CN114178375B - Stamping device for aluminum product production - Google Patents

Abstract

The utility model discloses a stamping device for aluminum product production, which belongs to the technical field of stamping equipment and comprises a frame, a driving assembly, a first die, a shell, a second die, a pressing block, a grabbing assembly and a first sliding rod, wherein the driving assembly is fixedly arranged on the frame through a first mounting frame, the shell is fixedly arranged on the frame through a second mounting frame, the first die is fixedly arranged above the driving assembly, the second die is slidably arranged at the lower end of the shell, the pressing block is slidably arranged on the shell, a sliding rail is arranged on the shell, the pressing block slides on the sliding rail of the shell, the grabbing assembly is slidably arranged on the shell, the pressing block is positioned between the second die and the grabbing assembly, the grabbing assembly is connected with the driving assembly, the driving assembly is used for simultaneously driving the first die and the grabbing assembly to do lifting motion, the grabbing assembly is used for taking the pressing block, driving the pressing block to slide on the shell, the second die is driven to slide on the shell after the pressing block falls, and the first die and the second die are matched with the second die to be used for stamping aluminum products.

Description

Stamping device for aluminum product production

Technical Field

The utility model relates to the technical field of stamping equipment, in particular to a stamping device for aluminum product production.

Background

In the processing of sheet metal forming, a forming die with a certain shape is required to be subjected to stamping processing on raw materials, in the traditional aluminum product stamping process, the load during stamping is not easy to accurately control because of the low material hardness of an aluminum plate, the die is also a fixed die, the stamping limitation is large, the Chinese patent publication No. CN210701984U discloses a punching device for aluminum product production, a punching groove is formed in the center of a punching table, and a fixing device for fixing an aluminum product is arranged on the punching table; the protective cover is arranged on the workbench and is provided with a first motor for driving the screw rod to rotate; the guide rod is arranged in the protective cover and is parallel to the screw rod; the sliding piece is in threaded connection with the screw rod and is arranged on the guide rod in a sliding way, and a first driving device for driving the connecting plate to move up and down and a second driving device for driving the connecting frame to move up and down are arranged on the sliding piece; the lower end of the connecting plate is detachably connected with a punching drill bit; the connecting frame is provided with a second motor for driving the grinding wheel to rotate; the dust collector is arranged on the ground, and the dust collection pipe is arranged on the dust collector and extends into the protective cover.

Disclosure of Invention

Aiming at the technical problems, the utility model adopts the following technical scheme: a stamping device for aluminum product production comprises a frame, a driving assembly, a first die, a shell, a second die, a pressing block and a grabbing assembly, wherein the shell is fixedly arranged on the frame through a second mounting frame; the driving assembly is fixedly arranged below the frame through a first mounting frame; the first die is fixedly arranged on the driving assembly and is positioned below the shell; the second mould slidable mounting at the casing lower extreme, the casing on slidable mounting have the briquetting, snatch the subassembly setting in the top of briquetting, snatch subassembly slidable mounting simultaneously on the casing, snatch subassembly fixed mounting at the first end of first slide bar, first slide bar slidable mounting is in the frame, the second end of first slide bar passes through the fixed pin and rotates with drive assembly to be connected, drive assembly be used for driving first mould and snatch the subassembly simultaneously, snatch the subassembly and be used for driving the slip of briquetting on the casing, the slip of briquetting drive second mould on the casing, first mould and second mould cooperation realize the punching press of aluminium product.

The first die comprises a mounting seat, the mounting seat is fixedly arranged on the driving assembly, two movable clamping plates are rotatably arranged on the mounting seat, a third spring is arranged between the two movable clamping plates, a cushion block for stamping an aluminum product into a required shape is arranged on the movable clamping plates, and under the action of the second die, the two movable clamping plates rotate towards the direction close to each other in the stamping process.

