CN204657958U - A kind of sheet metal machining production line - Google Patents

Abstract

The utility model discloses and be to provide a kind of sheet metal machining production line in sheet fabrication equipment field, comprise the CNC shearing machine set gradually, numerical control press and at least two numerical control benders, the feed side of described CNC shearing machine is provided with raw material frame and positioning table, first crossbeam is provided with above CNC shearing machine and numerical control press, first crossbeam two ends stride across CNC shearing machine and numerical control press, raw material frame and positioning table are separately positioned on the below of both sides, first crossbeam front end, the feeding manipulator of first crossbeam, the rear end of first crossbeam is provided with blanking mechanical hand, the exit side of numerical control press is provided with cache shelf, described blanking mechanical hand is corresponding with cache shelf, the rear side of cache shelf is provided with multistation conveying device, above the top that first crossbeam extends to multistation conveying device or side, numerical control bender divides and is located at multistation conveying device both sides.This plant automation degree is high, can without collaborative work interferingly, and the compatibility of collaborative work is good.

Description

A kind of sheet metal machining production line

Technical field

The utility model relates to a kind of sheet metal producing unit, particularly a kind of production line of multiple stage lathe Combined process.

Background technology

In Chinese patent database, disclose a kind of method for forming metal and flexible production line thereof, its publication number CN 102009323 A, publication date is 2011-04-13, this production line comprises automatic feeding system, cutting stamping-out system, formation system, pincers weldering system, blanking sorting module, finished product automated warehouse library module and finished product conveyor module etc., described automatic feeding system, cutting stamping-out system, formation system, pincers weldering system is arranged in order along the trend of described production line, and be provided with transfer device corresponding to this production line side, arrange one respectively with described automatic feeding system, cutting stamping-out system, formation system, pincers weldering system, transfer device, blanking sorting module, finished product automated warehouse library module, finished product conveyor module is connected, and control the control system of its duty, described production line side is provided with some registration rollers walking limit arrangement along it, opposite side correspondence is provided with limiting roll.Automatic feeding system comprises the sheet material warehouse module, coiled strip pallet module, power uncoiling module, transportation module, leveling module and the digital control feeding module that are arranged in order setting; Described cutting stamping-out system comprises a digital stamping module, a cutting module, shears separation module and a Dies ' Blanking module; Described formation system comprises a numerical control flanging module, a shaped by fluid pressure module, a rolling-bending forming module, leveling module and a stretcher strain module; Described formation system comprises a numerical control flanging module, a shaped by fluid pressure module, a rolling-bending forming module, leveling module and a stretcher strain module; Described pincers weldering system comprises a welding module, riveted joint functional module, a welding manipulator module and a welding tooling module.Described cutting module is numerical control laser cutter or CUT.Described transfer device is arbitrary in conveyer belt, track, manipulator.Its weak point is: in this device, and how under mutually than the prerequisite of interfering, giving different module feedings, be a difficult problem, in addition, this device is applicable to the processing of roll bending, and is not suitable for the processing of stacking plate.Although this device gives the overall technical architecture combined by disparate modules, it fails to provide actual exercisable concrete scheme, when practical operation, still there is a lot of technical barrier, such as, feed system self poisoning, and how could the problem such as collaborative work between corresponding module.

Utility model content

The purpose of this utility model is to provide a kind of sheet metal machining production line, makes its automaticity high, and the compatibility of collaborative work is good.

The purpose of this utility model is achieved in that a kind of sheet metal machining production line, comprise the CNC shearing machine set gradually, numerical control press and at least two numerical control benders, the feed side of described CNC shearing machine is provided with raw material frame and positioning table, first crossbeam is provided with above CNC shearing machine and numerical control press, first crossbeam two ends stride across CNC shearing machine and numerical control press, raw material frame and positioning table are separately positioned on the below of both sides, first crossbeam front end, the front end of first crossbeam is provided with can along the feeding manipulator of first crossbeam movement, the rear end of first crossbeam is provided with can along the blanking mechanical hand of first crossbeam movement, the exit side of numerical control press is provided with cache shelf, described blanking mechanical hand is corresponding with cache shelf, the rear side of cache shelf is provided with multistation conveying device, above the top that first crossbeam extends to multistation conveying device or side, make blanking mechanical hand can move to above multistation conveying device, numerical control bender divides and is located at multistation conveying device both sides, the opposite side of multistation conveying device is corresponding with numerical control bender is provided with bending crossbeam, bending crossbeam is provided with can along the bender mechanical arm of bending cross beam movement, numerical control bender is other is provided with finished product frame.

