Automatic cutting, drilling and punch forming integrated device for iron sheet buckle
Technical Field
The invention relates to the field of machining, in particular to an integrated device for automatically cutting, drilling and punch forming an iron sheet buckle.
Background
The buckle is the mechanism that is used for the embedding of a part and another part to be connected or whole latch, and the biggest characteristics are that the installation is dismantled conveniently, and the license plate board is used for the license plate of fixed car, and the license plate board is the working of plastics, makes through the integrative technology of moulding plastics and takes shape, installs four metal buckles on the license plate board, shines through the license plate screw install on the metal buckle of license plate board, can fix the license plate on the license plate board.
At present, license plates of vehicle types sold on the market are basically installed through reed nuts, and due to the installation mode, holes in the bumper are large, so that the strength of the bumper is reduced, and the bumper is not attractive; meanwhile, in order to be clamped firmly, the traditional reed nut is difficult to assemble because the openings are smaller than the material thickness; furthermore, traditional reed nut anti-drop design has the barb, and difficult dismantlement just can fish tail bumper, influences the reassembly once more, has caused the waste of resource, nevertheless fixes license plate through the iron sheet buckle and can easy to assemble and dismantle, and the iron sheet buckle also needs through a plurality of steps final molding in the course of working.
Iron sheet buckle is carrying out the course of working, need carry out machine-shaping through a lot of steps with a very long iron sheet, and at the in-process of iron sheet processing, need pass through the cutting, drilling and stamping forming's step, often do not have the integration to accomplish the device of processing when iron sheet buckle adds man-hour, accomplish the back with the iron sheet cutting, still need move the iron sheet that the cutting was accomplished to drilling equipment and carry out the processing of drilling, after iron sheet drilling is accomplished, still carry out last stamping forming on delivering to stamping equipment with the iron sheet, this in-process, not only waste time and energy, and greatly reduced machining efficiency, therefore, need design a cutting, the equipment of drilling and punching press integration.
Disclosure of Invention
The technical problem to be solved by the invention is to provide an integrated device for automatically cutting, drilling and punch forming an iron sheet buckle, and the technical scheme solves the problem that the iron sheet buckle of the automobile license plate cannot be simultaneously cut, drilled and punched in the processing process.
In order to solve the technical problems, the invention provides the following technical scheme:
the utility model provides an integrated device for automatic cutting, drilling and punch forming of iron sheet buckles, which comprises a workbench, a feeding component, a cutting component, a drilling component, a punching component and a feeding component, wherein the feeding component, the cutting component, the drilling component, the punching component and the feeding component are all arranged at the top of the workbench, the feeding component is arranged at one side of the workbench, the drilling component is arranged at one side of the feeding component, the cutting component is arranged between the feeding component and the drilling component, the punching component is arranged at one side of the drilling component far away from the cutting component, the feeding component is arranged at the side of the cutting component, the drilling component and the punching component, the feeding component, the cutting component, the drilling component and the punching component are sequentially arranged along the length direction of the workbench, the feeding component comprises a fixed clamp, a movable clamp and a material moving mechanism, the fixed clamp is arranged at one side of the top, the top of workstation is equipped with one and is used for installing the built-in case that moves the material mechanism, moves anchor clamps and sets up between mounting fixture and cutting assembly to move anchor clamps and be located the top that moves the material mechanism.
As an iron sheet buckle automatic cutout, drilling and stamping forming integrated device's an optimal selection scheme, mounting fixture includes first supporting bench, first place platform and two first screw rods, first supporting bench is the top that vertical state is fixed in the workstation, first place the platform and be the length direction of horizontality along the workstation and set up in the top of first supporting bench, two first screw rods are vertical state symmetry and set up in the bottom both sides of first supporting bench, and one side of two first screw rods still is vertical state respectively and is equipped with a first stock, it is equipped with a slip post still to slide the cover respectively on two first stocks, and one side that every slip post is located corresponding first screw rod is equipped with a slip cap respectively and locates the first extension board of first screw rod.
As an iron sheet buckle automatic cutout, drilling and stamping forming integrated device's an preferred scheme, the opposite side of every slip post still is equipped with a second extension board that upwards passes first brace table respectively, and the top of every second extension board is equipped with a clamp plate that compresses tightly the iron sheet respectively, the first both sides of placing the platform still are equipped with a first opening that supplies the clamp plate to remove respectively, two first screw rods drive through the cooperation of belt and band pulley, and the lower extreme of a first screw rod is fixed with a driven gear, driven gear's side intermeshing is equipped with a driving gear, the driving gear is through a driving motor drive.