Further, the second mould include to press the seat, press seat slidable mounting on the casing, press the seat outside be equipped with the coaxial fourth spring of seat, the first end fixed mounting of fourth spring on pressing the seat, the second end fixed mounting of fourth spring on the casing, the lower fixed mounting of seat have the disc, the lower surface of disc on fixed mounting have wedge frame, wedge frame's middle part fixed mounting have the shaping piece, the shaping piece be located the positive middle of two cushion in the vertical direction, the bilateral symmetry of shaping piece is provided with the baffle, in vertical decurrent direction, the distance between baffle and the shaping piece increases gradually, the baffle is used for when first mould and second mould move in opposite directions, drive two movable clamp plates and rotate in the direction that is close to each other, shaping piece and cushion change according to the required punching press shape of aluminium product, first mould and second mould between be equipped with the rack that is used for placing aluminium product, the rack fixed mounting is on the casing, the rack is hollow structure.

Further, snatch the subassembly and include clamping jaw and slider, slider fixed mounting at the lower extreme of first slide bar, clamping jaw middle part rotate through the round pin axle and install on the slider, clamping jaw below be equipped with the hook that is used for taking the briquetting, two clamping jaws are close to each other on one side respectively rotate and install the swivel mount, two swivel mounts between fixed mounting have a first spring, the briquetting setting is between second mould and snatch the subassembly, be equipped with on the casing and be used for briquetting gliding slide rail, frame top fixed mounting have uninstallation frame, uninstallation frame be used for driving two clamping jaws to the orientation rotation that the hook kept away from each other when snatching the subassembly upward movement.

Further, the drive assembly pass through first mounting bracket fixed mounting in the frame, the drive assembly include drive shaft and second slide bar, second slide bar slidable mounting on first mounting bracket, first mounting bracket fixed mounting in the frame, mount pad fixed mounting in the upper end of second slide bar, the lower extreme fixed mounting of second slide bar have the spout, spout and first mounting bracket between be equipped with the second spring coaxial with the second slide bar, the spout on be equipped with the gyro wheel, the drive shaft rotate and install on rotating the support, rotating support fixed mounting on first mounting bracket, the drive shaft on fixed mounting have the cam, the side and the gyro wheel contact of cam, drive shaft and the output shaft fixed connection of motor, motor fixed mounting is on rotating the support.

Further, the end part of the driving shaft is fixedly provided with a first end of a rotating rod, a second end of the rotating rod is rotationally connected with the first end of the connecting rod, the second end of the connecting rod is rotationally arranged on a fixing pin, and the fixing pin is fixedly arranged on the first sliding rod.

Further, the roller has two, the pivot setting of roller inside the spout, the distance between two gyro wheel pivots is adjustable, the gyro wheel rotates and installs in the pivot of roller, the pivot of roller on be equipped with the screw thread, be equipped with two nuts in every pivot, two nuts set up in the both sides of spout thickness direction, realize the fixed in position of gyro wheel pivot on the spout through the pressure between nut and the spout.

Furthermore, the cam is provided with two arc parts with different radiuses, and the connecting line between the central line of the rotating rod and the central point of the arc with larger diameter of the cam and the rotation center of the cam is positioned on the same plane.

Compared with the prior art, the utility model has the beneficial effects that: (1) According to the utility model, the first die and the second die are arranged to simultaneously punch the aluminum product, so that the punching quality is improved; (2) The driving component provided by the utility model drives the first die and the second die to act simultaneously, so that the structure is ingenious and the automation degree is high; (3) The second die provided by the utility model can clamp the aluminum product under the action of the first die, so that the stamping precision is ensured; (4) The pressure maintaining time of the two groups of dies is adjustable, and the application range is wider.

Drawings

FIG. 1 is a schematic view of the whole structure of the utility model in front view.

Fig. 2 is a schematic diagram of the overall structure of the rear view angle of the present utility model.

Fig. 3 is an enlarged schematic view of the structure at a in fig. 2.

Fig. 4 is an enlarged schematic view of the structure at B in fig. 2.

FIG. 5 is a schematic side view of the overall structure of the present utility model.

Fig. 6 is an enlarged schematic view of the structure at C in fig. 5.

