CN109807215B - Stamping equipment for panoramic sunroof beam die - Google Patents

Abstract

The invention aims to provide stamping equipment for a panoramic sunroof crossbeam die. The technical scheme of the invention is as follows: comprises a lower die body, an upper die body, a material pressing core, a single air passage system, a material supporting frame and a stamping device, wherein the material pressing core is formed by matching the upper die and the lower die to ensure that the output of the skylight cross beam of the automobile is more accurate, the single air passage system is used for controlling the stamping device, the environment is more protected, the control of the stamping device is smoother, further improving the punching pressure degree and the punching speed so as to improve the processing quality, the whole mechanism has complex structure and simple and convenient operation, the punching positioning track on the punching device adopts the gear type vertical positioning device and can drive the upper die body to move up and down, the lifting movement according to the walking track is more standard, and the function of accurate positioning is achieved, and the upper die and the lower die are matched into a molding die core to ensure that the output of the skylight cross beam of the automobile is more accurate, the finished product has higher shape-beautifying degree, is convenient for inputting processing raw materials and outputting finished products, and improves the working efficiency.

Description

Stamping equipment for panoramic sunroof beam die

Technical Field

The invention relates to the field of production and processing of automobile parts, in particular to stamping equipment for a panoramic sunroof beam die.

Background

With the improvement of living standard, automobiles become indispensable vehicles in people's lives. People also put forward higher requirements on the comfort of automobile driving while pursuing aesthetic feeling, automobile skylights are installed on the roofs of many commercial SUVs and cars, the automobile skylights can effectively enable air in the automobile to circulate, fresh air is increased to enter, healthy and comfortable enjoyment is brought to automobile owners, meanwhile, the automobile skylights can also widen the visual field, and people in the automobile feel more comfortable. Even if present car is panorama skylight, but generally all can the design have the crossbeam, and the crossbeam on the car generally is lighttight structure, so can influence the visual effect of top to the crossbeam design is small, can influence the rigidity of vehicle again, and does not design some sound absorbing material in the place of crossbeam and automobile body contact, in case when car form road conditions is relatively poor, sends the abnormal sound easily, has influenced the driving enjoyment. This makes in panorama skylight crossbeam production manufacturing process, needs to put higher requirement on mould and course of working.

At present, the panoramic sunroof beam production equipment is mainly completed by a stamping machine tool, and the stamping machine tool is provided with a set of independent dies to adapt to batch production when a sunroof beam of a certain model is produced. Firstly, in the stamping process, the stamping forces generated in different stamping processes have slight differences, so that the heights and the thicknesses of the produced cross beams are not completely the same, and if the cross beam with larger error is installed, the problem that the cross beam is not matched with other accessories occurs; in addition, the form of the die is fixed, the radian, the length and the hardness of the cross beam are set, if the cross beam for producing other types of skylights needs to be replaced with the die and debugged again, the operation is very troublesome, a punching machine tool does not have accurate positioning control and output, and the important reason that the product quality is not over is also the reason, and the cost from the punching machine tool to different sets of dies is very high, so the production cost of the skylight cross beam is increased, and the product competitiveness is reduced; how to solve the problems is to make the production of the panoramic sunroof beam smoother, more efficient and more accurate, and to improve the working environment, which is the problem to be improved and solved.

Disclosure of Invention

The invention aims to provide a panoramic sunroof beam die and a matched stamping device thereof, wherein the stamping device is controlled by a single gas circuit system, so that the stamping strength is increased, the stamping speed is increased, the processing quality is improved, the upper die and the lower die are matched with a forming die core to enable the output of a panoramic sunroof beam of an automobile to be more accurate, the shape-beautifying degree of a finished product is higher, the input of processing raw materials and the output of the finished product are facilitated, and the working efficiency is improved.

The technical scheme of the invention is as follows: the utility model provides a stamping equipment for panorama skylight crossbeam mould which characterized in that: comprises a lower die body, an upper die body, a material pressing core, a single gas path system, a material supporting frame and a stamping device, the lower die body, the upper die body and the material pressing core are all positioned in the stamping device, the lower die body and the upper die body are fixedly connected with the stamping device, the lower die body is positioned at the lower part of the upper die body, the lower die body is movably connected with the upper die body, the material pressing core is positioned in the lower die body and is fixedly connected with the lower die body, the material supporting frame is positioned at one side of the stamping device and is fixedly connected with the stamping device, the single gas path system is positioned at the outer side of the stamping device and is fixedly connected with the stamping device, the single air path system is used for controlling the stamping device, so that the stamping device is operated more smoothly, and the stamping pressure degree and the stamping speed are improved; the lower die body is also provided with four lower die lifting rods, two lower die first trimming inserts, two lower die second trimming inserts, two lower die third trimming inserts, two scrap cutters, six material sliding plates, two waste material boxes, two material sliding frame bottom plates, four independent guide pillar and guide sleeve assemblies, four positioning plates and two gaskets, every two lower die lifting rods are respectively positioned on two sides of the lower die body in parallel, any lower die lifting rod is fixedly connected with the lower die body, the two lower die first trimming inserts are horizontally spliced and fixed and are positioned on the upper part of the lower die body, the two lower die first trimming inserts are fixedly connected with the lower die body, the two lower die second trimming inserts are respectively positioned on two sides of the spliced two lower die first trimming inserts, and the two lower die second trimming inserts are fixedly connected with the spliced two lower die first trimming inserts, the two lower die third trimming inserts are positioned on two sides of the spliced two lower die first trimming inserts and two fixed lower die second trimming inserts, the two lower die third trimming inserts are fixedly connected with the lower die second trimming inserts on two sides of the spliced two lower die first trimming inserts, the two waste material knives are respectively positioned on one sides of the spliced and fixed lower die first trimming inserts, the lower die second trimming inserts and the lower die third trimming inserts, the two waste material knives are fixedly connected with the lower die body, the six sliding material plates are positioned on the lower parts of the spliced and fixed lower die first trimming inserts, the two lower die second trimming inserts and the two lower die third trimming inserts, the six sliding material plates are fixedly connected with the lower die body in a splicing mode, and the two waste material boxes are respectively positioned on the lower parts of the waste material knives corresponding to the six sliding material plates, the two waste material boxes are fixedly connected with the lower die body, the two sliding frame bottom plates are parallelly arranged at the lower parts of the two spliced and fixed lower die first trimming inserts, the two lower die second trimming inserts and the two lower die third trimming inserts, one end of any sliding frame bottom plate is fixedly connected with the two spliced and fixed lower die first trimming inserts, the two lower die second trimming inserts and the two lower die third trimming inserts, the other end of the sliding frame bottom plate penetrates through six sliding plates which are spliced and fixed to be fixedly connected with the lower die body, a stroke limiting block is further arranged on any independent guide pillar and guide sleeve assembly, the stroke limiting block is arranged in the middle of the independent guide pillar and guide sleeve assembly and fixedly connected with the independent guide pillar and guide sleeve assembly, and every two positioning plates are arranged at the inner side position of the upper part of each sliding frame bottom plate in a group, any positioning plate is fixedly connected with a bottom plate of the sliding frame, the gaskets are fixedly connected with the bottom plate of the sliding frame, the two gaskets are made of polyurethane, so that the impact force caused by die assembly stamping can be effectively reduced, the stamping strength can be relieved and dispersed, a sleeve of the sliding frame, a stand column clamping plate and a circular tube of the sliding frame are further arranged on any bottom plate of the sliding frame, the sleeve of the sliding frame is positioned on one side of the bottom plate of the sliding frame, the sleeve of the sliding frame is fixedly connected with the bottom plate of the sliding frame, the stand column of the sliding frame is positioned in the middle of the bottom plate of the sliding frame, the stand column of the sliding frame penetrates through the bottom plate of the sliding frame and is fixedly connected with the lower die body, the stand column clamping plate is positioned on one side of the stand column of the sliding frame, the stand column is fixedly connected with the bottom plate of the sliding frame, the circular tube of, each two independent guide pillar and guide sleeve assemblies are positioned on the upper part of the lower die body in parallel, and are fixedly connected with the lower die body; the material pressing core is further provided with four material pressing first guide plates, two material pressing second guide plates and a plurality of spring positioning pins, every two groups of the four material pressing first guide plates are respectively located on two sides of the material pressing core in parallel, the four material pressing first guide plates are fixedly connected with the material pressing core, the two material pressing second guide plates are respectively located on two sides of the material pressing core, the two material pressing second guide plates are fixedly connected with the material pressing core, the spring positioning pins are located on the upper portion of the material pressing core, and the spring positioning pins are fixedly connected with the material pressing core.