As an iron sheet buckle automatic cutout, drilling and stamping forming integrated device's an optimal selection scheme, it includes the movable plate to move the material mechanism, second screw rod and two second stock, two second stock set up in the top of workstation along the length direction symmetry of workstation, the both ends of second stock are fixed in respectively on a fixing base, the movable plate cover is located on two second stock, the second screw rod sets up in the inboard middle part of built-in box along the length direction of built-in box, the one end side of second screw rod still is equipped with a second driving motor, and through drive wheel and drive belt cooperation between second driving motor and the second screw rod, sliding sleeve is equipped with a cover and connects the piece on the second screw rod, the top of cover connects the piece is fixed in the bottom of movable plate.
As an iron sheet buckle automatic cutout, drilling and stamping forming integrated device's an optimal scheme, it includes the second brace table to remove anchor clamps, the platform and two compression cylinder are placed to the second, the second brace table is the top that the horizontality is fixed in the movable plate, the second is placed the platform and is the length direction of horizontality along the workstation and set up in the top of second brace table, two compression cylinder are vertical state symmetry and set up in the inboard bottom of second brace table, and all be equipped with a rectangular plate that can compress tightly the iron sheet on two output shafts that compress tightly the cylinder, the bottom of every rectangular plate all is equipped with two pegs graft poles, and in per two pegs graft poles all can peg graft and two loop bars, the both sides that the platform was placed to the second still are equipped with a second opening that supplies the rectangular plate to push down respectively.
As a preferred scheme of the integrated device for automatically cutting, drilling and punch forming the iron sheet buckle, the cutting assembly comprises a telescopic cylinder and a circular saw blade, the telescopic cylinder is vertically fixed above the workbench through a cutting frame, a push plate capable of moving on two vertical rods is arranged at the output end of an output shaft of the telescopic cylinder penetrating through the cutting frame, the circular saw blade is driven by a first rotating motor, the first rotating motor is fixed on the top of the push plate through a machine box, a first supporting box arranged along the length direction of the workbench is fixedly arranged on the workbench below the cutting frame through a first supporting frame, a first long shaft cylinder is arranged at the side of the telescopic cylinder in a vertical state, and the output end of the output shaft of the first long shaft cylinder penetrating through the cutting frame is also provided with a first lower pressing block for pressing the iron sheet.
As an iron sheet buckle automatic cutout, drilling and stamping forming integrated device's an optimal selection scheme, the drilling subassembly is including promoting cylinder and second major axis cylinder, second major axis cylinder is the vertical state and is fixed in the top of workstation through a drilling frame, be equipped with a second briquetting down on the output that the output shaft of second major axis cylinder passed the drilling frame, the outside of second major axis cylinder is equipped with a semi-arc track, promote the cylinder and be vertical state can remove set up on the semi-arc track, the output shaft of second major axis cylinder passes and is equipped with a mounting bracket on the orbital output of semi-arc, it is equipped with a drilling motor to be vertical state in the mounting bracket, be equipped with a drill bit that is used for drilling on the output shaft of drilling motor, the top of drilling frame is located semi-arc track department and still is equipped with a semi-arc opening that is used for promoting the cylinder to remove.
As an iron sheet buckle automatic cutout, drilling and stamping forming integrated device's an optimal scheme, the top of the workstation of drilling frame below is through the fixed second bearing box that is equipped with one and sets up along the length direction of workstation of a second support frame, and the top bilateral symmetry of second bearing box is equipped with a brill mouth, two brill mouths are corresponding the orbital both ends of semiarc respectively, the cover is equipped with a support column on the second major axis cylinder, it is equipped with a lantern ring to rotate the cover on the support column, and the fixed cover in one end of the lantern ring is located on the promotion cylinder, the fixed first spur gear that is equipped with in lantern ring top on the support column, driven gear side meshing is equipped with a second spur gear, and the second spur gear passes through the drive of second rotating electrical machines, the second rotating electrical machines is fixed in a frame.