Fig. 7 is a schematic diagram of the overall structure of the rear view angle of the present utility model.

Fig. 8 is an enlarged schematic view of the structure at D in fig. 7.

Reference numerals: 101-a frame; 102-a drive assembly; 103-a first mold; 104-a housing; 105-a second mold; 106-briquetting; 107-a grasping assembly; 108-a first slide bar; 109-fixing pins; 110-unloading rack; 111-clamping jaws; 112-a slider; 113-transposition; 114-a first spring; 115-pin shaft; 116-a first mount; 117-rotating the support; 118-an electric motor; 119-connecting rod; 120-rotating rod; 121-a drive shaft; 122-cam; 123-sliding grooves; 124-a roller; 125-a second slide bar; 126-a second spring; 127-a second mount; 128-mount; 129-a third spring; 130-a movable splint; 131-cushion blocks; 132-a rack; 133-pressing a seat; 134-fourth springs; 135-discs; 136-wedge-shaped frames; 137-baffle; 138-forming the block.

Detailed Description

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the utility model, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Examples: as shown in fig. 1-8, a stamping device for aluminum product production comprises a frame 101, a driving assembly 102, a first die 103, a housing 104, a second die 105, a pressing block 106, a grabbing assembly 107 and a first sliding rod 108, wherein the frame 101 serves as a mounting platform of the stamping device and plays a role in providing mounting foundation for other parts and fixing the stamping device, the frame 101 is formed by welding steel plates, the bottom of the frame 101 is fixedly mounted on the bottom surface or a workbench through anchor bolts, the frame 101 is fixedly provided with the first mounting frame 116 and the second mounting frame 127, the driving assembly 102 is fixedly mounted on the frame 101 through the first mounting frame 116, the housing 104 is fixedly mounted on the frame 101 through the second mounting frame 127, the first die 103 is fixedly mounted above the driving assembly 102, the second die 105 is slidably mounted at the lower end of the housing 104, the pressing block 106 is slidably mounted on the housing 104, a sliding rail is arranged on the housing 104, the pressing block 106 is arranged between the second die 105 and the grabbing assembly 107, the first end 103 is fixedly mounted on the first sliding rod 108, the first die 103 is fixedly mounted on the housing 108, the first die 103 is fixedly mounted on the first end of the frame 103, the first die 103 is fixedly mounted on the housing 104 by the second mounting frame 101, the sliding rod is slidably mounted on the second die 107 and is slidably mounted on the sliding rod 106, the sliding rod 109 is matched with the sliding rod 106, and is slidably mounted on the first die 106, the sliding rod is simultaneously, the pressing block 106 is slidably mounted on the first die 104, the sliding rod is movably is fixedly mounted on the first die 104 and is fixedly mounted on the sliding rod 102, and is fixed by the sliding rod 106.

