CN108994198A - A kind of aluminium alloy extrusions conveying bending integral machine - Google Patents

Abstract

The invention discloses a kind of aluminium alloy extrusions conveying bending integral machines, it includes bottom plate, is provided with cushion block in the middle part of bottom plate；Cushion block two sides are provided with movable block and multiple delivery wheels；Pressing plate is provided with above the cushion block both ends；One end of the cushion block is provided with conveyer belt A；The other end of cushion block is provided with conveyer belt B；It is equipped with fluting on each fixed block, is provided with sliding bar on each fluting；The two sides of each fluting are provided with threaded rod A, are respectively connected with connecting rod A between two threaded rod A in each fluting；The other two sides of each fluting are provided with threaded rod B, are respectively connected with connecting rod B between two threaded rod B in each fluting；Baffle and inductor are provided between described two fixed blocks；PLC controller is provided on the bottom plate.The present invention can not only improve efficiency, make easier operation, reduction labor intensity and improve the scope of application, also have the advantages that structural stability preferably and mechanical flexibility is preferable.

Description

A kind of aluminium alloy extrusions conveying bending integral machine

Technical field

The present invention relates to a kind of aluminium alloy extrusions of aluminium alloy extrusions processing industry conveying bending integral machines.

Background technique

Aluminium alloy extrusions is more to be used in some furniture and equipment, and some aluminium alloy extrusions are needed before use Bending processing is carried out to it with the bending machine of aluminium alloy extrusions, but the bending machine of existing aluminium alloy extrusions is to aluminium alloy It when profile carries out bending, needs that manually aluminium alloy extrusions is placed on the bending machine and is aligned, after aluminium alloy extrusions alignment It needs on the bending machine for being manually fixed in aluminium alloy extrusions, aluminium alloy extrusions needs manually to close aluminium again after being bent over Metal type material is lifted down from the bending machine, and the working efficiency of the bending machine is lower, and manual operation is more complex, and the labour of worker is strong It spends also larger；And the bending machine of aluminium alloy extrusions to aluminium alloy extrusions one end carry out bending processing when, aluminium alloy type The angle and shape that the one end of material is formed after being bent over are usually fixed, and generally can only be to a type of and fixed ruler Very little aluminium alloy extrusions carries out bending processing, smaller scope of application.Therefore, the bending machine of existing aluminium alloy extrusions exists The problem of efficiency is lower, the more complex, labor intensity of operation is larger and smaller scope of application.

Summary of the invention

The object of the present invention is to provide a kind of aluminium alloy extrusions conveying bending integral machines.The present invention can not only improve Efficiency keeps operation easier, also has the advantages that labor intensity is smaller and the scope of application is wider.

Technical solution of the present invention: a kind of aluminium alloy extrusions conveying bending integral machine, including bottom plate, the setting of bottom plate middle part There is cushion block；Cushion block two sides are provided with movable block, and multiple delivery wheels are provided on each movable block, are connected on each delivery wheel It is connected to the No.1 motor being located in movable block；It is provided with pressing plate above the cushion block both ends, is all connected on each pressing plate There is hydraulic cylinder；One end of the cushion block is provided with conveyer belt A, and No. two motors are connected on conveyer belt A, and the two sides of conveyer belt A are equal It is provided with partition；The other end of the cushion block is provided with conveyer belt B, is connected with No. three motors on conveyer belt B, and the two of conveyer belt B Side is provided with fixed block；Fluting is equipped on each fixed block, the opening of each fluting is towards conveyer belt B, each fluting On be provided with sliding bar；The two sides of each fluting are provided with threaded rod A, two threaded rod A in each fluting it Between be respectively connected with the connecting rod A being slidably connected with sliding bar；One end of each threaded rod A is respectively connected with No. four motors；Institute The other two sides for stating each fluting are provided with threaded rod B, are respectively connected with and slide between two threaded rod B in each fluting The connecting rod B that bar is slidably connected；One end of each threaded rod B is respectively connected with No. five motors；Between described two fixed blocks It is provided with the baffle being located above conveyer belt B, is provided with inductor on baffle, baffle one end is connected with six on fixed block Number motor；PLC controller, the No.1 motor, hydraulic cylinder, No. two motors, No. three motors, No. four electricity are provided on the bottom plate Machine, No. five motors, inductor and No. six motors are electrically connected with PLC controller.

For a kind of aluminium alloy extrusions above-mentioned in conveying bending integral machine, the PLC controller can control No.1 motor Rotation, the flexible of hydraulic cylinder, the rotation of No. two motors, the rotation of No. three motors, the rotation of No. four motors, No. five motors turn Dynamic and No. six motors rotation, and then drive the rotation of corresponding delivery wheel, the moving up and down of pressing plate, the rotation of conveyer belt A, transmission Rotation with B, the rotation of threaded rod A, the rotation of threaded rod B and baffle rotation.