As a preferred scheme of an integrated device for automatically cutting, drilling and punch forming an iron sheet buckle, a punching component comprises a punching cylinder and a die, the punching cylinder is fixed above a workbench through a punching frame in a vertical state, a punching head is further arranged on an output shaft of the punching cylinder, two round rods which can be in splicing fit with the top of the workbench are arranged at the bottom of the die, a spring is sleeved on each of the two round rods, two ends of the spring are respectively fixed at the bottom of the die and the top of a supporting seat, two stop blocks are symmetrically arranged on two sides of the die along the length direction of the workbench, a third bearing box is further fixedly arranged at the top of each of the two stop blocks, a single-shaft cylinder is arranged on one side of the punching cylinder in a horizontal state, the length direction of the single-shaft cylinder is perpendicular to the length direction of the workbench, a vertical plate is arranged on the output shaft of the single-shaft, the vertical plate is sleeved on a third long rod.
As an iron sheet buckle automatic cutout, drilling and stamping forming integrated device's an preferred scheme, the below of riser is the horizontality and still is equipped with a finger cylinder, still be equipped with one respectively on the output shaft of finger cylinder and be used for pressing from both sides the clamp of getting the iron sheet buckle and indicate, the below of unipolar cylinder still is equipped with a blanking frame, the material loading subassembly includes third screw rod and slide bar, third screw rod and slide bar set up respectively in the top of the side of workstation and workstation along the length direction of workstation, the third screw rod passes through the drive of third driving motor, the slip cover is equipped with an L shaped plate on third screw rod and the slide bar, and the top of L shaped plate is vertical state symmetry and is equipped with two biax cylinders, all be equipped with a long slab on the output shaft of two biax cylinders, the bottom one end of every long slab all is equipped with two sucking discs that are used for.
Compared with the prior art, the invention has the beneficial effects that:
the method comprises the steps that an operator firstly places an iron sheet on a fixing clamp, the fixing clamp clamps the iron sheet, then the movable clamp moves to the fixing clamp through a material moving mechanism, the movable clamp clamps one end of the iron sheet, then the fixing clamp is loosened, the movable clamp drives the iron sheet to move to a cutting assembly, the iron sheet is cut through the cutting assembly, then the feeding assembly moves the iron sheet to a drilling assembly, the drilling assembly drills holes at two ends of the iron sheet, the iron sheet moves to a punching assembly through the feeding assembly after drilling at two ends of the iron sheet is completed, and the punching assembly finally punches the iron sheet into the iron sheet buckle.
Drawings
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is a front view of the present invention;
FIG. 3 is a schematic perspective view of the fixing clip;
FIG. 4 is a front view of the holding fixture;
FIG. 5 is a schematic view of a partial perspective structure of the feeding assembly;
FIG. 6 is an exploded perspective view of the cutting assembly;
FIG. 7 is a perspective view of the drilling assembly;
FIG. 8 is a schematic perspective view of a stamping assembly;
FIG. 9 is an exploded perspective view of the punch assembly;
fig. 10 is a side view of the punch assembly.
The reference numbers in the figures are: the device comprises a workbench 1, a fixed clamp 2, a movable clamp 3, a cutting assembly 4, a drilling assembly 5, a stamping assembly 6, a first supporting table 7, a first placing table 8, a first screw rod 9, a first long rod 10, a sliding column 11, a first extending plate 12, a second extending plate 13, a pressing plate 14, a belt 15, a driven gear 16, a driving gear 17, a first driving motor 18, a moving plate 19, a second screw rod 20, a second long rod 21, a second driving motor 22, a transmission belt 23, a sleeving block 24, a second supporting table 25, a second placing table 26, a pressing cylinder 27, a rectangular plate 28, an inserting rod 29, a sleeving rod 30, a telescopic cylinder 31, a disc saw blade 32, a cutting frame 33, a vertical rod 34, a pushing plate 35, a first rotating motor 36, a machine box 37, a first supporting frame 38, a first supporting box 39, a first long shaft cylinder 40, a first pressing block 41, a pushing cylinder 42, a second long shaft cylinder 43, a first long shaft cylinder 43, a second long, The device comprises a drilling frame 44, a second lower pressing block 45, a semi-arc track 46, a drilling motor 47, a drill 48, a second supporting frame 49, a second bearing box 50, a lantern ring 51, a first straight gear 52, a second straight gear 53, a second rotating motor 54, a stamping cylinder 55, a die 56, a stamping frame 57, a stamping head 58, a round rod 59, a spring 60, a stop 61, a third bearing box 62, a single-shaft cylinder 63, a vertical plate 64, a third long rod 65, a finger cylinder 66, a blanking frame 67, a third screw 68, a sliding rod 69, a third driving motor 70, an L-shaped plate 71, a double-shaft cylinder 72, a long plate 73 and a suction cup 74.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like 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 referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, 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.