As shown in fig. 1 to 6, the driving assembly 102 comprises a motor 118, a connecting rod 119, a rotating rod 120, a driving shaft 121, a cam 122, a sliding groove 123, rollers 124, a second sliding rod 125 and a second spring 126, wherein the motor 118 is fixedly arranged on a rotating bracket 117, the rotating bracket 117 is fixedly arranged on a first mounting frame 116, two rotating brackets 117 are respectively arranged on two sides of the first mounting frame 116, the driving shaft 121 is rotatably arranged on the two rotating brackets 117, the driving shaft 121 is fixedly connected with an output shaft of the motor 118 in a coaxial way, the motor 118 is fixedly arranged on the rotating bracket 117, the cam 122 is fixedly arranged on the driving shaft 121, the side surface of the cam 122 is contacted with the rollers 124, the rotating shaft of the rollers 124 is arranged on the sliding groove 123, the rollers 124 are rotatably arranged on the rotating shaft of the rollers 124, the two rollers 124 are arranged at adjustable distances between the two rollers 124, threads are arranged on the rotating shaft of the rollers 124, two nuts are arranged on the rotating shaft of each roller 124, the two nuts are arranged on two sides of the thickness direction of the sliding groove 123, the fixing of the rotating shaft of the roller 124 and the sliding groove 123 is realized through the pressure between the nuts and the sliding groove 123, the sliding groove 123 is fixedly arranged at the lower end of a second sliding rod 125, the second sliding rod 125 is slidably arranged on a first mounting frame 116, a first die 103 is fixedly arranged at the upper end of the second sliding rod 125, a second spring 126 is arranged on the outer side of the second sliding rod 125, the second spring 126 is coaxial with the second sliding rod 125, the first end of the second spring 126 is fixedly arranged on the sliding groove 123, the second end of the second spring 126 is fixedly arranged on the first mounting frame 116, the end of a driving shaft 121 is fixedly provided with the first end of a rotating rod 120, the second end of the rotating rod 120 is rotatably connected with the first end of a connecting rod 119, the second end of the connecting rod 119 is rotatably arranged on a fixing pin 109, two circular arc parts with different radiuses are arranged on a cam 122, the line connecting the center line of the rotating lever 120 and the center point on the circular arc with the larger diameter of the cam 122 and the rotation center of the cam 122 is on the same plane.

As shown in fig. 1 and 8, the first mold 103 includes a mounting seat 128, a third spring 129, a movable clamping plate 130 and a cushion block 131, the mounting seat 128 is fixedly installed at the upper end of the second slide rod 125, two movable clamping plates 130 are rotatably installed on the mounting seat 128, two cushion blocks 131 are fixedly installed on two surfaces, which are close to each other, of the two movable clamping plates 130, and two ends of the third spring 129 are fixedly installed on the two movable clamping plates 130.

As shown in fig. 2 and 8, the second mold 105 includes a pressing seat 133, a fourth spring 134, a disc 135, a wedge-shaped frame 136, a baffle 137 and a molding block 138, the pressing seat 133 is slidably mounted on the housing 104, the fourth spring 134 is coaxial with the pressing seat 133, a first end of the fourth spring 134 is fixedly mounted on the pressing seat 133, a second end of the fourth spring 134 is fixedly mounted on the housing 104, the disc 135 is fixedly mounted at a lower end of the pressing seat 133, the wedge-shaped frame 136 is fixedly mounted at a lower surface of the disc 135, the molding block 138 is fixedly mounted at a middle part of the wedge-shaped frame 136, the molding block 138 is positioned at a position right between the two cushion blocks 131 in a vertical direction, the baffle 137 is symmetrically arranged at two sides of the molding block 138, a distance between the baffle 137 and the molding block 138 is gradually increased in a vertical downward direction, a placing frame 132 is arranged between the first mold 103 and the second mold 105, the placing frame 132 is fixedly mounted below the housing 104, the middle part of the placing frame 132 is of a hollow structure, aluminum products are prevented from being placed on the placing frame 132, and the cushion blocks 131 and the second mold 105 are subjected to different punching operations along with the required shapes.

As shown in fig. 1-3, the grabbing component 107 includes a clamping jaw 111, a sliding block 112, a swivel mount 113, a first spring 114 and a pin 115, the sliding block 112 is fixedly installed at the lower end of the first sliding rod 108, the sliding block 112 is slidably installed on the housing 104, the middle part of the clamping jaw 111 is rotatably installed on the sliding block 112 through the pin 115, two clamping jaws 111 are respectively rotatably installed on two surfaces close to each other, the first spring 114 is fixedly installed between the two swivel mounts 113, a hook for taking the pressing block 106 is arranged at the lower end of the clamping jaw 111, an unloading frame 110 is fixedly installed above the frame 101, the clamping jaw 111 is contacted with the unloading frame 110 along with the sliding block 112 sliding upwards on the housing 104, and the two clamping jaws 111 rotate away from each other around the pin 115 under the action of the unloading frame 110.