For a kind of aluminium alloy extrusions above-mentioned in conveying bending integral machine, the side of each movable block is provided with branch Fagging is threaded with multiple screw A in each support plate；One end of each screw A is respectively connected in movable block Round block corresponds in movable block and is equipped with circular groove at the position of round block；There are two support rods for connection between described two support plates, each Threaded rod C is threaded in the middle part of support rod；The bottom end of each threaded rod C is connect with a hydraulic cylinder, each screw thread Two nuts positioned at support rod two sides are threaded on bar C；It corresponds in the movable block and is set at the position of No.1 motor It is fluted.

With in conveying bending integral machine, the top end part of each fixed block is provided with a kind of aluminium alloy extrusions above-mentioned The both ends of adjustable plate, each adjustable plate are equipped with waist hole；It is provided with screw B in each waist hole, screw B is corresponded on fixed block Position at be equipped with threaded hole；It is respectively connected with support in the middle part of each adjustable plate, is provided between two supports and baffle The rotating bar of connection；Rotating bar one end is connect with No. six motors, and the other end is rotatably connected to bearing；No. six motors and bearing It is located above two supports.

A kind of aluminium alloy extrusions above-mentioned corresponds to the position of threaded rod A in conveying bending integral machine on the fixed block Place is equipped with sliding slot A, and the threaded block A in sliding slot A is connected between the one end the connecting rod A and threaded rod A；The fixed block It is equipped with sliding slot B at the position of upper corresponding threaded rod B, is connected between the one end the connecting rod B and threaded rod B in sliding slot B Threaded block B；It is correspondingly connected on the sliding bar at the position of bar A and connecting rod B and is equipped with through-hole.

A kind of aluminium alloy extrusions above-mentioned is respectively connected with inclination above each partition in conveying bending integral machine Plate, there are two side plates, two side plates to be located at the top at the both ends conveyer belt A for connection between two hang plates；The transmission Both ends with A are connected separately with driven wheel A and driving wheel A, and driving wheel A is connect with No. two motors.

With in conveying bending integral machine, the both ends of the conveyer belt B are connected separately with a kind of aluminium alloy extrusions above-mentioned Driven wheel B and driving wheel B, driving wheel B are connect with No. three motors.

For a kind of aluminium alloy extrusions above-mentioned in conveying bending integral machine, the pressing plate bottom end is equipped with arc groove；It is described Groove is equipped on bottom plate at the position of corresponding No. three motors, is equipped with groove at the position of bottom plate upper conveyor belt B.

Compared with prior art, present invention improves over the bending machines of existing aluminium alloy extrusions, by that will need to carry out After the aluminium alloy extrusions of bending processing is placed on the conveyer belt A of rotation, which is transported on cushion block by conveyer belt A Afterwards, which is continued to two fixed block side conveyings and is transported to by the delivery wheel of two rows of rotations of cushion block two sides Between two sliding bars, after one end of the aluminium alloy extrusions is contacted with vertical baffle, the inductor on baffle is sensed It is pressed on pressing plate on cushion block aluminium alloy extrusions after controlling hydraulic cylinder elongation by PLC controller after signal, PLC controller is again The rotation of No. four motors and No. five motors in each fixed block is controlled, No. four motors drive connecting rod A to move by threaded rod A Dynamic, No. five motors drive connecting rod B mobile by threaded rod B, and sliding bar is done under the collective effect of connecting rod A and connecting rod B Arc track movement or slanting linear motion, one end of aluminium alloy extrusions are bent under the action of two sliding bars, are rolled over Curved aluminium alloy extrusions is transported to outside the present invention by conveyer belt B is collected again, passes through the work step of said mechanism, worker Aluminium alloy extrusions need to be only placed on conveyer belt A, the present invention can carry out bending and transport process to the aluminium alloy extrusions, this The working efficiency of invention is higher, and operation is easier, through the invention instead of most manual operation, and then also reduces The labor intensity of worker, and after controlling by PLC controller the velocity of rotation of No. four motors and No. five motors, No. four motors and five Number movement speed of the motor by corresponding connecting rod A and connecting rod B in the horizontal and vertical directions, so can make with Connecting rod A and the connecting rod B sliding bar connected do circular motion or slanting linear motion, and the arc angle of circular motion and The angle of the bending of slanting linear motion can be controlled by inputting different programs in PLC controller, and then make this Invention is suitable for aluminium alloy extrusions bending different shapes, and controls two sliding bars in vertical side by PLC controller Upward distance, and then be suitable for the bending to the aluminium alloy extrusions of different height or width and handle, and then improve the present invention The scope of application.In addition, the present invention is threadedly coupled multiple screws in support plate also by the way that support plate is arranged in the side of movable block A, the one end screw A connect round block, are equipped with circular groove in movable block, and round block can move in circular groove, and then supported by screw A It drives movable block mobile by round block after rotation on plate, and then changes between movable block and delivery wheel and cushion block on movable block Distance, so that the present invention is suitable for the bending to the aluminium alloy extrusions of different in width, further improve applicable model of the invention It encloses；By being threadedly coupled two nuts on threaded rod C, threaded rod C can be made to do on support rod up and down by two nuts It is mobile, and then the hydraulic cylinder and the distance between pressing plate and cushion block of the bottom end threaded rod C are adjusted, it is suitable for the present invention to different height The bending of the aluminium alloy extrusions of degree improves the scope of application of the invention；By the way that adjustable plate is arranged on fixed block, set on adjustable plate Have waist hole and screw B, position of the adjustable plate on fixed block can be adjusted by waist hole and screw B, so adjust rotating bar and Baffle makes shape of the present invention suitable for going out different length to one end bending of aluminium alloy extrusions at a distance from cushion block one end Shape improves the scope of application of the invention；It is equipped with sliding slot A, threaded block A, sliding slot B and threaded block B by fixed block, makes to connect The both ends of bar A are slided on sliding slot A by threaded block A, slide the both ends of connecting rod B on sliding slot B by threaded block B, into And keep the structural stability of connecting rod A and connecting rod B when moving preferable；By connection above partition, there are two hang plate and two The aluminium alloy extrusions that multiple needs are processed can be placed in the frame that two hang plates and two side plates surround and be added by a side plate Work further improves working efficiency of the invention；By connecting driven wheel A and driving wheel A at the both ends of conveyer belt A, The both ends of conveyer belt B connect driven wheel B and driving wheel B, and mechanical flexibility when rotating conveyer belt A and conveyer belt B is preferable； By being equipped with arc groove in pressing plate bottom end, so that pressing plate is suitable for compressing rectangular or circular aluminium alloy extrusions, further mention The high scope of application of the invention.Therefore, the present invention can not only improve efficiency, make easier operation, reduction labor intensity and mention The high scope of application also has the advantages that structural stability preferably and mechanical flexibility is preferable.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is the cross-sectional view in Fig. 1 at A-A；