Referring to fig. 1 to 10, an integrated device for automatically cutting, drilling and punch forming an iron sheet buckle comprises a workbench 1, a feeding component, a cutting component 4, a drilling component 5, a punching component 6 and a feeding component, wherein the feeding component, the cutting component 4, the drilling component 5, the punching component 6 and the feeding component are all arranged at the top of the workbench 1, the feeding component is arranged at one side of the workbench 1, the drilling component 5 is arranged at one side of the feeding component, the cutting component 4 is arranged between the feeding component and the drilling component 5, the punching component 6 is arranged at one side of the drilling component 5 far away from the cutting component 4, the feeding component is arranged at the side of the cutting component 4, the drilling component 5 and the punching component 6, and the feeding component, the cutting component 4, the drilling component 5 and the punching component 6 are sequentially arranged along the length direction of the workbench 1, the feeding assembly comprises a fixing clamp 2, a moving clamp 3 and a moving mechanism, the fixing clamp 2 is arranged on one side of the top of the workbench 1, a built-in box used for installing the moving mechanism is arranged on the top of the workbench 1, the moving clamp 3 is arranged between the fixing clamp 2 and the cutting assembly 4, and the moving clamp 3 is located on the top of the moving mechanism. An operator firstly places an iron sheet on the fixed clamp 2, the fixed clamp 2 clamps the iron sheet, then the movable clamp 3 moves to the fixed clamp 2 through the material moving mechanism, the movable clamp 3 clamps one end of the iron sheet, the fixed clamp 2 is released immediately, the movable clamp 3 drives the iron sheet to move to the cutting assembly 4, the iron sheet is cut immediately through the cutting assembly 4, then the feeding assembly moves the iron sheet to the drilling assembly 5, the drilling assembly 5 drills holes at two ends of the iron sheet immediately, after drilling at two ends of the iron sheet is completed, the iron sheet immediately moves to the punching assembly 6 through the feeding assembly, and the punching assembly 6 finally punches the iron sheet into an iron sheet buckle.
The fixing clamp 2 comprises a first supporting table 7, a first placing table 8 and two first screws 9, the first supporting table 7 is fixed at the top of the workbench 1 in a vertical state, the first placing table 8 is in a horizontal state and is arranged at the top of the first supporting table 7 along the length direction of the workbench 1, the two first screws 9 are symmetrically arranged at the two sides of the bottom of the first supporting table 7 in a vertical state, one side of each first screw 9 is provided with a first long rod 10 in a vertical state, the two first long rods 10 are respectively provided with a sliding column 11 in a sliding mode, and one side, located at the corresponding first screw 9, of each sliding column 11 is provided with a first extending plate 12 which is sleeved with the corresponding sliding column 9. The operator firstly places the iron sheet on the first placing table 8, and in the process of compressing the iron sheet, the two first screw rods 9 rotate to respectively bring the corresponding first extending plates 12 to move, and each sliding column 11 respectively slides on the corresponding first long rod 10 because each first extending plate 12 is respectively fixed on the corresponding sliding column 11.
The other side of each sliding column 11 is further provided with a second extending plate 13 which penetrates through the first supporting table 7 upwards, the top of each second extending plate 13 is provided with a pressing plate 14 for pressing iron sheets, the two sides of the first placing table 8 are further provided with first openings for the pressing plates 14 to move, the two first screws 9 are driven through the matching of a belt 15 and a belt wheel, the lower end of one first screw 9 is fixed with a driven gear 16, the lateral sides of the driven gear 16 are mutually meshed with each other and provided with a driving gear 17, and the driving gear 17 is driven through a first driving motor 18. When the two first screws 9 rotate, the first driving motor 18 drives the driving gear 17 to rotate, the driven gear 16 and the driving gear 17 are meshed with each other, so that the driven gear 16 drives one first screw 9 to rotate, and the two first screws 9 are matched with the belt wheel through the belt 15, so that the two first screws 9 rotate simultaneously, and after the two first screws 9 rotate, each pressing plate 14 presses the iron sheet on the first placing table 8.