During utility model works, plate is captured by feeding manipulator, deliver on positioning table and locate, after completing location, plate is delivered to CNC shearing machine by feeding manipulator, carry out shearing trim process, after completing the deburring of sheet material shear, feeding manipulator draws plate again, deliver to numerical control press, carry out punch press process, after processing, pressing sheet material captures and is placed in cache shelf by blanking mechanical hand, being taken out by plate is more when needed placed in multistation conveying device, plate is delivered to each multistation of numerical control bender by multistation conveying device, by bender mechanical arm feeding, send into numerical control bender and carry out Bending Processing.Be placed on finished product frame by bending finished product after bending completes, what complete plate cuts the process washed off.Compared with prior art, the utility model has following beneficial effect:

1, first crossbeam two ends stride across CNC shearing machine and numerical control press, CNC shearing machine and numerical control press is made to share feeding manipulator, blanking mechanical hand is not only for the blanking of numerical control press, simultaneously, for giving multistation conveying device material loading, make device compact overall structure, can not interfere between blanking and blanking.

2, cache shelf may be used for buffer memory sheet material, and numerical control press is mated better with numerical control bending function, meanwhile, cache shelf can be arranged the buffer zone of different size part, can put different plate, makes production line can process the part of plurality of specifications simultaneously.

3, bending arm crawl plate directly carries out bending on numerical control bender, and midway does not need plate to put down, and ensure that machining accuracy.

This plant automation degree is high, without collaborative work interferingly, can be cut by plate and wash off processing.

As further improvement of the utility model, described multistation conveying device comprises two gripper shoes be arranged in parallel, some feeding rollers be parallel to each other are provided with between two gripper shoes, feeding roller two ends are arranged in bearing block through bearing, bearing block is fixedly mounted in corresponding gripper shoe, feeding roller end is provided with drive sprocket, liftable framework is provided with on the upside of described gripper shoe, framework and bender mechanical arm one_to_one corresponding, described framework both sides are connected to lift cylinder, the cylinder block of lift cylinder is fixed on gripper shoe side, the piston rod external part of lift cylinder is provided with lift cylinder joint, framework avris is provided with engaging lug, be hinged through bearing pin between lift cylinder joint and engaging lug, wherein, lift cylinder joint corresponding to side gripper shoe is provided with waist-shaped hole and is connected with described bearing pin, lift cylinder joint corresponding to opposite side gripper shoe is provided with circular hole and described bearing pin is connected, described framework comprises the two blocks of side plates be parallel to each other, and is connected between the downside of two blocks of side plates through some retainer plates, position on two blocks of side plates between adjacent retainer plate is provided with the groove extended from bottom to top, is provided with striker plate between one end of two blocks of side plates, when lift cylinder drives side plate to move downward lower limit position, retainer plate, through the gap feeding roller, makes feeding roller be positioned at described groove, and the top edge of feeding roller is higher than the upper surface of retainer plate, meanwhile, striker plate blocks on the feeding route of feeding roller, when lift cylinder drives side plate to move upward to upper limit position, the lower edge of retainer plate and striker plate, higher than the top edge of feeding roller, abdicates the feeding route of feeding roller.During its work, blanking mechanical hand captures plate from cache shelf and is placed on one by one on feeding roller, when feeding roller rotates, plate moves along the length direction of gripper shoe, now, framework has two kinds of operating modes, the first is in be waited to expect operating mode, it two is allow material operating mode, treating under material operating mode, lift cylinder drives side plate to move downward lower limit position, because the top edge of feeding roller is higher than the upper surface of retainer plate, first plate can unhinderedly move to above first box frame, until this plate front end touches corresponding striker plate, first plate can stop motion, now, lift cylinder drives monolateral side plate to move upward, and framework is tilted, and plate can slide to framework opposite side, thus make plate move integrally the bight of framework, realize the location of plate, then, the cylinder action of opposite side, plate is lifted, bender mechanical arm captures plate feeding numerical control bender and carries out Bending Processing, and bender mechanical arm for location initial point, can capture plate with the corresponding bight of framework more accurately.Oil cylinder when both sides all arrives upper limit position, now, first box frame enters and allows material operating mode, because the lower edge of retainer plate and striker plate is higher than the top edge of feeding roller, abdicate the feeding route of feeding roller, second plate can be passed smoothly below framework, next framework can be delivered to, when multiple stage numerical control bender processes plate simultaneously, successfully plate can be delivered to each bender mechanical arm position, feeding process is each other without interference, rapidly and efficiently feeding can be realized, the setting of striker plate and cylinder enables plate be initially positioned, provide conveniently for bender mechanical arm accurately captures plate.