Fig. 3 is the cross-sectional view in Fig. 1 at B-B；

Fig. 4 is the side view at fixed block；

Fig. 5 is the cross-sectional view in Fig. 4 at C-C；

Fig. 6 is the cross-sectional view in Fig. 4 at D-D.

The label in accompanying drawing is: 1- bottom plate, 2- cushion block, 3- movable block, 4- delivery wheel, 5- No.1 motor, 6- pressing plate, 7- liquid Cylinder pressure, No. bis- motors of 8- conveyer belt A, 9-, 10- partition, 11- conveyer belt B, 12- fixed block, 13- fluting, 14- sliding bar, 15- Threaded rod A, 16- connecting rod No. tetra- motors of A, 17-, 18- threaded rod B, 19- connecting rod No. five motors of B, 20-, No. tri- motors of 21-, 22- baffle, 23- inductor, No. six motors of 24-, 25-PLC controller, 26- support plate, 27- screw A, 28- round block, 29- circle Slot, 30- support rod, 31- threaded rod C, 32- nut, 33- adjustable plate, 34- waist hole, 35- screw B, 36- support, 37- rotating bar, 38- bearing, 39- sliding slot A, 40- threaded block A, 41- sliding slot B, 42- threaded block B, 43- hang plate, 44- side plate, 45- driven wheel A, 46- driving wheel A, 47- driven wheel B, 48- driving wheel B, 49- arc groove.

Specific embodiment

The present invention is further illustrated with reference to the accompanying drawings and examples, but be not intended as to the present invention limit according to According to.

Embodiment.A kind of aluminium alloy extrusions conveying bending integral machine, is constituted as shown in Figures 1 to 6, including bottom plate 1, bottom plate 1 middle part is provided with cushion block 2；2 two sides of cushion block are provided with movable block 3, multiple delivery wheels 4 are provided on each movable block 3, often The No.1 motor 5 in movable block 3 is respectively connected on a delivery wheel 4；Pressing plate is provided with above 2 both ends of cushion block 6, hydraulic cylinder 7 is respectively connected on each pressing plate 6；One end of the cushion block 2 is provided with conveyer belt A8, is connected with two on conveyer belt A8 Number motor 9, the two sides of conveyer belt A8 are provided with partition 10；The other end of the cushion block 2 is provided with conveyer belt B11, conveyer belt No. three motors 21 are connected on B11, the two sides of conveyer belt B11 are provided with fixed block 12；It is equipped with out on each fixed block 12 Slot 13, the opening of each fluting 13 are provided with sliding bar 14 on each fluting 13 towards conveyer belt B11；It is described each to open The two sides of slot 13 are provided with threaded rod A15, are respectively connected with and sliding bar 14 between two threaded rod A15 in each fluting 13 The connecting rod A16 being slidably connected；One end of each threaded rod A15 is respectively connected with No. four motors 17；Each fluting 13 Other two sides be provided with threaded rod B18, be respectively connected with and sliding bar 14 between two threaded rod B18 in each fluting 13 The connecting rod B19 being slidably connected；One end of each threaded rod B18 is respectively connected with No. five motors 20；Described two fixed blocks The baffle 22 being provided with above conveyer belt B11 between 12 is provided with inductor 23 on baffle 22, and 22 one end of baffle is connected with No. six motors 24 on fixed block 12；PLC controller 25, the No.1 motor 5, hydraulic cylinder are provided on the bottom plate 1 7,17, No. five motors 20 of No. two motors of motor 21, four of motor 9, three, inductor 23 and No. six motors 24 are controlled with PLC Device 25 is electrically connected.