Move material mechanism and include movable plate 19, second screw rod 20 and two second stock 21, two second stock 21 set up in the top of workstation 1 along the length direction symmetry of workstation 1, the both ends of second stock 21 are fixed in respectively on a fixing base, two second stock 21 are located to movable plate 19 cover, second screw rod 20 sets up in the inboard middle part of built-in box along the length direction of built-in box, second screw rod 20's one end side still is equipped with a second driving motor 22, and through drive wheel and drive belt 23 cooperation between second driving motor 22 and the second screw rod 20, sliding sleeve is equipped with a cover and connects piece 24 on the second screw rod 20, the top of cover and connect piece 24 is fixed in the bottom of movable plate 19. After the iron sheet is clamped by the fixed clamp 2, the movable clamp 3 moves through the material moving mechanism, in the moving process of the material moving mechanism, the second driving motor 22 drives the second screw rod 20 to rotate through the matching of the driving wheel and the driving belt 23, the second screw rod 20 drives the splicing block 24 to move after rotating, and the splicing block 24 is fixedly connected with the movable plate 19, so that the movable plate 19 moves on the two second long rods 21.
The movable clamp 3 comprises a second supporting table 25, a second placing table 26 and two pressing cylinders 27, the second supporting table 25 is fixed on the top of the movable plate 19 in a horizontal state, the second placing table 26 is in a horizontal state and is arranged on the top of the second supporting table 25 along the length direction of the workbench 1, the two pressing cylinders 27 are in a vertical state and are symmetrically arranged at the bottom of the inner side of the second supporting table 25, rectangular plates 28 capable of pressing iron sheets are arranged on output shafts of the two pressing cylinders 27, two insertion rods 29 are arranged at the bottom of each rectangular plate 28, each two insertion rods 29 can be inserted into the two sleeve rods 30, and two sides of the second placing table 26 are provided with second openings for the rectangular plates 28 to press down respectively. When the moving plate 19 moves, the moving clamp 3 moves to one end of the iron sheet immediately, when the moving clamp 3 clamps the iron sheet, one end of the iron sheet falls on the second placing table 26, two pressing cylinders 27 output upwards immediately at the same time, each rectangular plate 28 presses the iron sheet immediately, and each rectangular plate 28 is matched with two loop bars 30 through two insertion rods 29 respectively, so that each rectangular plate 28 is more stable when being pressed downwards.
The cutting assembly 4 comprises a telescopic cylinder 31 and a disc saw blade 32, the telescopic cylinder 31 is fixed above the workbench 1 in a vertical state through a cutting frame 33, an output shaft of the telescopic cylinder 31 penetrates through an output end of the cutting frame 33 to be provided with a push plate 35 capable of moving on two vertical rods 34, the disc saw blade 32 is driven by a first rotating motor 36, the first rotating motor 36 is fixed at the top of the push plate 35 through a machine box 37, a first supporting box 39 arranged along the length direction of the workbench 1 is fixedly arranged on the workbench 1 below the cutting frame 33 through a first supporting frame 38, the telescopic cylinder 31 is further provided with a first long shaft cylinder 40 in a vertical state by the side, and an output end of the first long shaft cylinder 40 penetrating through the cutting frame 33 is further provided with a first lower pressing block 41 used for pressing iron sheets. When the iron sheet is brought onto the first bearing box 39 by the movable clamp 3, the first long-axis cylinder 40 drives the first press-down block 41 to press the iron sheet, the telescopic cylinder 31 extends the circular saw blade 32 out towards the iron sheet, the first rotating motor 36 brings the circular saw blade 32 to rotate, and the circular saw blade 32 cuts the iron sheet.
The drilling component 5 comprises a pushing cylinder 42 and a second long shaft cylinder 43, the second long shaft cylinder 43 is in a vertical state and is fixed above the workbench 1 through a drilling frame 44, an output shaft of the second long shaft cylinder 43 penetrates through an output end of the drilling frame 44 to be provided with a second lower pressing block 45, a semi-arc track 46 is arranged on the outer side of the second long shaft cylinder 43, the pushing cylinder 42 is in a vertical state and can be arranged on the semi-arc track 46 in a movable mode, an output shaft of the second long shaft cylinder 43 penetrates through an output end of the semi-arc track 46 to be provided with an installation frame, a drilling motor 47 is arranged in the installation frame in a vertical state, a drill bit 48 used for drilling is arranged on an output shaft of the drilling motor 47, and a semi-arc opening used for pushing the cylinder 42 to move is further arranged at the position, at the top end. When the iron sheet comes to the drilling assembly 5 through the feeding assembly, the second long-axis cylinder 43 compresses the iron sheet through the second pressing block 45, the pushing cylinder 42 then extends the drill 48 towards one end of the top of the iron sheet, and the drill 48 then performs drilling processing on one end of the iron sheet through the drilling motor 47.