Furthermore, the upper die body is also provided with four upper die lifting rods, two first inserts, two second inserts, two third inserts, two fourth inserts, two fifth inserts, four side pins and a plurality of springs, every two groups of the four upper die lifting rods are respectively positioned on two sides of the upper die body in parallel, any upper die lifting rod is fixedly connected with the upper die body, the two first inserts, the two second inserts, the two third inserts, the two fourth inserts and the two fifth inserts are distributed on the upper part of the upper die body in a symmetrical mode, the two first inserts, the two second inserts, the two third inserts, the two fourth inserts and the two fifth inserts are fixedly connected with the upper die body, every two groups of the four side pins are respectively positioned in parallel in the middle of the upper die body, and any side pin is fixedly connected with the upper die body, the spring is located in the middle of the upper die body, and the spring is fixedly connected with the upper die body.

Further, the shapes of the two first inserts, the two second inserts, the two third inserts, the two fourth inserts and the two fifth inserts after being spliced are mutually aligned with the shapes of the two lower die first trimming inserts, the two lower die second trimming inserts and the two lower die third trimming inserts in the middle of the lower die body after being spliced and fixed.

Further, the number of the spring positioning pins is the same as the number of the springs, and the positions of the spring positioning pins correspond to the positions of the springs.

Furthermore, the single gas path system is also provided with two elbows, a plurality of gas pipes, two air flow valves and two sheet irons, the two elbows are simultaneously positioned on one side of the stamping device and are fixedly connected with the stamping device according to the vertical distribution, one ends of the plurality of gas pipes are fixedly connected with the respective elbows, the other ends of the plurality of gas pipes are fixedly connected with the respective air flow valves, the two air flow valves are positioned on one side of the sheet irons, the two air flow valves are both fixedly connected with the sheet irons, the sheet irons are sheet irons containing two screws, any air flow valve is also provided with a joint, the joint is positioned between the air flow valves and the sheet irons, one end of the joint is fixedly connected with the air flow valves, the other end of the joint is fixedly connected with the screws in the sheet irons, the sheet irons are also provided with two quick joints, and the two quick joints are all positioned inside the sheet irons, two quick-operation joint all are fixed connection with inside respective screw of plate iron, and then have strengthened the stability and the normal use of air current in a plurality of trachea, and many tracheas also can use of mutually supporting, be convenient for arrangement and later maintenance.

Further, the material supporting frame is also provided with a material supporting frame reinforcing rib, two material supporting frame connecting plates, two material supporting frame bottom frames, two material supporting frame fixing plates, a turnover shaft, a crank arm connector, a double-elbow connector and an air cylinder, the material supporting frame reinforcing rib is positioned in the middle of the material supporting frame, the material supporting frame reinforcing rib is fixedly connected with the material supporting frame, the two material supporting frame connecting plates are parallelly positioned on one side of the upper part of the material supporting frame, the two material supporting frame connecting plates are fixedly connected with the material supporting frame, the two material supporting frame bottom frames are respectively positioned on one side of the two material supporting frame connecting plates, the two material supporting frame fixing plates are respectively fixedly connected with the corresponding material supporting frame bottom frames, the turnover shaft is positioned in the middle of the top ends of the material supporting frames, the turnover shaft is also provided with two rotating shaft supports which are respectively positioned at two ends of the turnover shaft, any rotating shaft support is fixedly connected with the turnover shaft and used for playing a role of balance when the material supporting frame is turned over so as to prevent the material supporting frame from tilting during turning, the crank arm connector is positioned at one side of two material supporting frame fixing plates and is fixedly connected with the two material supporting frame fixing plates, the two material supporting frame connecting plates, the two material supporting underframe and the two material supporting frame fixing plates are mutually matched to firmly support the material supporting frame, the double-elbow joint is positioned at one side of the crank arm connector, the double-elbow joint is movably connected with the crank arm connector, the double-elbow joint is a Y-shaped double-elbow joint, the distance between the whole material supporting frame and the punching device can be adjusted, and an operator can automatically adjust a gap between the material supporting frame and the punching device according to the size of an output punched finished product, let punching press finished product can export smoothly and pile up, and is nimble changeable, the cylinder is located the lower part that the double-elbow connects, the cylinder connects for fixed connection with the double-elbow, still be equipped with cylinder installation foot seat, cylinder mounting flange and cylinder layer board on the cylinder, the cylinder installation foot seat is located the lower part of cylinder, cylinder installation foot seat is fixed connection with the cylinder, cylinder mounting flange is located the lower part of cylinder installation foot seat, cylinder mounting flange is swing joint with cylinder installation foot seat, the cylinder layer board is located one side of cylinder mounting flange, the one end and the cylinder mounting flange of cylinder layer board are fixed connection, the other end and the stamping device of cylinder layer board are fixed connection.