For can ensure that the plate that feeding manipulator captures is one at every turn, described feeding manipulator lower end is provided with the sucker stand that can rotate along Z axis, in array, some suckers are installed below sucker stand, described sucker comprises fixing sucking disk and movable suction, and fixing sucking disk is connected on the downside of sucker stand through fixed bar; Described movable suction is at least provided with one one of sheet material jiao of place's correspondence, described movable suction is connected to swing arm lower end, correspondingly with swing arm on the downside of sucker stand be provided with contiguous block, contiguous block side is provided with oscillating cylinder, the piston rod external part of oscillating cylinder is connected with oscillating cylinder joint, is hinged in the middle part of swing arm through lower bearing pin and contiguous block, and swing arm top is provided with waist type groove, oscillating cylinder fitting end is provided with upper pin, and upper pin inserts in described waist type groove.During its work, pick up plate by fixing sucking disk and movable suction simultaneously, then drive swing arm to swing by oscillating cylinder, the bight of ordering about plate bends, form arch, the sheet metal bending of different layers is inconsistent, makes the plate be attached together produce Relative sliding, at crooked position, produce space between the two, air is entered between two-layer plate, thus realizes plate layering, make sucker only capture a plate at every turn.Plate can bend by the program by a larger margin, and what make thin plate produces larger bending and therefore cause thin plate stratification between layers.Swing arm is in swing process, and the linear velocity direction of movable suction constantly changes, and all has larger acceleration at the initial point swung and end point, facilitates plate layering, makes plate layered effect better.

For ensure plate can be better located, described CNC shearing machine, numerical control press are respectively equipped with two for clamping the align clamp that plate carries out processing, align clamp side is provided with the inductive switch for detecting plate marginal position; Sucker stand is connected with Z axis motor-driven, and inductive switch converts through control system the signal experienced to rotating signal and gives Z axis motor, and drive sucker stand to rotate around Z axis, the inductive switch making two align clamps corresponding all can detect plate.

For ensureing plate conveniently moving in framework, described retainer plate is provided with some retainer steel balls.Retainer steel ball can ensure that the motion of plate is reliable, weares and teares little.

On this production line, when the lift cylinder with waist-shaped hole side promotes one-sided framework rise, frame tilt angle degree is 5 ~ 10 °.This technical scheme further ensures the bight that plate can move to framework easily.

As further improvement of the utility model, described first crossbeam and bending crossbeam be arranged in parallel.When first crossbeam and bending crossbeam are arranged in parallel, facilitate blanking mechanical hand and plate is delivered in multistation conveying device, also facilitate the layout of bender simultaneously.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation.

Fig. 2 is the top view of Fig. 1.

Fig. 3 is first crossbeam structural representation.

Fig. 4 is the partial enlarged drawing of A in Fig. 3.

Fig. 5 is the perspective view of multistation conveying device.

Fig. 6 is for being frame structure schematic diagram.

Fig. 7 is the front view of multistation conveying device.

Fig. 8 is the structural representation after framework rises.

Fig. 9 is the left view of Fig. 8.

Using state figure when Figure 10 is one-sided framework rise.

Figure 11 is feeding manipulator lower end structure schematic diagram.

Figure 12 is the partial enlarged drawing of B in Figure 11.

Figure 13 is the fundamental diagram avoiding capturing multilayer plate.