The PLC controller 25 can control the rotation of No.1 motor 5, the flexible of hydraulic cylinder 7, No. two motors 9 rotation, The rotation of No. three motors 21, the rotation of No. four motors 17, the rotation of No. five motors 20 and No. six motors 24 rotation, and then drive The rotation of corresponding delivery wheel 4, the moving up and down of pressing plate 6, the rotation of conveyer belt A8, the rotation of conveyer belt B11, threaded rod A15 It rotates, the rotation of the rotation of threaded rod B18 and baffle 22；The side of each movable block 3 is provided with support plate 26, each Multiple screw A27 are threaded in support plate 26；One end of each screw A27 is respectively connected with the circle in movable block 3 Block 28 corresponds in movable block 3 and is equipped with circular groove 29 at the position of round block 28；There are two supports for connection between described two support plates 26 Bar 30, each 30 middle part of support rod are threaded with threaded rod C31；The bottom end of each threaded rod C31 is hydraulic with one Cylinder 7 connects, and two nuts 32 positioned at 30 two sides of support rod are threaded on each threaded rod C31；In the movable block 3 Groove is equipped at the position of corresponding No.1 motor 5；The top end part of each fixed block 12 is provided with adjustable plate 33, each tune The both ends of section plate 33 are equipped with waist hole 34；It is provided with screw B35 in each waist hole 34, screw B35 is corresponded on fixed block 12 Position at be equipped with threaded hole；The middle part of each adjustable plate 33 is respectively connected with support 36, is provided between two supports 36 The rotating bar 37 being connect with baffle 22；37 one end of rotating bar is connect with No. six motors 24, and the other end is rotatably connected to bearing 38；Institute It states No. six motors 24 and bearing 38 is located at two supports, 36 top；The position of threaded rod A15 is corresponded on the fixed block 12 Place is equipped with sliding slot A39, and the threaded block A40 in sliding slot A39 is connected between the one end the connecting rod A16 and threaded rod A15； Corresponded on the fixed block 12 and be equipped with sliding slot B41 at the position of threaded rod B18, the one end the connecting rod B19 and threaded rod B18 it Between be connected with the threaded block B42 in sliding slot B41；The position of bar A16 and connecting rod B19 are correspondingly connected on the sliding bar 14 Place is equipped with through-hole；Hang plate 43 is respectively connected with above each partition 10, there are two sides for connection between two hang plates 43 Plate 44, two side plates 44 are located at the top at the both ends conveyer belt A8；The both ends of the conveyer belt A8 be connected separately with from Driving wheel A45 and driving wheel A46, driving wheel A46 are connect with No. two motors 9；The both ends of the conveyer belt B11 be connected separately with from Driving wheel B47 and driving wheel B48, driving wheel B48 are connect with No. three motors 21；6 bottom end of pressing plate is equipped with arc groove 49；It is described Groove is equipped on bottom plate 1 at the position of corresponding No. three motors 21, is equipped with groove at the position of 1 upper conveyor belt B11 of bottom plate.

Working principle: the PLC controller 25 is a kind of electronic system of digital operation, specially in industrial settings Using and design, it using the memory that can program, be used to execute storage logical operation and sequential control, timing, The instruction with operations such as arithmetical operations is counted, and various types of by the input (I) and output (O) interface, control of number or simulation The mechanical equipment or production process of type are provided with control panel in PLC controller 25；When original state, on each support rod 30 Hydraulic cylinder 7 be in contraction state, hydraulic cylinder 7 makes pressing plate 6 be located at the top of its travel paths；The baffle 22 is in water Placing flat state, as shown in Figure 1；The height of the top end part of the conveyer belt A8 is greater than or equal to the height of the top end part of cushion block 2； Sliding bar 14 in the fixed block 12 being located on the upside of conveyer belt B11 as shown in figure 1 is located at left in the fixed block 12 fluting 13 The position of end side on the upper side, and 14 bottom end of sliding bar and 2 top end part of cushion block in the vertical direction at a distance from be greater than an aluminium The height of alloy profile, and the sliding bar 14 in the fixed block 12 being located on the downside of conveyer belt B11 as shown in figure 1 is located at the fixed block The position of left part partial below in 12 flutings 13, and 14 top end part of sliding bar is lower than the height of 2 top end part of cushion block, and two are solid Two sliding bars 14 determined in block 12 are on same vertical line, and the distance between two sliding bars 14 are greater than an aluminium and close The height of metal type material.