Furthermore, the stamping device is also provided with a stamping positioning track, an electric controller, an operation box and a waste material collecting container, one side of the stamping positioning track is fixedly connected with the stamping device, the other side of the stamping positioning track is fixedly connected with the upper die body, the electric controller is positioned at one side of the stamping device, the electric controller is fixedly connected with the stamping device, the operation box is positioned at the other side of the stamping device, the operation box is fixedly connected with the stamping device, the waste material collecting container is positioned at the lower part of the lower die body and positioned inside the stamping device, the waste material collecting container is movably connected with the stamping device, the stamping positioning track is a gear type vertical positioning device and plays a role in accurate positioning, the waste material collecting container is a pull-out stainless steel groove and can centralize and arrange waste materials in the waste material box, meanwhile, the cleaning in the later period is facilitated.

The invention has the beneficial effects that: the whole mechanism is complex in structure and easy and convenient to operate, the material pressing core is formed by matching the upper die and the lower die, so that the output of the skylight beam of the automobile is more accurate, the single air channel system is used for controlling the stamping device, the control of the stamping device is smoother, the stamping pressure degree and the stamping speed are further improved, and an elbow, an air pipe and an air flow valve which are arranged in the single air channel system can be matched with each other for use, so that the control of the stamping device is smoother, the stamping pressure degree and the stamping speed are further improved, and meanwhile, the arrangement and later maintenance are also facilitated; in addition, when the lower die body and the upper die body are assembled, the waste material cutters on two sides can cut the edge position of the stamping part while the stamping part is formed, so that a finished product after stamping forming is more attractive, the two waste material boxes are used for collecting the cut waste materials, the gasket is made of polyurethane, so that the impact force caused by the die assembling stamping can be effectively reduced, the stamping strength is relieved and dispersed, after stamping forming, each set of sliding frame sleeve, the sliding frame upright post and the upright post clamping plate are matched for use, the stamping part after stamping processing is output from the die on the material pressing core, the number of the spring positioning pins on the lower die body is the same as that of the springs in the middle of the upper die body, and the positions of the spring positioning pins correspond to those of the springs, so that the upper die body and the lower die body are elastically separated by the acting force and the reaction force, the rotary shaft supports at two ends of the material supporting frame are used for playing a balance role, when the number of the stamping forming parts is increased to enable the material supporting frame to lift and turn over, the material supporting frame can be prevented from tilting during turning over, the Y-shaped double-elbow joint is adopted as the double-elbow joint, the distance between the whole material supporting frame and the stamping device can be adjusted, an operator can automatically adjust a gap between the material supporting frame and the stamping device according to the size of the output stamping finished product, so that the stamping finished products can be smoothly output and accumulated, the stamping positioning track on the stamping device adopts a gear type vertical positioning device to play a role in accurate positioning, the waste material collecting container adopts a pull type stainless steel groove, and the waste materials in the waste material box can be intensively collected and placed, meanwhile, the cleaning in the later period is facilitated; whole mechanism has promoted stamping speed to improve processingquality, and adopt the upper and lower mould to cooperate the forming die core to make the output of the panoramic sunroof crossbeam of car more accurate, make off-the-shelf beautiful type degree higher, the input and the off-the-shelf output of the processing raw materials of being convenient for, environmental protection more has improved work efficiency's panoramic sunroof crossbeam mould and supporting stamping equipment.

Drawings

Fig. 1 is a front view of the present invention.

FIG. 2 is a schematic structural view of a lower die body according to the present invention.

Fig. 3 is a schematic structural view of an upper die body according to the present invention.

Fig. 4 is a schematic structural view of the swaging core of the present invention.

FIG. 5 is a schematic diagram of a single gas circuit system according to the present invention.

Fig. 6 is a schematic side view of the material holder according to the present invention.

Fig. 7 is a schematic view of the front structure of the material holder of the present invention.

Wherein: 1. lower die body 2, lower die hoisting rod 3 and first trimming insert of lower die

4. A lower die second trimming insert 5, a lower die third trimming insert 6 and a scrap cutter

7. Sliding plate 8, waste box 9 and sliding frame bottom plate

10. Sliding frame sleeve 11, sliding frame upright post 12 and upright post clamping plate

13. A sliding frame round pipe 14, an independent guide pillar and guide sleeve assembly 15 and a stroke limiting block

16. Positioning plate 18, spacer

19. Upper die body 20, upper die lifting rod 21 and first insert

22. Second insert 23, third insert 24, fourth insert

25. Fifth insert 26, side pin 27, spring

28. The material pressing core 29, the first material pressing guide plate 30 and the second material pressing guide plate

31. Spring positioning pin 32, single air passage system 33 and elbow

34. Air pipe 35, airflow valve 36 and joint

37. Sheet iron 38, quick joint 39 and double-elbow joint

40. Cylinder 41, cylinder mounting foot stool 42 and cylinder mounting flange

43. Material supporting frame 44, material supporting frame reinforcing rib 45 and material supporting frame connecting plate