Figure 14 align clamp fundamental diagram.

Wherein, 1 first crossbeam, 2 positioning tables, 3 raw material framves, 4 feeding manipulators, 5 CNC shearing machines, 6 numerical control presses, 7 cache shelf, 8 blanking mechanical hands, 9 multistation conveying devices, 901 cylinder saddles, 902 lift cylinders, 903 lift cylinder joints, 904 engaging lugs, 905 striker plates, 906 side plates, 907 retainer plates, 908 retainer steel balls, 909 gripper shoes, 910 bearing blocks, 911 sprocket wheels, 912 feeding rollers, 913 grooves, 914 waist-shaped holes, 915 bearing pins, 10 numerical control benders one, 11 bending crossbeams two, 12 bender mechanical arm two, 13 finished product framves two, 14 numerical control benders two, 15 bending crossbeams one, 16 bender mechanical arm one, 17 finished product framves one, 18 support columns, 19Y shaft movement mechanism, 20 guide rails, 21 tooth bars, 22 elevating mechanisms, 23Z spindle motor, 24Y spindle motor, 25 contiguous blocks, 26 oscillating cylinder joints, 27 oscillating cylinders, 28 sucker stands, 29 fixed bars, 30a fixing sucking disk, 30b movable suction, 31 lower bearing pins, 32 upper pins, 33 waist type grooves, 34 swing arms, 35 inductive switches, 36 align clamps, 37 plates.

Detailed description of the invention

As shown in the figure, for a kind of sheet metal machining production line, its structure mainly comprises the CNC shearing machine 5 set gradually along X axis, numerical control press 6, numerical control bender 1 and numerical control bender 2 14, the feed side of CNC shearing machine 5 is provided with raw material frame 3 and positioning table 2, first crossbeam 1 is provided with above CNC shearing machine 5 and numerical control press 6, first crossbeam 1 two ends stride across CNC shearing machine 5 and numerical control press 6, raw material frame 3 and positioning table 2 are separately positioned on the below of both sides, first crossbeam 1 front end, the front end of first crossbeam 1 is provided with can along the feeding manipulator 4 of first crossbeam 1 movement, the rear end of first crossbeam 1 is provided with can along the blanking mechanical hand 8 of first crossbeam 1 movement, feeding manipulator 4 and blanking mechanical hand 8 arrange on first crossbeam 1 through guide rail 20, be connected with servo motor transmission by tooth bar 21, servomotor can drive feeding manipulator 4, blanking mechanical hand 8 moves along first crossbeam, feeding manipulator 4, blanking mechanical hand 8 all and between first crossbeam 1 is provided with elevating mechanism 22, can plate be captured and do elevating movement, it is the Y-axis motion 19 of spatial vertical that feeding manipulator lower end is provided with the length direction of first crossbeam 1, Y-axis motion 19 can be driven to move along Y-axis by y-axis motor 24, the sucker stand that can rotate along Z axis is provided with on the downside of Y-axis motion 19.

The exit side being arranged on numerical control press 6 is provided with cache shelf 7, blanking mechanical hand 8 is corresponding with cache shelf 7, the rear side of cache shelf 7 is provided with multistation conveying device 9, above the top that first crossbeam 1 extends to multistation conveying device 9 or side, make blanking mechanical hand 8 can move to above multistation conveying device 9, plate is delivered in multistation conveying device 9, numerical control bender 1 and numerical control bender 2 14 points are located at the both sides of multistation conveying device 9, the opposite side of multistation conveying device 9 is corresponding with numerical control bender 1 is provided with bending crossbeam one, on bending crossbeam, one be provided with can along the bender mechanical arm one of bending crossbeam one movement, numerical control bender is provided with finished product frame one on one side, correspondingly, numerical control bender 2 14 correspondence is provided with bending crossbeam 2 11, bending crossbeam 2 11 is provided with can along the bender mechanical arm 2 12 of bending crossbeam two movement, numerical control bender 2 14 is other is provided with finished product frame 2 13.