When work, the aluminium alloy extrusions that multiple one end need bending to handle is placed in parallel in by two hang plates 43 and two In the frame that a side plate 44 fences up, and need one end of bending towards 2 side of cushion block these aluminium alloy extrusions, and these aluminium One aluminium alloy extrusions of bottom in alloy profile then drops between two partitions 10, and the distance between two partitions 10 Greater than an aluminium alloy extrusions width and less than the sum of two aluminium alloy extrusions width, and the bottom end of each side plate 44 and biography Send height of the distance in the vertical direction greater than an aluminium alloy extrusions and less than the two aluminium conjunctions between the top end part with A8 The sum of golden profile height, and the distance between two side plates 44 are greater than the length and less than two aluminium alloys of an aluminium alloy extrusions The sum of profile length, and the both ends conveyer belt A8 are not blocked, if making conveyer belt A8 at runtime by aluminium alloy extrusions card When firmly, personnel can be whole by carrying out manually to the aluminium alloy extrusions blocked in the gap of the side on conveyer belt A8 far from cushion block 2 Reason.

After multiple aluminium alloy extrusions are placed in the frame to be fenced up by two hang plates 43 and two side plates 44, this is opened The power supply of invention first controls No. two motors 9, each No.1 motor No. 5, three numbers according to the program of setting after the energization of PLC controller 25 Motor 21 and No. six motors 24 rotate, and No. two motors 9 drive driving wheel A46 rotation, and driving wheel A46 is driven by conveyer belt A8 Driven wheel A45 rotation, conveyer belt A8 can be rotated on driven wheel A45 and driving wheel A46 in turn, and the top end part of conveyer belt A8 It is rotated under the drive of No. two motors 9 to 2 side of cushion block；No. three motors 21 drive driving wheel B48 rotation, and driving wheel B48 passes through Conveyer belt B11 drives driven wheel B47 rotation, and conveyer belt B11 can be rotated on driven wheel B47 and driving wheel B48 in turn, and be passed The top end part with B11 is sent to rotate under the drive of No. three motors 21 to far from 2 side of cushion block；Band turn after No. six motors 24 rotate Lever 37 rotates, and one end of rotating bar 37 then rotates on bearing 38, and rotating bar 37 drives on baffle 22 far from rotating bar 37 1 End rotates down 90 degree, and baffle 22 turns to vertical state around rotating bar 37 from horizontality, and PLC controller 25 is according still further to setting No. six motors 24 of process control stop operating, and 22 two sides of baffle are located at the adjustable plate 33 on fixed block 12 equipped with waist hole 34, screw B35 is connected in waist hole 34, it can be on fixed block 12 by waist hole 34 by slack adjuster B35 aft ramp 33 Mobile, fixed block 12 drives support 36 disposed thereon to move on fixed block 12 in turn, and two supports 36 can pass through in turn Rotating bar 37 drives baffle 22 mobile, and then position of the controllable register 22 on fixed block 12, to change baffle 22 and cushion block 2 The distance between, so that the present invention is changed the length that aluminium alloy extrusions needs one end of bending, improves the scope of application of the invention；And Each No.1 motor 5 drives corresponding delivery wheel 4 to rotate after rotating, the rotation of multiple delivery wheels 4 on the same movable block 3 Direction is identical, and the rotation direction of the delivery wheel 4 on two movable blocks 3 on the contrary, be located at the movable block 3 of 2 upside of cushion block as shown in figure 1 On delivery wheel 4 be the delivery wheel 4 for rotating counterclockwise, and being located on the movable block 3 of the downside of cushion block 2 be to rotate clockwise；And position When screw A27 in 3 side of movable block is rotated in threaded hole corresponding in support plate 26, the round block 28 of the one end screw A27 Rotation, round block 28 then rotate in corresponding circular groove 29 on movable block 3, and then make screw A27 band when rotating in support plate 26 It is mobile to move corresponding movable block 3, and then changes the distance between movable block 3 and cushion block 2, to adjust the conveying on movable block 3 The distance between 4 and cushion block 2 are taken turns, the delivery wheel 4 on two movable blocks 3 is made to be suitable for conveying the aluminium alloy extrusions of different in width, Improve the scope of application of the invention.