46. Material supporting underframe 47, material supporting frame fixing plate 48 and overturning shaft

49. Rotating shaft support 50, crank arm connector 51, and cylinder support plate

52. Punching device 53, punching positioning rail 54 and electric controller

55. Operation box 56 and waste collecting container

Detailed Description

The following provides a brief description of embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7, the stamping device for the panoramic sunroof beam die is characterized in that: the stamping die comprises a lower die body 1, an upper die body 19, a material pressing core 28, a single air path system 32, a material supporting frame 43 and a stamping device 52, wherein the lower die body 1, the upper die body 19 and the material pressing core 28 are all located inside the stamping device 52, the lower die body 1 and the upper die body 19 are fixedly connected with the stamping device 52, the lower die body 1 is located at the lower part of the upper die body 19, the lower die body 1 and the upper die body 19 are movably connected, the material pressing core 28 is located inside the lower die body 1, the material pressing core 28 is fixedly connected with the lower die body 1, the material supporting frame 43 is located at one side of the stamping device 52, the material supporting frame 43 is fixedly connected with the stamping device 52, the single air path system 32 is located at the outer side of the stamping device 52, the single air path system 32 is fixedly connected with the stamping device 52, and the lower die body 1 is further provided with four lower die lifting rods 2, Two lower die first trimming inserts 3, two lower die second trimming inserts 4, two lower die third trimming inserts 5, two scrap cutters 6, six material sliding plates 7, two waste material boxes 8, two material sliding frame bottom plates 9, four independent guide pillar and guide sleeve assemblies 14, four positioning plates 16 and two gaskets 18, wherein every two lower die lifting rods 2 are respectively positioned on two sides of a lower die body 1 in parallel, any lower die lifting rod 2 is fixedly connected with the lower die body 1, the two lower die first trimming inserts 3 are horizontally spliced and fixed and are positioned on the upper part of the lower die body 1, the two lower die first trimming inserts 3 are fixedly connected with the lower die body 1, the two lower die second trimming inserts 4 are respectively positioned on two sides of the spliced two lower die first trimming inserts 3, and the two lower die second trimming inserts 4 are fixedly connected with the spliced two lower die first trimming inserts 3, the two lower die third trimming inserts 5 are positioned at two sides of the spliced two lower die first trimming inserts 3 and the fixed two lower die second trimming inserts 4, the two lower die third trimming inserts 5 are both fixedly connected with the lower die second trimming inserts 4 at two sides of the spliced two lower die first trimming inserts 3, the two waste knives 6 are respectively positioned at one side of each spliced and fixed lower die first trimming insert 3, each spliced and fixed lower die second trimming insert 4 and each spliced and fixed lower die third trimming insert 5, the two waste knives 6 are both fixedly connected with the lower die body 1, the six sliding plates 7 are positioned at the lower parts of the spliced and fixed two lower die first trimming inserts 3, the two lower die second trimming inserts 4 and the two lower die third trimming inserts 5, the six sliding plates 7 are all fixedly connected with the lower die body 1 in a splicing manner, and the two waste material boxes 8 are respectively positioned at the lower parts of the respective corresponding waste knives 6, the two waste material boxes 8 are fixedly connected with the lower die body 1, the two sliding rack base plates 9 are parallelly arranged at the lower parts of the two spliced and fixed lower die first trimming inserts 3, the two lower die second trimming inserts 4 and the two lower die third trimming inserts 5, one end of any sliding rack base plate 9 is fixedly connected with the two spliced and fixed lower die first trimming inserts 3, the two lower die second trimming inserts 4 and the two lower die third trimming inserts 5, the other end of the sliding rack base plate 9 penetrates through six sliding plates 7 which are spliced and fixed to be fixedly connected with the lower die body 1, a sliding rack sleeve 10, a sliding rack upright post 11, an upright post clamping plate 12 and a sliding rack circular tube 13 are further arranged on any sliding rack base plate 9, the sliding rack sleeve 10 is arranged at one side of the sliding rack base plate 9, and the sliding rack sleeve 10 is fixedly connected with the sliding rack base plate 9, the guide post and guide sleeve structure is characterized in that a sliding frame upright post 11 is positioned in the middle of a sliding frame bottom plate 9, the sliding frame upright post 11 penetrates through the sliding frame bottom plate 9 to be fixedly connected with a lower die body 1, an upright post clamping plate 12 is positioned on one side of the sliding frame upright post 11, the upright post clamping plate 12 is fixedly connected with the sliding frame bottom plate 9, a sliding frame round tube 13 is positioned at the lower part of a sliding frame sleeve 10, one end of the sliding frame round tube 13 penetrates through the sliding frame bottom plate 9 to be fixedly connected with the sliding frame upright post 11 inside the sliding frame round tube, every two independent guide post and guide sleeve assemblies 14 are positioned at the upper part of the lower die body 1 in parallel, the four independent guide post and guide sleeve assemblies 14 are all fixedly connected with the lower die body 1, a stroke limiting block 15 is further arranged on any independent guide post and guide sleeve assembly 14, the stroke limiting block 15 is positioned in the, two of the four positioning plates 16 are located at the inner side of the upper part of each sliding frame bottom plate 9, any positioning plate 16 is fixedly connected with the sliding frame bottom plate 9, the gasket 18 is fixedly connected with the sliding frame bottom plate 9, the two gaskets 18 are made of polyurethane, the upper die body 19 is further provided with four upper die lifting rods 20, two first inserts 21, two second inserts 22, two third inserts 23, two fourth inserts 24, two fifth inserts 25, four side pins 26 and a plurality of springs 27, two of the four upper die lifting rods 20 are respectively located on two sides of the upper die body 19 in parallel, any upper die lifting rod 20 is fixedly connected with the upper die body 19, the two first inserts 21, the two second inserts 22, the two third inserts 23, the two fourth inserts 24 and the two fifth inserts 25 are distributed on the upper part of the upper die body 19 in a symmetrical manner, the two first inserts 21, the two second inserts 22, the two third inserts 23, the two fourth inserts 24 and the two fifth inserts 25 are fixedly connected with the upper die body 19, every two groups of four side pins 26 are respectively and parallelly located in the middle of the upper die body 19, any side pin 26 is fixedly connected with the upper die body 19, any spring 27 is located in the middle of the upper die body 19, the spring 27 is fixedly connected with the upper die body 19, the shapes of the two first inserts 21, the two second inserts 22, the two third inserts 23, the two fourth inserts 24 and the two fifth inserts 25 after being spliced and fixed are mutually aligned with the shapes of the two lower die first inserts 3, the two lower die second trimming inserts 4 and the two lower die third trimming inserts 5 in the middle of the lower die body 1, and the four pressing first guide plates 29 are further arranged on the pressing core 28, Two second pressing guide plates 30 and a plurality of spring positioning pins 31, wherein every two first pressing guide plates 29 are respectively positioned on two sides of the pressing core 28 in parallel, every four first pressing guide plates 29 are fixedly connected with the pressing core 28, every two second pressing guide plates 30 are respectively positioned on two sides of the pressing core 28, every two second pressing guide plates 30 are fixedly connected with the pressing core 28, any spring positioning pin 31 is positioned on the upper part of the pressing core 28, every spring positioning pin 31 is fixedly connected with the pressing core 28, the number of the spring positioning pins 31 is the same as that of the springs 27, the positions of the spring positioning pins 31 correspond to those of the springs 27, the single air path system 32 is further provided with two elbows 33, a plurality of air pipes 34, two air flow valves 35 and two plate irons 37, the two elbows 33 are simultaneously positioned on one side of the stamping device 52, the air pipes are fixedly connected with a stamping device 52 according to the vertical distribution, one ends of the air pipes 34 are fixedly connected with respective elbows 33, the other ends of the air pipes 34 are fixedly connected with respective air flow valves 35, the two air flow valves 35 are positioned at one side of a sheet iron 37, the two air flow valves 35 are both fixedly connected with the sheet iron 37, the sheet iron 37 is a sheet iron containing two screws, a connector 36 is further arranged on any air flow valve 35, the connector 36 is positioned between the air flow valves 35 and the sheet iron 37, one end of the connector 36 is fixedly connected with the air flow valves 35, the other end of the connector 36 is fixedly connected with the screws in the sheet iron 37, the sheet iron 37 is further provided with two quick connectors 38, the two quick connectors 38 are all positioned in the sheet iron 37, the two quick connectors 38 are both fixedly connected with respective screws in the sheet iron 37, the material supporting frame 43 is further provided with a material supporting frame reinforcing rib 44, two material supporting frame connecting plates 45, two material supporting frame bottom frames 46, two material supporting frame fixing plates 47, a turning shaft 48, a crank arm connector 50, a double-elbow joint 39 and an air cylinder 40, the material supporting frame reinforcing rib 44 is positioned in the middle of the material supporting frame 43, the material supporting frame reinforcing rib 44 is fixedly connected with the material supporting frame 43, the two material supporting frame connecting plates 45 are positioned on one side of the upper part of the material supporting frame 43 in parallel, the two material supporting frame connecting plates 45 are both fixedly connected with the material supporting frame 43, the two material supporting frame 46 are respectively positioned on one side of the two material supporting frame connecting plates 45, the two material supporting frame bottom frames 46 are respectively and fixedly connected with the respective corresponding material supporting frame connecting plates 45, the two material supporting frame fixing plates 47 are positioned on one side of the two material supporting frame bottom frames 46, the two material supporting frame fixing plates, the turnover shaft 48 is located in the middle of the top end of the material supporting frame 43, the turnover shaft 48 penetrates through the material supporting frame 43 and is fixedly connected with the material supporting frame, two rotating shaft supports 49 are further arranged on the turnover shaft 48, the two rotating shaft supports 49 are respectively located at two ends of the turnover shaft 48, any rotating shaft support 49 is fixedly connected with the turnover shaft 48, the crank connector 50 is located on one side of two material supporting frame fixing plates 47, the crank connector 50 is fixedly connected with the two material supporting frame fixing plates 47, the double elbow connector 39 is located on one side of the crank connector 50, the double elbow connector 39 is movably connected with the crank connector 50, the double elbow connector 39 is a Y-shaped double elbow connector, the air cylinder 40 is located at the lower part of the double elbow connector 39, the air cylinder 40 is fixedly connected with the double elbow connector 39, and the air cylinder mounting foot 41, the air cylinder mounting flange 42 and the air cylinder supporting plate 51 are further arranged on the air cylinder 40, cylinder installation foot stool 41 is located the lower part of cylinder 40, cylinder installation foot stool 41 is fixed connection with cylinder 40, cylinder mounting flange 42 is located the lower part of cylinder installation foot stool 41, cylinder mounting flange 42 is swing joint with cylinder installation foot stool 41, cylinder layer board 51 is located one side of cylinder mounting flange 42, the one end of cylinder layer board 51 is fixed connection with cylinder mounting flange 42, the other end and the stamping device 52 of cylinder layer board 51 are fixed connection, still be equipped with punching press location track 53 on the stamping device 52, electric controller 54, operation box 55 and garbage collection container 56, punching press location track 53 is located between lower mould body 1 and the last mould body 19, one side and the stamping device 52 of punching press location track 53 are fixed connection, punching press location track 53's opposite side and last mould body 19 are fixed connection, the electric controller 54 is located on one side of the stamping device 52, the electric controller 54 is fixedly connected with the stamping device 52, the operation box 55 is located on the other side of the stamping device 52, the operation box 55 is fixedly connected with the stamping device 52, the waste material collection container 56 is located on the lower portion of the lower die body 1 and located inside the stamping device 52, the waste material collection container 56 is movably connected with the stamping device 52, the stamping positioning rail 53 is a gear type vertical positioning device, and the waste material collection container 56 is a drawing type stainless steel groove.