The top of workstation 1 of drilling frame 44 below is fixed to be equipped with a second bearing box 50 along the length direction setting of workstation 1 through a second support frame 49, and the top bilateral symmetry of second bearing box 50 is equipped with a drill way, two drill ways are corresponding respectively the both ends of semi-arc track 46, the cover is equipped with a support column on the second major axis cylinder 43, it is equipped with a lantern ring 51 to rotate the cover on the support column, and the fixed cover of one end of lantern ring 51 is located on pushing cylinder 42, the fixed first spur gear 52 that is equipped with in lantern ring 51 top on the support column, the side engagement of first spur gear 52 is equipped with a second spur gear 53, and second spur gear 53 passes through the drive of second rotating electrical machines 54, second rotating electrical machines 54 is fixed in on a frame. When the drill 48 drills the symmetrical end of the top of the iron sheet, the second rotating motor 54 drives the second spur gear 53 to rotate, the first spur gear 52 rotates due to the fact that the second spur gear 53 is meshed with the first spur gear 52, the first spur gear 52 rotates to drive the lantern ring 51 to rotate on the supporting column, one end of the lantern ring 51 is fixed on the pushing cylinder 42, the pushing cylinder 42 moves to the symmetrical end of the iron sheet on the semi-arc rail 46 through rotation of the lantern ring 51, and the drill 48 immediately drills the symmetrical end of the iron sheet.
The punching assembly 6 comprises a punching cylinder 55 and a die 56, the punching cylinder 55 is fixed above the workbench 1 in a vertical state through a punching frame 57, a punching head 58 is further arranged on an output shaft of the punching cylinder 55, two round rods 59 capable of being in splicing fit with the top of the workbench 1 are arranged at the bottom of the die 56, a spring 60 is sleeved on each of the two round rods 59, two ends of the spring 60 are respectively fixed at the bottom of the die 56 and the top of a supporting seat, two stop blocks 61 are symmetrically arranged on two sides of the die 56 along the length direction of the workbench 1, a third supporting box 62 is further fixedly arranged at the top of each of the two stop blocks 61, a single-shaft cylinder 63 is arranged on one side of the punching cylinder 55 in a horizontal state, the length direction of the single-shaft cylinder 63 is perpendicular to the length direction of the workbench 1, a vertical plate 64 is arranged on the output shaft of the single-shaft cylinder 63 through the, the vertical plate 64 is sleeved on a third long rod 65. After the iron sheet after drilling comes to the punching assembly 6 through the feeding assembly, the iron sheet is placed on the two third bearing boxes 62, the punching cylinder 55 drives the punching head 58 to punch towards the middle of the iron sheet, the middle of the iron sheet is pressed downwards into the die 56, and the die 56 moves downwards along with the downward pressing of the punching cylinder 55 as the two springs 60 are fixed on the bottom of the die 56, so that the iron sheet is changed into an iron sheet buckle through the die 56 and the two stoppers 61.
The below of riser 64 is the horizontality and still is equipped with a finger cylinder 66, still be equipped with one respectively on finger cylinder 66's the output shaft and be used for pressing from both sides the clamp finger of getting the iron sheet buckle, the below of unipolar cylinder 63 still is equipped with a blanking frame 67, the material loading subassembly includes third screw rod 68 and slide bar 69, third screw rod 68 and slide bar 69 set up respectively in workstation 1's side and workstation 1's top along the length direction of workstation 1, third screw rod 68 passes through the drive of third driving motor 70, sliding sleeve is equipped with an L shaped plate 71 on third screw rod 68 and the slide bar 69, and the top of L shaped plate 71 is vertical state symmetry and is equipped with two biax cylinders 72, all be equipped with a long plate 73 on two biax cylinders 72's the output shaft, the bottom one end of every long plate 73 all is equipped with two sucking discs 74 that are used for absorbing. When the feeding assembly carries out feeding, the third driving motor 70 drives the third screw 68 to rotate, the L-shaped plate 71 immediately moves to a position where the material needs to be moved on the third screw 68 and the slide rod 69, then the two double-shaft cylinders 72 simultaneously drive the respective two suction cups 74 to move towards the iron sheet, the iron sheet is immediately sucked by the suction cups 74 to move towards the next step, after the iron sheet buckle is processed, the single-shaft cylinder 63 pushes the finger cylinder 66 to move to the iron sheet buckle, and the finger cylinder 66 immediately clamps and drives the iron sheet buckle to the blanking frame 67 through the two clamping fingers to be sent out.