The utility model discloses a stamping device for aluminum product production, which has the working principle that: firstly, aluminum products are placed on a placing frame 132, a motor 118 in a driving assembly 102 is started, the motor 118 drives a driving shaft 121 to rotate on a rotating bracket 117, at the moment, on one hand, the driving shaft 121 drives a cam 122 to rotate, the cam 122 drives a second sliding rod 125 to slide on a first mounting frame 116 through a roller 124 and a sliding groove 123 while rotating, the second sliding rod 125 drives a first die 103 to do lifting motion, on the other hand, the driving shaft 121 drives a rotating rod 120 to rotate, the rotating rod 120 drives a first sliding rod 108 to slide on a frame 101 through a connecting rod 119, the first sliding rod 108 drives a grabbing assembly 107 to lift in a shell 104, when the grabbing assembly 107 descends, two clamping jaws 111 lift the pressing block 106 under the action of the gravity of a first spring 114 and a pressing block 106, when the grabbing assembly 107 moves above the frame 101 along with the first sliding rod 108, the unloading frame 110 contacts with the clamping jaws 111, under the action of the unloading frame 110, the two clamping jaws 111 rotate to release the pressing block 106 from the grabbing component 107, the pressing block 106 falls onto the second die 105, the pressing seat 133 slides downwards on the shell 104 under the action of the pressing block 106, the pressing seat 133 drives the baffle 137 and the forming block 138 to slide downwards, the movable clamping plate 130 in the first die 103 contacts the baffle 137 under the action of the driving component 102, the two movable clamping plates 130 rotate towards directions close to each other under the action of the baffle 137, clamping of aluminum products is achieved, pressing into a required shape under the action of the cushion block 131 and the forming block 138 is achieved, the contact time of the adjusting roller 124 and the larger-diameter arc part of the cam 122 is achieved through adjusting the distance between the two rollers 124, the dwell time is controlled, and the application range and efficiency of pressing are improved.

The present utility model is not limited to the above-described embodiments, and various modifications are possible within the scope of the present utility model without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims (4)

1. A stamping device for aluminium products production, its characterized in that: the device comprises a frame (101), a driving assembly (102), a first die (103), a shell (104), a second die (105), a pressing block (106) and a grabbing assembly (107), wherein the shell (104) is fixedly arranged on the frame (101) through a second mounting frame (127); the driving assembly (102) is fixedly arranged below the frame (101) through a first mounting frame (116); the first die (103) is fixedly arranged on the driving assembly (102), and the first die (103) is positioned below the shell (104); the second die (105) is slidably mounted at the lower end of the shell (104), the shell (104) is slidably provided with a pressing block (106), the gripping assembly (107) is arranged above the pressing block (106), meanwhile, the gripping assembly (107) is slidably mounted on the shell (104), the gripping assembly (107) is fixedly mounted at the first end of a first sliding rod (108), the first sliding rod (108) is slidably mounted on the frame (101), the second end of the first sliding rod (108) is rotatably connected with the driving assembly (102) through a fixing pin (109), the driving assembly (102) is used for driving the first die (103) and the gripping assembly (107) simultaneously, the gripping assembly (107) is used for driving the pressing block (106) to slide on the shell (104), the pressing block (106) drives the second die (105) to slide on the shell (104), and the first die (103) and the second die (105) are matched to realize stamping of aluminum products; the first die (103) comprises a mounting seat (128), the mounting seat (128) is fixedly arranged on the driving assembly (102), two movable clamping plates (130) are rotatably arranged on the mounting seat (128), a third spring (129) is arranged between the two movable clamping plates (130), a cushion block (131) for stamping an aluminum product into a required shape is arranged on the movable clamping plates (130), and in the stamping process, under the action of the second die (105), the two movable clamping plates (130) rotate towards the direction close to each other;