The working mode is as follows: the mechanism mainly comprises a lower die body 1, an upper die body 19, a material pressing core 28, a single air path system 32, a material supporting frame 43 and a stamping device 52, wherein the single air path system 32 is used for controlling the stamping device 52; firstly, the lower die body 1, the upper die body 19 and the material pressing core 28 are all arranged inside the stamping device 52, the lower die body 1 is arranged at the lower side position inside the stamping device 52, the upper die body 19 is arranged at the upper side position inside the stamping device 52, after the fixing is finished, the material pressing core 28 is arranged between the lower die body 1 and the upper die body 19, the material pressing core 28 is fixedly connected with the lower die body 1, and thus the integral installation before the stamping is finished.

Then, the operator opens the electrical controller 54 on one side of the stamping device 52 to make the whole single air path system 32 work, the single air path system 32 utilizes two elbows 33, a plurality of air pipes 34, two air flow valves 35 and two iron plates 37 to connect the stamping device 52 in series, wherein the iron plates 37 are iron plates with two screws, each air flow valve 35 is further provided with a connector 36, the connector 36 is positioned between the air flow valve 35 and the iron plate 37, one end of the connector 36 is fixedly connected with the air flow valve 35, the other end of the connector 36 is fixedly connected with the screws in the iron plates 37, and two quick connectors 38 are further arranged in the iron plates 37, the two quick connectors 38 are fixedly connected with respective screws in the iron plates 37, thereby enhancing the stability and normal use of the air flow in the plurality of air pipes 34, the plurality of air pipes 34 can be matched with each other for use, and the convenience of later maintenance can be facilitated, the operation of the stamping device 52 is smoother, the stamping pressure and the stamping speed are further improved, and the whole operation box 55 operates the stamping device 52 to complete the input, stamping and output operations of the to-be-stamped parts.

