CN115041564A - Intelligent extrusion forming equipment for metal buttons and metal button processing technology - Google Patents

Abstract

The invention discloses intelligent metal button extrusion forming equipment and a metal button processing technology, which belong to the technical field of metal extrusion forming, and comprise a machine shell, wherein a top shell is fixedly arranged at the top of the machine shell, an extrusion cylinder is fixedly arranged at the top of the top shell, a machine door is arranged outside the machine shell through a hinge, a first discharge hole is formed in the machine door, and a telescopic shaft is arranged at the output end of the extrusion cylinder; according to the button forming machine, the pressure assembly, the material receiving mechanism and the forming placement assembly are arranged in the button forming machine, the one-time forming quantity of buttons can be greatly improved, the working efficiency is effectively improved, meanwhile, unprocessed metal can be automatically shielded and automatically opened, the button forming machine is intelligent, meanwhile, in the metal extrusion forming process, the function of providing good supporting force for the forming placement assembly under pressure can be achieved, the situations of damage and the like caused by stress of the independent forming placement assembly are avoided, and the use effect is good.

Description

Intelligent extrusion forming equipment for metal buttons and metal button processing technology

Technical Field

The invention belongs to the technical field of metal extrusion forming, and particularly relates to intelligent metal button extrusion forming equipment and a metal button processing technology.

Background

Metal extrusion is an important method for pressure processing by utilizing the principle of metal plastic forming, wherein a metal ingot blank is processed into sections such as a pipe, a rod, a T-shaped section, an L-shaped section and the like by extrusion at one time, metal extrusion is a common metal processing and forming process, metal extrusion is formed by extrusion as the name implies, and metal extrusion forming equipment is required when the metal extrusion forming is carried out.

Chinese patent discloses (CN113695413A) a metal material extrusion equipment, including the shell, the outer wall fixed mounting of shell has first motor, the first output shaft of output fixedly connected with of first motor, first output shaft is connected with first threaded rod through belt transmission, the inside fixed mounting of shell has the casing, the outer wall threaded connection of first threaded rod has the removal seat, the outer wall rotation of removing the seat is connected with first pivot, the outer wall fixed coupling of first pivot has first squeeze roll, the inside fixedly connected with fixing base of casing, the outer wall rotation of fixing base is connected with the second pivot, the outer wall fixed coupling of second pivot has the second squeeze roll, the inside fixed mounting of shell has first cleaning device, the equal fixed mounting in inside both sides of shell has second cleaning device, first threaded rod is connected with the second threaded rod through belt transmission, the first output shaft of this equipment passes through the belt and drives first threaded rod and rotate, first threaded rod drives and removes seat downstream, it drives first squeeze roll downstream through first pivot to remove the seat, through first squeeze roll, the cooperation of second squeeze roll is used, extrude metal material, because the highly convenient regulation of first squeeze roll, the metal material who is applicable to different thickness carries out the extrusion operation, the practicality of equipment is improved, present former same batch of shaping volume is low, lead to whole equipment work efficiency to obtain the guarantee, often need realize automatic discharging through electronic structure simultaneously, lead to equipment cost to promote, electronic structure easily breaks down simultaneously, the result of use is not good, in order to solve this problem, urgent need a metal button intelligence extrusion equipment.

Disclosure of Invention

The invention aims to: in order to solve present former equipment with the shaping volume of batch low, lead to whole equipment work efficiency to obtain the guarantee, often need realize automatic discharging through electronic structure simultaneously, lead to equipment cost to promote, electronic structure easily breaks down simultaneously, the not good problem of result of use, and the metal button intelligence extrusion equipment that provides.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a metal button intelligence extrusion equipment, includes the casing, the top fixed mounting of casing has a shell, the top fixed mounting of top shell has the extrusion cylinder, the quick-witted door is installed through the hinge in the outside of casing, the inside of quick-witted door is provided with first discharge gate, be provided with the telescopic shaft on the output of extrusion cylinder, telescopic shaft one end is passed and is extended to the inside of casing, and the bottom fixed mounting of telescopic shaft has pressure assembly, and pressure assembly is used for the extrusion of metal button, rotate on the inner wall of casing and install the shaping and place the subassembly, the shaping is placed the subassembly and is used for placing of shaping metal, fixed mounting has receiving agencies on the bottom surface inner wall of casing, and receiving agencies is used for the stable receipts of button after the shaping to deposit.

As a further description of the above technical solution:

the subassembly is placed in the shaping includes that driving motor places the box with the shaping metal, fixed mounting has the side cap on the one side outer wall that the box was placed to the shaping metal, driving motor fixed mounting is on one side outer wall of casing, driving motor's output shaft one end fixed mounting has the pivot, and the one end of pivot is passed and is extended to the lateral wall fixed connection of casing and side cap.

As a further description of the above technical solution:

two electromagnets are installed to the inside of side cap is inlayed, the inside of box is placed to the shaping metal is provided with two cell bodies, and fixed mounting has the inner panel in the cell body, the inside of inner panel is provided with a plurality of suppression die cavities.

As a further description of the above technical solution:

the inside of box is placed to shaping metal is provided with the installation and covers the groove, the inside in installation lid groove is inserted and is inlayed and install the baffle, the one end fixed mounting of baffle has adsorption magnet, the electro-magnet is located same horizontal plane with adsorption magnet.

As a further description of the above technical solution:

the pressure assembly comprises a pressure block, side mounting blocks are fixedly mounted on the outer walls of the two sides of the pressure block, bottom racks are longitudinally and fixedly mounted on the bottom surfaces of the two side mounting blocks, a bottom pressing block is fixedly mounted on the bottom surface of the pressure block, and the bottom pressing block is located right above a groove body formed in the forming metal placing box.