A lowermost aluminium in the aluminium alloy extrusions in the frame that two hang plates 43 and two side plates 44 fence up After alloy profile drops on the conveyer belt A8 between two partitions 10, the conveyer belt A8 of rotation is by the aluminium alloy extrusions cushion block 2 After upper, and other aluminium alloy extrusions then continue to fall, and multiple delivery wheels 4 of the rotation of 2 two sides of cushion block and the aluminium alloy The width adequate of profile, i.e. the distance between two rows of delivery wheels 4 on two movable blocks 3 can be defeated under the adjusting of screw A27 Send the aluminium alloy extrusions for being located at the top of cushion block 2, and the two rows delivery wheel 4 aluminium alloy extrusions will not be squeezed after enable aluminum alloy to type Material deformation；By the conveyer belt A8 aluminium alloy extrusions for being transported to the top of cushion block 2 continue under the conveying of the delivery wheels 4 of two rows rotation to It is moved in gap between two fixed blocks 12, and the gap between two fixed blocks 12 is greater than the width of an aluminium alloy extrusions Degree, and one end of the sliding bar 14 on each fixed block 12 is elongated in the fluting 13 of another fixed block 12；When the aluminium alloy Profile enters the gap between two fixed blocks 12 under the conveying of two rows of delivery wheels 4, and the aluminium alloy extrusions also cross One end of the aluminium alloy extrusions is contacted with vertical baffle 22 after between two sliding bars 14, then after continuing conveying, and the aluminium The other end of alloy profile is also located at 2 top of cushion block, and the inductor 23 on baffle 22 senses the letter of the aluminium alloy extrusions Number, which is passed to PLC controller 25, process control each No.1 of the PLC controller 25 according still further to setting by inductor 23 Motor 5 stops operating, and No.1 motor 5 makes corresponding delivery wheel 4 also stop operating, and then PLC controller 25 controls two branch again The hydraulic cylinder 7 of 30 lower section of strut extends, and hydraulic cylinder 7 drives corresponding pressing plate 6 to move down, and pressing plate 6 will be now placed in pad in turn The one end of aluminium alloy extrusions on block 2 is pressed on cushion block 2, and the arc groove 49 of 6 bottom end of pressing plate is located at 6 bottom end of pressing plate Middle part, and then the two sides of 6 bottom end of pressing plate is enable to compress rectangular aluminium alloy extrusions, and the middle part of 6 bottom end of pressing plate can compress Circular aluminium alloy extrusions improves the scope of application of the invention；And connect on the threaded rod C31 connected above each hydraulic cylinder 7 It connects there are two the nut 32 for being located at about 30 two sides of support rod, threaded rod C31 can be made to prop up by two the elastic of nut 32 It is moved up and down on strut 30, and then adjusts the distance between pressing plate 6 and cushion block 2, drive pressing plate 6 in the elongation of hydraulic cylinder 7 The lower aluminium alloy extrusions for being suitable for compressing different height, further improves the scope of application of the invention.

After the one end of aluminium alloy extrusions is pressed on cushion block 2 by pressing plate 6, PLC controller 25 controls No. six motors again 24 rotate backward 90 degree, and No. six motors 24 are returned to initial position after so that vertical baffle 22 is rotated 90 degree by rotating bar 37, PLC controller 25 also controls No. two motors 9 and stops operating, and No. two motors 9 make conveyer belt A8 stop operating；PLC controller 25 is again It is located at four connected on two threaded rod A15 in the fixed block 12 on the upside of conveyer belt B11 as shown in figure 1 according to the process control of setting The rotation of number motor 17, No. four motors 17 drive corresponding threaded rod A15 to rotate, and threaded rod A15 drives corresponding screw thread in turn Block A40 slide downward a certain distance on sliding slot A39, the distance are to set in the program that PLC controller 25 inputs in advance, And two threaded block A40 also driven after driving connecting rod A16 mobile sliding bar 14 along connecting rod B19 slide downward it is certain away from From, and the linear type through-hole that connecting rod A16 can be made to slide is equipped between the 13 and sliding slot A39 that slots, connecting rod A16 drives sliding Make after 14 slide downward of bar sliding bar 14 contacted with the top end part for the aluminium alloy extrusions being now placed between two sliding bars 14 and Certain pressure is applied to the top end part of the aluminium alloy extrusions；PLC controller 25 also controls simultaneously is located at conveyer belt as shown in figure 1 The rotation of two No. four motors 17 in fixed block 12 on the downside of B11, No. four motors 17 drive corresponding threaded rod A15 to rotate, Threaded rod A15 drives corresponding threaded block A40 upward sliding a certain distance in turn, which is in advance in PLC controller 25 Set in the program of input, and two threaded block A40 drive also drive after connecting rod A16 sliding bar 14 along connecting rod B19 to On slide a distance, connecting rod A16 makes sliding bar 14 and to be now placed in two slidings after driving 14 upward sliding of sliding bar The bottom end of aluminium alloy extrusions between bar 14 contacts and applies certain pressure to the bottom end of the aluminium alloy extrusions.