The lower die body 1 is also provided with four lower die lifting rods 2, two lower die first trimming inserts 3, two lower die second trimming inserts 4, two lower die third trimming inserts 5, two scrap cutters 6, six material sliding plates 7, two waste material boxes 8, two material sliding frame bottom plates 9, four independent guide post and guide sleeve assemblies 14, four positioning plates 16 and two gaskets 18, wherein every two lower die lifting rods 2 are respectively and parallelly positioned on two sides of the lower die body 1 for being fixedly connected with a punching device 52 and playing a role in supporting and positioning during punching, the two lower die first trimming inserts 3 are horizontally spliced and fixed, the two lower die second trimming inserts 4 are respectively positioned on two sides of the spliced two lower die first trimming inserts 3, and the like, the two lower die third trimming inserts 5 are positioned on two sides of the spliced two first trimming inserts 3 and the fixed two lower die second trimming inserts 4, so that the two lower die first trimming inserts 3, the two lower die second trimming inserts 4 and the two lower die third trimming inserts 5 form a whole, the structural form is convenient for assembling and disassembling, and is also convenient for adjusting different inserts in the stamping process, and the inserts are used for supporting the material pressing core 28; the stamping part to be processed is input from the spliced material sliding plate 7, when the stamping part to be processed enters the position of the material pressing core 28, an operator opens an operating button on the operating box 55 to enable the lower die body 1 and the upper die body 19 to be matched, in addition, one side of each lower die first trimming insert 3, one side of each lower die second trimming insert 4 and one side of each lower die third trimming insert 5 which are fixedly spliced are respectively provided with a waste material knife 6, when the lower die body 1 and the upper die body 19 are matched, the waste material knives 6 on two sides cut the edge position of the stamping part at the same time of the forming of the stamping part, so that the finished product after stamping forming is more beautiful, the two waste material boxes 8 are respectively positioned at the lower parts of the corresponding waste material knives 6 and used for collecting the cut waste materials, and the two lower die first trimming inserts 3, the two lower die second trimming inserts 4 and the two lower die third trimming inserts 5 which are spliced are supported by the two sliding bottom plates 9 to lift up the whole material sliding plate The left side and the right side of the body are used for fixing and clamping the spliced insert, in addition, four positioning plates 16 are also arranged at the inner side position of the upper part of each sliding frame bottom plate 9 in a group of two positioning plates, and are connected and fixed with the sliding frame bottom plates 9, so that the two sliding frame bottom plates 9 can firmly fix and support the spliced insert and the material pressing core 28, and the integrity and the stability of the material pressing core 28 inside the lower die body 1 are ensured after the lower die body is impacted by the upper die body 19; each independent guide post and guide sleeve component 14 is also provided with a stroke limiting block 15, each independent guide post and guide sleeve component 14 can be aligned with a hole on the upper die body 19 when the dies are pressed and closed, each limiting block 15 is a material pressing core 28 after the dies are closed, and the thickness of the stamping parts is unified under the limitation of the height of the limiting block 15, so that the processing quality is ensured; one side of the sliding frame bottom plate 9 is also provided with a gasket 18, and each gasket 18 is made of polyurethane, so that the impact force caused by die assembly stamping can be effectively reduced, the stamping strength can be relieved and dispersed, the positioning plate 16 is effectively protected, the fracture of the positioning plate is prevented, and the safety in the stamping operation is improved; besides, each sliding rack bottom plate 9 is provided with a sliding rack sleeve 10, a sliding rack upright post 11, an upright post clamping plate 12 and a sliding rack round pipe 13, the sliding rack sleeve 10 is positioned at one side of the sliding rack bottom plate 9 and is fixedly connected with the sliding rack bottom plate 9, the sliding rack upright post 11 penetrates through the middle part of the sliding rack bottom plate 9 and is fixedly connected with the lower die body 1, the upright post clamping plate 12 is positioned at one side of the sliding rack upright post 11 and is fixedly connected with the sliding rack bottom plate 9 and is used for supporting and fixing the sliding rack upright post 11 and the sliding rack bottom plate 9 in series, each set of sliding rack sleeve 10, sliding rack upright post 11 and upright post clamping plate 12 are used in a matching way and are used for assisting the demoulding output of the punched formed piece from the material pressing core 28, one end of the sliding rack round pipe 13 penetrates through the sliding rack bottom plate 9 and is fixedly connected with the sliding rack upright post 11 inside, the sliding rack round pipe 13 is, when the stamping forming part can not utilize each set of the sliding frame sleeve 10, the sliding frame upright post 11 and the upright post clamping plate 12 to bounce for output, the operator is required to utilize the manual operation sliding frame circular tube 13 to complete the output of the stamping forming part, and the operator only needs to manually rotate the sliding frame circular tube 13 to push the sliding frame sleeve 10 in the sliding frame bottom plate 9 so as to lift the stamping forming part.

The structure of the upper die body 19 is based on the lower die body 1 and the material pressing core 28, the upper die body 19 is also provided with four upper die lifting rods 20, every two upper die lifting rods 20 are respectively positioned on two sides of the upper die body 19 in parallel in one group and used for being fixed with the punching device 52, the supporting and positioning effects are realized during punching, and the corresponding position relationship of the four upper die lifting rods corresponds to the independent guide pillar and guide sleeve assembly 14, so that the die assembly stability is higher, and the accuracy is higher; in addition, the upper die body 19 is also provided with two first inserts 21, two second inserts 22, two third inserts 23, two fourth inserts 24, two fifth inserts 25, four side pins 26 and a plurality of springs 27, wherein, two first inserts 21, two second inserts 22, two third inserts 23, two fourth inserts 24 and two fifth inserts 25 are distributed on the upper part of the upper die body 19 in a symmetrical mode, the split shapes of the inserts of the upper die bodies 19 are mutually aligned with the split and fixed shapes of the two lower die first trimming inserts 3, the two lower die second trimming inserts 4 and the two lower die third trimming inserts 5 in the middle of the lower die body 1, the forming of the stamping and die assembly is more accurate, each two of the four side pins 26 are respectively positioned in the middle of the upper die body 19 in parallel and fixedly connected with the same, and each spring 27 is positioned in the middle of the upper die body 19 and fixedly connected with the same; the material pressing core 28 is further provided with four material pressing first guide plates 29, two material pressing second guide plates 30 and a plurality of spring positioning pins 31, the guide plates are used for being connected with the lower die body 1, the number of the spring positioning pins 31 is the same as that of the springs 27 in the middle of the upper die body 19, and the positions of the spring positioning pins correspond to those of the springs 27, so that the upper die body 19 and the lower die body 1 are elastically separated by utilizing acting force and reacting force after the punching and die assembly, the phenomenon that the die and a punched finished product are adhered due to overlarge force is prevented, and the purpose of effective output is achieved.