The working principle of the invention is as follows: an operator firstly places iron sheets on a first placing table 8, in the process of pressing the iron sheets, two first screw rods 9 rotate to respectively bring corresponding first extension plates 12 to move, each first extension plate 12 is respectively fixed on a corresponding sliding column 11, therefore, each sliding column 11 respectively slides on a corresponding first long rod 10, when two first screw rods 9 rotate, a first driving motor 18 drives a driving gear 17 to rotate, because a driven gear 16 is meshed with the driving gear 17, the driven gear 16 drives one first screw rod 9 to rotate, and because the two first screw rods 9 are matched through a belt 15 and a belt wheel, the two first screw rods 9 rotate simultaneously, after the two first screw rods 9 rotate, each pressing plate 14 presses the iron sheets on the first placing table 8, after the iron sheets are clamped by a fixing clamp 2, the moving clamp 3 moves through the material moving mechanism, in the moving process of the material moving mechanism, the second driving motor 22 drives the second screw rod 20 to rotate through the matching of the driving wheel and the driving belt 23, the second screw rod 20 drives the splicing block 24 to move after rotating, because the splicing block 24 is fixedly connected with the moving plate 19, the moving plate 19 moves on the two second long rods 21, when the moving plate 19 moves, the moving clamp 3 immediately moves to one end of the iron sheet, when the moving clamp 3 clamps the iron sheet, one end of the iron sheet falls on the second placing table 26, immediately two pressing cylinders 27 simultaneously output upwards, each rectangular plate 28 immediately presses the iron sheet, because each rectangular plate 28 is respectively matched with the two splicing rods 30 through the two splicing rods 29, therefore, each rectangular plate 28 is more stable when being pressed downwards, when the iron sheet is driven to the first bearing box 39 through the moving clamp 3, the first long-axis cylinder 40 drives the first lower pressing block to press the iron sheet, the telescopic cylinder 31 extends the circular saw blade 32 towards the iron sheet, the first rotating motor 36 drives the circular saw blade 32 to rotate, the circular saw blade 32 cuts the iron sheet, when the feeding assembly feeds materials, the third driving motor 70 drives the third screw 68 to rotate, the L-shaped plate 71 moves to a position needing material moving on the third screw 68 and the slide rod 69, then the two double-axis cylinders 72 simultaneously drive the two suckers 74 to move towards the iron sheet, the iron sheet is sucked by the suckers 74 to move towards the next step, when the iron sheet comes to the drilling assembly 5 through the feeding assembly, the second long-axis cylinder 43 presses the iron sheet through the second lower pressing block 45, the pushing cylinder 42 extends the drill 48 towards one end of the top of the iron sheet, and the drill 48 drills one end of the iron sheet through the drilling motor 47, when the drill 48 drills the symmetrical end of the top of the iron sheet, the second rotating motor 54 drives the second spur gear 53 to rotate, the first spur gear 52 rotates due to the mutual meshing between the second spur gear 53 and the first spur gear 52, the first spur gear 52 rotates to drive the lantern ring 51 to rotate on the support column, one end of the lantern ring 51 is fixed on the pushing cylinder 42, the pushing cylinder 42 moves to the symmetrical end of the iron sheet on the semi-arc track 46 through the rotation of the lantern ring 51, the drill 48 then drills the symmetrical end of the iron sheet, when the drilled iron sheet comes to the punching assembly 6 through the feeding assembly, the iron sheet is placed on two third bearing boxes 62, the punching cylinder 55 then drives the punching head 58 to punch towards the middle of the iron sheet, the middle of the iron sheet is then pressed downwards into the die 56, and two springs 60 are fixed on the support base at the bottom of the die 56, therefore, the die 56 moves downwards along with the pressing of the stamping cylinder 55, the iron sheet is changed into an iron sheet buckle through the die 56 and the two stop blocks 61, when the iron sheet buckle is processed, the single-shaft cylinder 63 pushes the finger cylinder 66 to move to the position of the iron sheet buckle, and the finger cylinder 66 clamps and takes the iron sheet buckle to the blanking frame 67 through the two clamping fingers and then sends the iron sheet buckle out.