After PLC controller 25, which controls two sliding bars 14, clamps the aluminium alloy extrusions, PLC controller 25 is according still further to setting No. five motors 20 rotation in each fixed block 12 of fixed process control, No. five motors 20 drive threaded rod B18 rotation, threaded rod B18 makes right side of the threaded block B42 in sliding slot B41 into Fig. 1 mobile in turn, two threaded block B42 and then drive connecting rod B19 Sliding bar 14 is driven also to move to the right along connecting rod A16 after moving right, and being equipped between the 13 and sliding slot B41 that slots can The linear type through-hole for sliding connecting rod B19；When the present invention is used for bending that one end of aluminium alloy extrusions is upward, personnel pass through Make the connecting rod B19 band being located in the fixed block 12 on the upside of conveyer belt B11 as shown in figure 1 after setting program in PLC controller 25 Dynamic sliding bar 14 passes through No. four motors 17 while moving right again makes connecting rod A16 that sliding bar 14 be driven to move up, this is solid The program determining the sliding bar 14 in block 12 and then being set under the action of connecting rod A16 and connecting rod B19 according to PLC controller 25 It does arc track movement to the top of the right side or moves along a straight line obliquely；And PLC controller 25 makes as shown in figure 1 according to setting program Connecting rod B19 in the fixed block 12 on the downside of conveyer belt B11 drives sliding bar 14 to pass through No. four again while moving right Motor 17 makes connecting rod A16 that sliding bar 14 be driven to also move up, and the sliding bar 14 in the fixed block 12 is in turn in connecting rod A16 With under the action of connecting rod B19 according to PLC controller 25 set program do arc track to the top of the right side movement or it is oblique Upper linear motion, and the radian that the arc track moves when the sliding bar 14 does arc track movement is greater than in Fig. 1 positioned at biography The radian for sending the arc track of the sliding bar 14 in the fixed block 12 on the upside of with B11 to move, passes through the cunning in two fixed blocks 12 Lever 14 is bent over the one end for the aluminium alloy extrusions being clipped in two sliding bars 14 after doing arc track movement, and the aluminium closes The degree that metal type material one end is bent over makes No. four motors after can inputting different programs by the control panel of PLC controller 25 17 is different with the velocity of rotation of No. five motors 20 and control；Conversely, when PLC controller 25 controls what connecting rod B19 was moved right It controls connecting rod A16 simultaneously to move downward, the one end for the aluminium alloy extrusions being clipped between two sliding bars 14 can be made to roll over downwards It is curved, by driving sliding bar 14 to do arc track movement or slanting linear motion after the movement of connecting rod B19 and connecting rod A16 Afterwards, the shape of the angle of different radians or bending can be gone out to aluminium alloy extrusions bending, and then also improves of the invention be applicable in Range.

After aluminium alloy extrusions is by two 14 bendings of sliding bar, process control four according still further to setting of PLC controller 25 After motor 17 and No. five motors 20 rotate backward, by after corresponding threaded block A40 and threaded block B42 drive connecting rod B19 and Connecting rod A16 also returns to initial position, and PLC controller 25, which is controlled again after hydraulic cylinder 7 is shunk, drives corresponding pressing plate 6 to be returned to Initial position, then PLC controller 25 controls each No.1 motor 5 again and continues to rotate by original direction, and No.1 motor 5 drives Delivery wheel 4 also continues to rotate, and two rows of delivery wheels 4 continue the aluminium alloy extrusions therein being bent over into Fig. 1 in turn Right side conveying, and on the conveyer belt B11 that the aluminium alloy extrusions is transported to rotation when conveying to the right after being bent over, conveyer belt The B11 and then aluminium alloy extrusions is transported on the outside of the present invention is collected, and the bending of aluminium alloy extrusions and is conveyed Journey is completed, and then PLC controller 25 controls No. two motors 9 again and continues to rotate, and No. two motors 9 continue to rotate conveyer belt A8, PLC Controller 25, which also controls after No. six motors 24 are rotated further by 90 degree, keeps baffle 22 in a vertical state, and the aluminium alloy extrusions of the bending In the aluminium alloy extrusions being located in the frame that hang plate 43 and side plate 44 form to after conveyer belt B11 conveying then in the work of conveyer belt A8 Continue to convey to 2 side of cushion block under, and repeat above-mentioned work step, and then makes bending of the present invention to aluminium alloy profile Processing speed it is very fast, efficiency is higher.

Claims (8)

1. a kind of aluminium alloy extrusions conveying bending integral machine, it is characterised in that: including bottom plate (1), be provided in the middle part of bottom plate (1) Cushion block (2)；Cushion block (2) two sides are provided with movable block (3), are provided with multiple delivery wheels (4) on each movable block (3), often The No.1 motor (5) in movable block (3) is respectively connected on a delivery wheel (4)；It is all provided with above cushion block (2) both ends It is equipped with pressing plate (6), is respectively connected with hydraulic cylinder (7) on each pressing plate (6)；One end of the cushion block (2) is provided with conveyer belt A (8), No. two motors (9) are connected on conveyer belt A (8), the two sides of conveyer belt A (8) are provided with partition (10)；The cushion block (2) The other end is provided with conveyer belt B (11), and No. three motors (21) are connected on conveyer belt B (11), and the two sides of conveyer belt B (11) are all provided with It is equipped with fixed block (12)；It is equipped with fluting (13) on each fixed block (12), the opening of each fluting (13) is towards conveyer belt B (11), sliding bar (14) are provided on each fluting (13)；The two sides of each fluting (13) are provided with threaded rod A (15), the connecting rod A being slidably connected with sliding bar (14) is respectively connected between two threaded rod A (15) in each fluting (13) (16)；One end of each threaded rod A (15) is respectively connected with No. four motors (17)；The other two sides of each fluting (13) It is provided with threaded rod B (18), is respectively connected between two threaded rod B (18) in each fluting (13) sliding with sliding bar (14) The connecting rod B (19) of dynamic connection；One end of each threaded rod B (18) is respectively connected with No. five motors (20)；It is described two solid Determine to be provided with the baffle (22) above conveyer belt B (11) between block (12), be provided with inductor (23) on baffle (22), is kept off Plate (22) one end is connected with No. six motors (24) on fixed block (12)；PLC controller is provided on the bottom plate (1) (25), the No.1 motor (5), hydraulic cylinder (7), No. two motors (9), No. three motors (21), No. four motors (17), No. five motors (20), inductor (23) and No. six motors (24) are electrically connected with PLC controller (25).