The punched and formed finished stamping product is output from the material sliding plate 7 on the other side of the material pressing core 28 and slides onto the material supporting frame 43, the material supporting frame 43 is further provided with a material supporting frame reinforcing rib 44, two material supporting frame connecting plates 45, two material supporting underframe 46, two material supporting frame fixing plates 47, a turnover shaft 48, a crank arm connector 50, a double-elbow joint 39 and an air cylinder 40, wherein the material supporting frame reinforcing rib 44 is positioned in the middle of the material supporting frame 43 and plays a role in supporting and fixing the material supporting frame 43 to prevent the material supporting frame 43 from deforming after being used for a long time, the two material supporting frame connecting plates 45 are positioned on one side of the upper part of the material supporting frame 43 in parallel, the two material supporting underframe 46 are respectively positioned on one side of the two material supporting frame connecting plates 45, the two material supporting underframe 46 are respectively and fixedly connected with the corresponding material supporting frame connecting plates 45, and the two material supporting frame fixing plates 47 are respectively and fixedly connected, the two material support frame connecting plates 45, the two material support underframe 46 and the two material support frame fixing plates 47 are mutually matched to firmly support the material support frame 43, the turnover shaft 48 is positioned in the middle of the top end of the material support frame 43, the material supporting frame 43 is fixed by an overturning shaft 48, and two ends of the overturning shaft 48 are respectively provided with a rotating shaft support 49, when the material supporting frame 43 overturns, used for balancing and preventing the material supporting frame 43 from tilting during overturning, the crank arm connector 50 is used for connecting two material supporting frame fixing plates 47 and the double-elbow joint 39, the double-elbow joint 39 is a Y-shaped double-elbow joint, the distance between the whole material supporting frame 43 and the punching device 52 can be adjusted, according to the size of the output stamping finished product, an operator can adjust the gap between the material supporting frame 43 and the stamping device 52 by himself, so that the stamping finished product can be output and stacked smoothly, flexibility and changeability are achieved, and the bearing capacity of part output is enhanced.

Besides, still be equipped with punching press location track 53 and garbage collection container 56 on stamping device 52, wherein, punching press location track 53 is located between lower mould body 1 and the last mould body 19, one side and stamping device 52 of this punching press location track 53 are fixed connection, and the opposite side is fixed connection with last mould body 19, this punching press location track 53 adopts gear formula vertical positioning device, can drive the reciprocating of going up mould body 19, this kind moves more standardly according to the lift of walking orbit, play the effect of accurate positioning, and garbage collection container 56 adopts pull formula stainless steel recess, it can concentrate the waste material in the waste material box 8 and put in order, the clearance of the later stage of also being convenient for simultaneously.

Whole mechanism structure is complicated, easy and simple to handle, adopt single gas circuit system to control stamping equipment, and then increased the punching press power degree, promoted stamping speed, in order to improve processingquality, and adopt upper and lower mould to join in marriage into the forming die core and make the output of the panoramic sunroof crossbeam of car more accurate, make off-the-shelf beautiful type degree higher, be convenient for process raw materials's input and off-the-shelf output, environmental protection more, the panoramic sunroof crossbeam mould that has improved work efficiency and supporting stamping equipment thereof.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", "end", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (7)

1. The utility model provides a stamping equipment for panorama skylight crossbeam mould which characterized in that: comprises a lower die body, an upper die body, a material pressing core, a single gas path system, a material supporting frame and a stamping device, the lower die body, the upper die body and the material pressing core are all positioned in the stamping device, the lower die body and the upper die body are fixedly connected with the stamping device, the lower die body is positioned at the lower part of the upper die body, the lower die body is movably connected with the upper die body, the material pressing core is positioned in the lower die body and is fixedly connected with the lower die body, the material supporting frame is positioned at one side of the stamping device and is fixedly connected with the stamping device, the single gas path system is positioned at the outer side of the stamping device and is fixedly connected with the stamping device, the single air path system is used for controlling the stamping device, so that the stamping device is operated more smoothly, and the stamping pressure degree and the stamping speed are improved; the lower die body is also provided with four lower die lifting rods, two lower die first trimming inserts, two lower die second trimming inserts, two lower die third trimming inserts, two scrap cutters, six material sliding plates, two waste material boxes, two material sliding frame bottom plates, four independent guide pillar and guide sleeve assemblies, four positioning plates and two gaskets, every two lower die lifting rods are respectively positioned on two sides of the lower die body in parallel, any lower die lifting rod is fixedly connected with the lower die body, the two lower die first trimming inserts are horizontally spliced and fixed and are positioned on the upper part of the lower die body, the two lower die first trimming inserts are fixedly connected with the lower die body, the two lower die second trimming inserts are respectively positioned on two sides of the spliced two lower die first trimming inserts, and the two lower die second trimming inserts are fixedly connected with the spliced two lower die first trimming inserts, the two lower die third trimming inserts are positioned on two sides of the spliced two lower die first trimming inserts and two fixed lower die second trimming inserts, the two lower die third trimming inserts are fixedly connected with the lower die second trimming inserts on two sides of the spliced two lower die first trimming inserts, the two waste material knives are respectively positioned on one sides of the spliced and fixed lower die first trimming inserts, the lower die second trimming inserts and the lower die third trimming inserts, the two waste material knives are fixedly connected with the lower die body, the six sliding material plates are positioned on the lower parts of the spliced and fixed lower die first trimming inserts, the two lower die second trimming inserts and the two lower die third trimming inserts, the six sliding material plates are fixedly connected with the lower die body in a splicing mode, and the two waste material boxes are respectively positioned on the lower parts of the waste material knives corresponding to the six sliding material plates, the two waste material boxes are fixedly connected with the lower die body, the two sliding frame bottom plates are parallelly arranged at the lower parts of the two spliced and fixed lower die first trimming inserts, the two lower die second trimming inserts and the two lower die third trimming inserts, one end of any sliding frame bottom plate is fixedly connected with the two spliced and fixed lower die first trimming inserts, the two lower die second trimming inserts and the two lower die third trimming inserts, the other end of the sliding frame bottom plate penetrates through six sliding plates which are spliced and fixed to be fixedly connected with the lower die body, a stroke limiting block is further arranged on any independent guide pillar and guide sleeve assembly, the stroke limiting block is arranged in the middle of the independent guide pillar and guide sleeve assembly and fixedly connected with the independent guide pillar and guide sleeve assembly, and every two positioning plates are arranged at the inner side position of the upper part of each sliding frame bottom plate in a group, any positioning plate is fixedly connected with a bottom plate of the sliding frame, the gaskets are fixedly connected with the bottom plate of the sliding frame, the two gaskets are made of polyurethane, so that the impact force caused by die assembly stamping can be effectively reduced, the stamping strength can be relieved and dispersed, a sleeve of the sliding frame, a stand column clamping plate and a circular tube of the sliding frame are further arranged on any bottom plate of the sliding frame, the sleeve of the sliding frame is positioned on one side of the bottom plate of the sliding frame, the sleeve of the sliding frame is fixedly connected with the bottom plate of the sliding frame, the stand column of the sliding frame is positioned in the middle of the bottom plate of the sliding frame, the stand column of the sliding frame penetrates through the bottom plate of the sliding frame and is fixedly connected with the lower die body, the stand column clamping plate is positioned on one side of the stand column of the sliding frame, the stand column is fixedly connected with the bottom plate of the sliding frame, the circular tube of, each two independent guide pillar and guide sleeve assemblies are positioned on the upper part of the lower die body in parallel, and are fixedly connected with the lower die body; the material pressing core is further provided with four material pressing first guide plates, two material pressing second guide plates and a plurality of spring positioning pins, every two groups of the four material pressing first guide plates are respectively located on two sides of the material pressing core in parallel, the four material pressing first guide plates are fixedly connected with the material pressing core, the two material pressing second guide plates are respectively located on two sides of the material pressing core, the two material pressing second guide plates are fixedly connected with the material pressing core, the spring positioning pins are located on the upper portion of the material pressing core, and the spring positioning pins are fixedly connected with the material pressing core.