In this device, plate multistation conveying device 9 comprises two gripper shoes 909 be arranged in parallel, some feeding rollers 912 be parallel to each other are provided with between two gripper shoes 909, feeding roller 912 two ends are arranged in bearing block 910 through bearing, bearing block 910 is fixedly mounted in corresponding gripper shoe 909, feeding roller 912 end is provided with drive sprocket 911, liftable framework is provided with on the upside of described gripper shoe 909, framework and bender mechanical arm one_to_one corresponding, described framework both sides are connected to lift cylinder 902, the cylinder block of lift cylinder 902 is fixed on gripper shoe 909 side through cylinder saddle 901, the piston rod external part of lift cylinder 902 is provided with lift cylinder joint 903, framework avris is provided with engaging lug 904, be hinged through bearing pin 915 between lift cylinder joint 903 and engaging lug 904, wherein, the lift cylinder joint 903 of side gripper shoe 909 correspondence is provided with waist-shaped hole 914 and is connected with described bearing pin 915, the lift cylinder joint 903 of opposite side gripper shoe 909 correspondence is provided with circular hole and described bearing pin 915 is connected, be connected through some retainer plates 907 between the downside that described framework comprises two blocks of side plates, 906, the two blocks of side plates 906 be parallel to each other, striker plate 905 is provided with between one end that position on two blocks of side plates 906 between adjacent retainer plate 907 is provided with groove 913, the two blocks of side plates 906 extended from bottom to top, when lift cylinder 902 drives side plate 906 to move downward lower limit position, retainer plate 907, through the gap feeding roller 912, makes feeding roller 912 be positioned at described groove 913, and the top edge of feeding roller 912 is higher than the upper surface of retainer plate 907, meanwhile, striker plate 905 blocks on the feeding route of feeding roller 912, when lift cylinder 902 drives side plate 906 to move upward to upper limit position, the lower edge of retainer plate 907 and striker plate 905, higher than the top edge of feeding roller 912, abdicates the feeding route of feeding roller 912.During its work, blanking mechanical hand 8 captures plate from cache shelf 7 and is placed on feeding roller 912 one by one, when feeding roller 912 rotates, plate moves along the length direction of gripper shoe 909, now, framework has two kinds of operating modes, the first is in be waited to expect operating mode, it two is allow material operating mode, treating under material operating mode, lift cylinder 902 drives side plate 906 to move downward lower limit position, because the top edge of feeding roller 912 is higher than the upper surface of retainer plate 907, first plate can unhinderedly move to above first box frame, until this plate front end touches corresponding striker plate 905, first plate can stop motion, now, lift cylinder 902 drives monolateral side plate 906 to move upward, and framework is tilted, and plate can slide to framework opposite side, thus make plate move integrally the bight of framework, realize the location of plate, then, the cylinder action of opposite side, plate is lifted, bender mechanical arm captures plate feeding numerical control bender and carries out Bending Processing, and bender mechanical arm for location initial point, can capture plate with the corresponding bight of framework more accurately.Oil cylinder when both sides all arrives upper limit position, now, first box frame enters and allows material operating mode, because the lower edge of retainer plate 907 and striker plate 905 is higher than the top edge of feeding roller 912, abdicate the feeding route of feeding roller 912, second plate can be passed smoothly below framework, next framework can be delivered to, when two or more numerical control benders processes plate simultaneously, efficiently plate can be delivered to each bender mechanical arm position smoothly, feeding process is each other without interference, rapidly and efficiently feeding can be realized, the setting of striker plate 905 and lift cylinder 902 enables plate be initially positioned, provide conveniently for bender mechanical arm accurately captures plate.

