding clamping cylinder connecting piece is arranged on each feeding clamping bottom plate, and a feeding clamping finger is arranged on one side of each feeding clamping cylinder connecting piece; the two sides of the feeding slide plate are respectively provided with a feeding clamping plate, a plurality of feeding clamping cylinders are arranged in each feeding clamping plate in parallel or in parallel, and each feeding clamping cylinder is arranged on one side of each feeding clamping cylinder connecting piece; one side of the feeding slide rail is provided with a feeding motor, the other side of the feeding slide rail is provided with a feeding positioning frame, and the feeding motor is connected with a feeding screw rod assembly through a feeding slide plate.
4. A dual saw blade aluminum pipe cutting and milling machine as recited in claim 3 wherein: the aluminum strip feeding mechanism further comprises a feeding positioning sliding rail arranged on the feeding positioning frame, one end of the feeding positioning sliding rail is provided with a feeding positioning fixed block, the other end of the feeding positioning sliding rail is provided with a feeding positioning clamping cylinder mounting plate, one side of the feeding positioning clamping cylinder mounting plate is provided with a feeding positioning clamping cylinder, and two sides of the feeding positioning fixed block are respectively provided with a feeding positioning fixed clamping finger; a feeding positioning slide block is arranged on the feeding positioning slide rail in a sliding manner; the feeding positioning sliding block is provided with a feeding positioning air cylinder connecting piece, and two sides of the feeding positioning air cylinder connecting piece are respectively provided with a feeding positioning movable clamping finger.
5. The dual saw blade aluminum pipe cutting and milling machine as recited in claim 1 wherein: the cutting mechanism comprises a cutting transverse sliding rail, one end of the cutting transverse sliding rail is provided with a cutting transverse sliding motor, a cutting transverse sliding plate is arranged on the cutting transverse sliding rail in a sliding manner, and the cutting transverse sliding motor and the cutting transverse sliding plate are connected with a cutting transverse sliding screw rod assembly; a cutting support is arranged on the cutting transverse sliding plate, a cutting lifting slide rail is arranged on one side of the cutting support, a cutting lifting slide plate is arranged on one side of the cutting lifting slide rail in a sliding manner, a cutting motor mounting plate is arranged on one side of the cutting lifting slide plate, a cutting motor belt pulley and a cutting saw blade belt pulley are respectively arranged on one side of the cutting motor mounting plate from top to bottom, a cutting motor and a cutting saw blade are respectively arranged on the other side of the cutting motor mounting plate from top to bottom, and the cutting motor belt pulley is arranged on an output shaft of the cutting motor; the upper side of the cutting-off motor is provided with a corner rotating plate, a corner coupler is arranged on the corner rotating plate, a corner motor mounting plate is arranged on the corner coupler, the cutting-off corner motor is arranged on the corner motor mounting plate, and a cutting-off lifting servo motor is arranged on one side of the cutting-off corner motor.
6. The dual saw blade aluminum pipe cutting and milling machine as recited in claim 1 wherein: the edge milling mechanism comprises an edge milling bottom plate, an edge milling X-axis sliding rail is arranged on the edge milling bottom plate, an edge milling X-axis sliding plate is arranged on the edge milling X-axis sliding rail in a sliding mode, an edge milling X-axis motor is arranged at one end of the edge milling X-axis sliding rail, an edge milling X-axis screw rod component is connected with the edge milling X-axis sliding plate in a connected mode, an edge milling Y-axis sliding rail is arranged on the edge milling X-axis sliding plate, an edge milling Y-axis sliding plate is arranged on the edge milling Y-axis sliding rail in a sliding mode, an edge milling Y-axis motor is arranged at one end of the edge milling Y-axis sliding rail, and an edge milling Y-axis screw rod component is connected with the edge milling Y-axis sliding plate in a connected mode.
7. The dual saw blade aluminum pipe cutting and milling machine as recited in claim 6 wherein: the edge milling mechanism further comprises an edge milling mounting plate arranged on the edge milling Y-direction sliding plate, an arc forming milling cutter is arranged on one end of the edge milling mounting plate, an edge milling motor is arranged on the other end of the edge milling mounting plate, a forming cutter belt pulley is arranged below the arc forming milling cutter, and an edge milling motor belt pulley is arranged on an output shaft of the edge milling motor.
CN202320870952.3U 2023-04-18 2023-04-18 Double-saw blade aluminum pipe cutting and milling machine Active CN219484858U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202320870952.3U CN219484858U (en) 2023-04-18 2023-04-18 Double-saw blade aluminum pipe cutting and milling machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202320870952.3U CN219484858U (en) 2023-04-18 2023-04-18 Double-saw blade aluminum pipe cutting and milling machine

Publications (1)

Publication Number Publication Date
CN219484858U true CN219484858U (en) 2023-08-08

Family

ID=87508824

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202320870952.3U Active CN219484858U (en) 2023-04-18 2023-04-18 Double-saw blade aluminum pipe cutting and milling machine

Country Status (1)

Country Link
CN (1) CN219484858U (en)

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