2. The stamping device for the panoramic sunroof beam die as defined in claim 1, wherein: the upper die comprises an upper die body and is characterized in that the upper die body is also provided with four upper die lifting rods, two first inserts, two second inserts, two third inserts, two fourth inserts, two fifth inserts, four side pins and a plurality of springs, every two groups of the four upper die lifting rods are respectively positioned on two sides of the upper die body in parallel, any upper die lifting rod is fixedly connected with the upper die body, the two first inserts, the two second inserts, the two third inserts, the two fourth inserts and the two fifth inserts are distributed on the upper portion of the upper die body in a symmetrical mode, the two first inserts, the two second inserts, the two third inserts, the two fourth inserts and the two fifth inserts are fixedly connected with the upper die body, every two groups of the four side pins are respectively positioned in parallel in the middle of the upper die body, and any side pin is fixedly connected with the upper die body, the spring is located in the middle of the upper die body, and the spring is fixedly connected with the upper die body.

3. The stamping device for the panoramic sunroof beam die as defined in claim 2, wherein: the shapes of the two first inserts, the two second inserts, the two third inserts, the two fourth inserts and the two fifth inserts after being spliced are mutually aligned with the shapes of the two lower die first trimming inserts, the two lower die second trimming inserts and the two lower die third trimming inserts in the middle of the lower die body after being spliced and fixed.

4. The stamping device for the panoramic sunroof beam die as defined in claim 2, wherein: the number of the spring positioning pins is the same as that of the springs, and the positions of the spring positioning pins correspond to those of the springs.

5. The stamping device for the panoramic sunroof beam die as defined in claim 1, wherein: the single gas path system is also provided with two elbows, a plurality of gas pipes, two air flow valves and two sheet irons, the two elbows are simultaneously positioned on one side of the stamping device and fixedly connected with the stamping device according to the vertical distribution, one ends of the plurality of gas pipes are fixedly connected with the respective elbows, the other ends of the plurality of gas pipes are fixedly connected with the respective air flow valves, the two air flow valves are positioned on one side of the sheet irons and fixedly connected with the sheet irons, the sheet irons are sheet irons containing two screws, any air flow valve is also provided with a connector which is positioned between the air flow valves and the sheet irons, one end of the connector is fixedly connected with the air flow valves, the other end of the connector is fixedly connected with the screws in the sheet irons, the sheet irons are also provided with two quick connectors, and the two quick connectors are all positioned inside the sheet irons, two quick-operation joint all are fixed connection with inside respective screw of plate iron, and then have strengthened the stability and the normal use of air current in a plurality of trachea, and many tracheas also can use of mutually supporting, be convenient for arrangement and later maintenance.

6. The stamping device for the panoramic sunroof beam die as defined in claim 1, wherein: the material supporting frame is also provided with a material supporting frame reinforcing rib, two material supporting frame connecting plates, two material supporting underframe, two material supporting frame fixing plates, a turning shaft, a crank arm connector, a double-elbow joint and an air cylinder, the material supporting frame reinforcing rib is positioned in the middle of the material supporting frame, the material supporting frame reinforcing rib is fixedly connected with the material supporting frame, the two material supporting frame connecting plates are positioned on one side of the upper part of the material supporting frame in parallel, the two material supporting frame connecting plates are fixedly connected with the material supporting frame, the two material supporting underframe are respectively positioned on one side of the two material supporting frame connecting plates, the two material supporting frame fixing plates are respectively and fixedly connected with the corresponding material supporting underframe, the turning shaft is positioned in the middle of the top end of the material supporting frame, and the turning shaft is also provided with two rotating shaft supports, the two rotating shaft supports are respectively positioned at two ends of the turning shaft, any rotating shaft support is fixedly connected with the turning shaft, when the material supporting frame is turned, the rotating shaft supports are used for playing a balance role and preventing the material supporting frame from tilting during turning, the crank arm connector is positioned at one side of two material supporting frame fixing plates and is fixedly connected with the two material supporting frame fixing plates, the two material supporting frame connecting plates, the two material supporting underframe and the two material supporting frame fixing plates are mutually matched to firmly support the material supporting frame, the double-elbow joint is positioned at one side of the crank arm connector, the double-elbow joint is movably connected with the crank arm connector, the double-elbow joint is a Y-shaped double-elbow joint, the distance between the whole material supporting frame and the punching device can be adjusted, and an operator can automatically adjust a gap between the material supporting frame and the punching device according to the size of an output punched finished product, let punching press finished product can export smoothly and pile up, and is nimble changeable, the cylinder is located the lower part that the double-elbow connects, the cylinder connects for fixed connection with the double-elbow, still be equipped with cylinder installation foot seat, cylinder mounting flange and cylinder layer board on the cylinder, the cylinder installation foot seat is located the lower part of cylinder, cylinder installation foot seat is fixed connection with the cylinder, cylinder mounting flange is located the lower part of cylinder installation foot seat, cylinder mounting flange is swing joint with cylinder installation foot seat, the cylinder layer board is located one side of cylinder mounting flange, the one end and the cylinder mounting flange of cylinder layer board are fixed connection, the other end and the stamping device of cylinder layer board are fixed connection.

7. The stamping device for the panoramic sunroof beam die as defined in claim 1, wherein: the stamping device is also provided with a stamping positioning track, an electric controller, an operation box and a waste material collecting container, one side of the stamping positioning track is fixedly connected with the stamping device, the other side of the stamping positioning track is fixedly connected with the upper die body, the electric controller is positioned at one side of the stamping device, the electric controller is fixedly connected with the stamping device, the operation box is positioned at the other side of the stamping device, the operation box is fixedly connected with the stamping device, the waste material collecting container is positioned at the lower part of the lower die body and positioned inside the stamping device, the waste material collecting container is movably connected with the stamping device, the stamping positioning track is a gear type vertical positioning device and plays a role in accurate positioning, the waste material collecting container is a pull-out stainless steel groove and can centralize and place waste materials in the waste material box, meanwhile, the cleaning in the later period is facilitated.

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