For can ensure that the plate 37 that feeding manipulator 4 captures is one at every turn, feeding manipulator 4 lower end is provided with the sucker stand 28 that can rotate along Z axis, in array, some suckers are installed below sucker stand 28, described sucker comprises fixing sucking disk 30a and movable suction 30b, and fixing sucking disk 30a is connected on the downside of sucker stand 28 through fixed bar 29; Described movable suction 30b is at least provided with one one of sheet material jiao of place's correspondence, described movable suction 30b is connected to swing arm 34 lower end, correspondingly with swing arm 34 on the downside of sucker stand 28 be provided with contiguous block 25, contiguous block 25 side is provided with oscillating cylinder 27, the piston rod external part of oscillating cylinder 27 is connected with oscillating cylinder joint 26, be hinged through lower bearing pin 31 and contiguous block 25 in the middle part of swing arm 34, swing arm 34 top is provided with waist type groove 33, oscillating cylinder joint 26 end is provided with upper pin 32, and upper pin 32 inserts in described waist type groove 33.During its work, pick up plate 37 by fixing sucking disk 30a and movable suction 30b simultaneously, then drive swing arm 34 to swing by oscillating cylinder 27, the bight of ordering about plate 37 bends, form arch, the sheet metal bending of different layers is inconsistent, makes the plate 37 be attached together produce Relative sliding, at crooked position, produce space between the two, air is entered between two-layer plate 37, thus realizes plate layering, make sucker only capture a plate at every turn.Plate 37 can bend by the program by a larger margin, and what make thin plate produces larger bending and therefore cause thin plate stratification between layers.Swing arm 34 is in swing process, and the linear velocity direction of movable suction 30b constantly changes, and all has larger acceleration at the initial point swung and end point, facilitates plate layering, makes plate layered effect better.

For ensure plate 37 can be better located, CNC shearing machine 5, numerical control press 6 are respectively equipped with two for clamping the align clamp 36 that plate 37 carries out processing, align clamp 36 side is provided with the inductive switch 35 for detecting plate 37 marginal position; Sucker stand 28 is connected with Z axis motor-driven, inductive switch 35 converts through control system the signal experienced to rotating signal and gives Z axis motor, drive sucker stand 28 to rotate around Z axis, make the inductive switch 35 of two align clamp 36 correspondences all can detect plate 37.

For ensureing plate 37 conveniently moving in framework, described retainer plate 907 is provided with some retainer steel balls 908.Retainer steel ball 908 can ensure that the motion of plate 37 is reliable, weares and teares little.

On this production line, when the lift cylinder 902 with waist-shaped hole 914 side promotes one-sided framework rise, frame tilt angle degree is 5 ~ 10 °.This technical scheme further ensures the bight that plate 37 can move to framework easily.

During the work of this device, plate 37 is captured by feeding manipulator 4, deliver on positioning table 2 and locate, after completing location, plate 37 is delivered to CNC shearing machine 5 by feeding manipulator 4, carry out shearing trim process, after completing the deburring of sheet material shear, feeding manipulator 4 draws plate 37 again, deliver to numerical control press 6, carry out punch press process, after processing, pressing sheet material captures and is placed in cache shelf 7 by blanking mechanical hand 8, being taken out by plate 37 is when needed placed in multistation conveying device 9, plate 37 is delivered to each multistation of numerical control bender by multistation conveying device 9, by bender mechanical arm 1 and bender mechanical arm 2 12 feeding, send in numerical control bender 1 and numerical control bender 2 14 and carry out Bending Processing.After bending completes, bending finished product is placed on finished product frame 1 and finished product frame 2 13 by bender mechanical arm 1 and bender mechanical arm 2 12, and what complete plate cuts the process washed off.

In this device, first crossbeam 1, bending crossbeam 1 and bending crossbeam 2 11 be arranged in parallel.When first crossbeam 1, bending crossbeam 1 and bending crossbeam 2 11 are arranged in parallel, facilitate blanking mechanical hand 8 and plate 37 is delivered in multistation conveying device 9, also facilitate the layout of numerical control bender 1 and numerical control bender 2 14 simultaneously.

The utility model is not limited to above-described embodiment; on the basis of technical scheme disclosed in the utility model; those skilled in the art is according to disclosed technology contents; do not need performing creative labour just can make some to some technical characteristics wherein to replace and distortion, these are replaced and are out of shape all in protection domain of the present utility model.