the second die (105) comprises a pressing seat (133), the pressing seat (133) is slidably mounted on the shell (104), a fourth spring (134) coaxial with the pressing seat (133) is arranged on the outer side of the pressing seat (133), a first end of the fourth spring (134) is fixedly mounted on the pressing seat (133), a second end of the fourth spring (134) is fixedly mounted on the shell (104), a disc (135) is fixedly mounted at the lower end of the pressing seat (133), a wedge-shaped frame (136) is fixedly mounted on the lower surface of the disc (135), a forming block (138) is fixedly mounted in the middle of the wedge-shaped frame (136), the forming block (138) is positioned in the middle of two cushion blocks (131) in the vertical direction, baffles (137) are symmetrically arranged on two sides of the forming block (138), the distance between the baffles (137) and the forming block (138) is gradually increased in the vertical downward direction, the baffles (137) are used for moving towards the first die (103) and the second die (105) to drive the two dies (103) to move towards each other, the two dies (130) are required to be placed between the two dies (130) to be used for forming products according to the shapes of the two dies (130), the placing rack (132) is fixedly arranged on the shell (104), and the middle part of the placing rack (132) is of a hollow structure;

the driving assembly (102) is fixedly arranged on the frame (101) through a first mounting frame (116), the driving assembly (102) comprises a driving shaft (121) and a second sliding rod (125), the second sliding rod (125) is slidably arranged on the first mounting frame (116), the first mounting frame (116) is fixedly arranged on the frame (101), a mounting seat (128) is fixedly arranged at the upper end of the second sliding rod (125), a sliding groove (123) is fixedly arranged at the lower end of the second sliding rod (125), a second spring (126) coaxial with the second sliding rod (125) is arranged between the sliding groove (123) and the first mounting frame (116), a roller (124) is arranged on the sliding groove (123), the driving shaft (121) is rotatably arranged on a rotating bracket (117), the rotating bracket (117) is fixedly arranged on the first mounting frame (116), a cam (122) is fixedly arranged on the driving shaft (121), the side surface of the cam (122) is contacted with the roller (124), and the driving shaft (121) is fixedly connected with the motor (118) which is fixedly arranged on the rotating bracket (118);

the end of the driving shaft (121) is fixedly provided with a first end of a rotating rod (120), a second end of the rotating rod (120) is rotationally connected with a first end of a connecting rod (119), a second end of the connecting rod (119) is rotationally arranged on a fixing pin (109), and the fixing pin (109) is fixedly arranged on the first sliding rod (108).

2. A stamping device for aluminum product production as defined in claim 1, wherein: grabbing component (107) include clamping jaw (111) and slider (112), slider (112) fixed mounting be equipped with on slider (112) at the lower extreme of first slide bar (108), clamping jaw (111) middle part through round pin axle (115) rotation installation, clamping jaw (111) below be equipped with the hook that is used for taking briquetting (106), two clamping jaw (111) are close to each other one side on rotate respectively and install swivel mount (113), two swivel mount (113) between fixed mounting have first spring (114), briquetting (106) set up between second mould (105) and grabbing component (107), be equipped with on casing (104) and be used for briquetting (106) gliding slide rail, frame (101) top fixed mounting have uninstallation frame (110), uninstallation frame (110) be used for driving two clamping jaw (111) to the orientation rotation that the hook kept away from each other when grabbing component (107) upward movement.

3. A stamping device for aluminum product production as defined in claim 1, wherein: the two rollers (124) are arranged, the rotating shafts of the rollers (124) are arranged inside the sliding groove (123), the distance between the rotating shafts of the two rollers (124) is adjustable, the rollers (124) are rotatably arranged on the rotating shafts of the rollers (124), threads are arranged on the rotating shafts of the rollers (124), two nuts are arranged on each rotating shaft, the two nuts are arranged on two sides of the thickness direction of the sliding groove (123), and the position of the rotating shafts of the rollers (124) on the sliding groove (123) is fixed through the pressure between the nuts and the sliding groove (123).

4. A stamping device for aluminum product production as defined in claim 1, wherein: the cam (122) is provided with two arc parts with different radiuses, and the connecting line of the midpoint of the arc with the larger diameter of the cam (122) and the rotation center of the cam (122) and the central line of the rotating rod (120) are positioned on the same plane.