2. a kind of aluminium alloy extrusions according to claim 1 conveying bending integral machine, it is characterised in that: the PLC control Device (25) processed can control the rotation of No.1 motor (5), the flexible of hydraulic cylinder (7), the rotation of No. two motors (9), No. three motors (21) rotation, the rotation of No. four motors (17), the rotation of No. five motors (20) and No. six motors (24) rotation, and then drive The rotation of corresponding delivery wheel (4), the moving up and down of pressing plate (6), the rotation of conveyer belt A (8), the rotation of conveyer belt B (11), screw thread The rotation of bar A (15), the rotation of threaded rod B (18) and baffle (22) rotation.

3. a kind of aluminium alloy extrusions according to claim 1 conveying bending integral machine, it is characterised in that: each shifting The side of motion block (3) is provided with support plate (26), and multiple screw A (27) are threaded on each support plate (26)；Often One end of a screw A (27) is respectively connected with the round block (28) in movable block (3), corresponds to round block (28) in movable block (3) Circular groove (29) are equipped at position；There are two support rod (30), each support rods (30) for connection between described two support plates (26) Middle part is threaded with threaded rod C (31)；The bottom end of each threaded rod C (31) is connect with a hydraulic cylinder (7), each Two nuts (32) positioned at support rod (30) two sides are threaded on threaded rod C (31)；It is corresponding in the movable block (3) Groove is equipped at the position of No.1 motor (5).

4. a kind of aluminium alloy extrusions according to claim 1 conveying bending integral machine, it is characterised in that: described each solid The top end part for determining block (12) is provided with adjustable plate (33), and the both ends of each adjustable plate (33) are equipped with waist hole (34)；Each It is provided in waist hole (34) screw B (35), is corresponded on fixed block (12) and be equipped with threaded hole at the position of (35) screw B；It is described It is respectively connected with support (36) in the middle part of each adjustable plate (33), turn connecting with baffle (22) is provided between two supports (36) Lever (37)；Rotating bar (37) one end is connect with No. six motors (24), and the other end is rotatably connected to bearing (38)；No. six electricity Machine (24) and bearing (38) are located above two supports (36).

5. a kind of aluminium alloy extrusions according to claim 1 conveying bending integral machine, it is characterised in that: the fixed block (12) corresponded on and be equipped with sliding slot A (39) at the position of (15) threaded rod A, described (16) one end connecting rod A and threaded rod A (15) it Between be connected with the threaded block A (40) in sliding slot A (39)；At the position for corresponding to (18) threaded rod B on the fixed block (12) Equipped with sliding slot B (41), the screw thread in sliding slot B (41) is connected between described (19) one end connecting rod B and threaded rod B (18) Block B (42)；It is correspondingly connected on the sliding bar (14) at the position of bar A (16) and connecting rod B (19) and is equipped with through-hole.

6. a kind of aluminium alloy extrusions according to claim 1 conveying bending integral machine, it is characterised in that: it is described each every It is respectively connected with hang plate (43) above plate (10), there are two side plate (44), two side plates for connection between two hang plates (43) (44) it is located at the top at conveyer belt A (8) both ends；The both ends of the conveyer belt A (8) are connected separately with driven wheel A (45) it is connect with driving wheel A (46), driving wheel A (46) with No. two motors (9).

7. a kind of aluminium alloy extrusions according to claim 1 conveying bending integral machine, it is characterised in that: the conveyer belt The both ends of B (11) are connected separately with driven wheel B (47) and driving wheel B (48), and driving wheel B (48) connects with No. three motors (21) It connects.

8. special according to claim 1 to a kind of conveying bending integral machine of aluminium alloy extrusions described in any claim in 7 Sign is: pressing plate (6) bottom end is equipped with arc groove (49)；On the bottom plate (1) at the position of corresponding No. three motors (21) Equipped with groove, groove is equipped at the position of bottom plate (1) upper conveyor belt B (11).