Claims (7)

1. a sheet metal machining production line, comprise the CNC shearing machine set gradually, numerical control press and at least two numerical control benders, the feed side of described CNC shearing machine is provided with raw material frame and positioning table, it is characterized in that: above CNC shearing machine and numerical control press, be provided with first crossbeam, first crossbeam two ends stride across CNC shearing machine and numerical control press, raw material frame and positioning table are separately positioned on the below of both sides, first crossbeam front end, the front end of first crossbeam is provided with can along the feeding manipulator of first crossbeam movement, the rear end of first crossbeam is provided with can along the blanking mechanical hand of first crossbeam movement, the exit side of numerical control press is provided with cache shelf, described blanking mechanical hand is corresponding with cache shelf, the rear side of cache shelf is provided with multistation conveying device, above the top that first crossbeam extends to multistation conveying device or side, make blanking mechanical hand can move to above multistation conveying device, numerical control bender divides and is located at multistation conveying device both sides, the opposite side of multistation conveying device is corresponding with numerical control bender is provided with bending crossbeam, bending crossbeam is provided with can along the bender mechanical arm of bending cross beam movement, numerical control bender is other is provided with finished product frame.

2. a kind of sheet metal machining production line according to claim 1, it is characterized in that: described multistation conveying device comprises two gripper shoes be arranged in parallel, some feeding rollers be parallel to each other are provided with between two gripper shoes, feeding roller two ends are arranged in bearing block through bearing, bearing block is fixedly mounted in corresponding gripper shoe, feeding roller end is provided with drive sprocket, liftable framework is provided with on the upside of described gripper shoe, framework and bender mechanical arm one_to_one corresponding, described framework both sides are connected to lift cylinder, the cylinder block of lift cylinder is fixed on gripper shoe side, the piston rod external part of lift cylinder is provided with lift cylinder joint, framework avris is provided with engaging lug, be hinged through bearing pin between lift cylinder joint and engaging lug, wherein, lift cylinder joint corresponding to side gripper shoe is provided with waist-shaped hole and is connected with described bearing pin, lift cylinder joint corresponding to opposite side gripper shoe is provided with circular hole and described bearing pin is connected, described framework comprises the two blocks of side plates be parallel to each other, and is connected between the downside of two blocks of side plates through some retainer plates, position on two blocks of side plates between adjacent retainer plate is provided with the groove extended from bottom to top, is provided with striker plate between one end of two blocks of side plates, when lift cylinder drives side plate to move downward lower limit position, retainer plate, through the gap feeding roller, makes feeding roller be positioned at described groove, and the top edge of feeding roller is higher than the upper surface of retainer plate, meanwhile, striker plate blocks on the feeding route of feeding roller, when lift cylinder drives side plate to move upward to upper limit position, the lower edge of retainer plate and striker plate, higher than the top edge of feeding roller, abdicates the feeding route of feeding roller.

3. a kind of sheet metal machining production line according to claim 2, it is characterized in that: described feeding manipulator lower end is provided with the sucker stand that can rotate along Z axis, in array, some suckers are installed below sucker stand, described sucker comprises fixing sucking disk and movable suction, and fixing sucking disk is connected on the downside of sucker stand through fixed bar; Described movable suction is at least provided with one one of sheet material jiao of place's correspondence, described movable suction is connected to swing arm lower end, correspondingly with swing arm on the downside of sucker stand be provided with contiguous block, contiguous block side is provided with oscillating cylinder, the piston rod external part of oscillating cylinder is connected with oscillating cylinder joint, is hinged in the middle part of swing arm through lower bearing pin and contiguous block, and swing arm top is provided with waist type groove, oscillating cylinder fitting end is provided with upper pin, and upper pin inserts in described waist type groove.

4. a kind of sheet metal machining production line according to claim 3, it is characterized in that: described CNC shearing machine, numerical control press are respectively equipped with two for clamping the align clamp that plate carries out processing, align clamp side is provided with the inductive switch for detecting plate marginal position; Sucker stand is connected with Z axis motor-driven, and inductive switch converts through control system the signal experienced to rotating signal and gives Z axis motor, and drive sucker stand to rotate around Z axis, the inductive switch making two align clamps corresponding all can detect plate.

5. a kind of sheet metal machining production line according to claim 2-4 any one, is characterized in that: described retainer plate is provided with some retainer steel balls.

6. a kind of sheet metal machining production line according to claim 1-4 any one, is characterized in that: when the lift cylinder with waist-shaped hole side promotes one-sided framework rise, frame tilt angle degree is 5 ~ 10 °.

7. a kind of sheet metal machining production line according to claim 1-4 any one, is characterized in that: described first crossbeam and bending crossbeam be arranged in parallel.