As a further description of the above technical solution:

the receiving agencies is including receiving the workbin, the inside of receiving the workbin is provided with interior mounting groove, be provided with the second discharge gate on receiving the lateral wall of workbin, the position of second discharge gate and first discharge gate corresponds each other, be provided with the side mounting groove on the opposite side outer wall of receiving the workbin.

As a further description of the above technical solution:

vertical fixed mounting has spacing slide shaft on the inner wall of side mounting groove, the outside slidable mounting of spacing slide shaft has vertical support column, sliding connection between vertical support column and the side mounting groove, it installs the installation gear shaft to rotate on the inner wall of workbin to receive, the outside fixed mounting of installation gear shaft has drive gear.

As a further description of the above technical solution:

the transmission gear is meshed with the longitudinal supporting columns and the bottom rack respectively, the two limiting sliding shafts and the two longitudinal supporting columns are symmetrically arranged relative to a longitudinal central shaft of the material receiving box, and the two longitudinal supporting columns are located under the formed metal placing box.

As a further description of the above technical solution:

the inside movable mounting of interior mounting groove has button carrier assembly, and button carrier assembly is used for the stable recovery of shaping back button to bear, button carrier assembly includes the bearer frame, the inboard of bearer frame is rotated through the pivot and is installed the slope stripper, the equal fixed mounting in bottom surface four corners department of bearer frame has carrier spring, carrier spring's bottom and the bottom surface inner wall fixed connection who receives the workbin, vertical fixed mounting has the touch pressure bottom shaft on the bottom surface of bearer frame.

As a further description of the above technical solution:

the inner side of the bottom surface of the inner mounting groove is fixedly provided with a side top assembly, the side top assembly is used for stable side top of the inclined discharging plate, the side top assembly comprises a flexible bending side top metal and a mounting shell, the inside of the mounting shell is fixedly provided with two outward push spring rods, one end of each of the two outward push spring rods is fixedly provided with a flexible bending side top metal, one section of the flexible bending side top metal is in sliding connection with the inside of the mounting shell, the top surface of the mounting shell is provided with a mounting top hole, one side of the flexible bending side top metal is tightly attached to and extruded with the inner surface of the inner mounting groove, the inside of the flexible bending side top metal is provided with a mounting shaft groove, the inside of the mounting shaft groove is fixedly provided with a clamping spring, one end of the clamping spring is fixedly provided with a clamping convex shaft, and the clamping convex shaft is in sliding connection with the mounting shaft groove, one end of the clamping convex shaft penetrates through the mounting top hole and extends to the outer side of the mounting shell.

A metal button processing technology uses any one of the intelligent metal button extrusion forming equipment.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in the invention, the pressure component and the forming placing component are arranged in the metal button forming machine, when extrusion forming processing is carried out, the baffle is pushed open, processing metal is placed in each pressing cavity of the forming metal placing box, the baffle is closed again, the front side and the back side of the forming metal placing box can be placed, when extrusion forming is carried out, the extruding cylinder can be opened to drive the pressure component to descend, the electromagnet above the pressure component is opened to generate attraction force for the adsorption magnet of the closing baffle, so that the closing baffle is sucked into the mounting cover groove, the bottom pressing block of the pressure component can enter the groove body of the forming metal placing box, pressure is applied to the metal in the pressing cavity to enable the metal to be extruded and formed, after forming, the driving motor is started to control the forming metal placing box to rotate, the formed metal button can directly fall into the material receiving mechanism for storage, and extrusion forming processing is carried out on the metal on the other side of the forming metal placing box, through this structural design, can improve the one-time shaping quantity of button greatly, effectively improve work efficiency, can carry out automation to unprocessed metal simultaneously and shelter from, open automatically, comparatively intellectuality.

2. According to the metal pressure testing device, the material receiving mechanism is arranged in the metal pressure testing device, when the pressure assembly moves downwards to test the pressure of metal, the bottom rack can also move downwards synchronously along with the downward movement of the pressure assembly, the transmission gear is meshed and connected with the longitudinal support column and the bottom rack respectively, when the bottom rack moves downwards, the transmission gear can drive the longitudinal support column to move upwards, and the longitudinal support column is located right below the pressure block and can generate a certain upward supporting force for a formed metal placing box.

3. In the invention, the button bearing assembly and the side top assembly are arranged in the material receiving mechanism, the metal buttons formed each time can fall into the material receiving mechanism for storage, along with the gradual increase of the quantity of the stored metal buttons, when the bearing capacity of the bearing frame exceeds the supporting force of the bearing spring, the bearing frame can gradually move downwards until the bearing frame moves downwards to the position below the second discharge port, at the moment, the contact pressure bottom shaft on the bottom surface of the bearing frame can generate contact pressure on the clamping convex shaft of the side top assembly to clamp the clamping convex shaft into the mounting shaft groove, at the moment, the two outward push spring rods lose the limit, the flexible bending side top metal can be automatically pushed to the side, one end of the flexible bending side top metal can move upwards along the inner wall of the material receiving box until one end of the flexible bending side top metal pushes up one end of the inclined discharge plate of the button bearing assembly, at the moment, the inclined discharge plate automatically inclines, the processing back metal button that bears on it can slide fast, through this structural design, not only can realize accomodating the metal button after the processing, still can effectively realize retrieving the function of deriving to the automation after a certain amount as metal button, need not manual management, and degree of automation is high.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of an intelligent extrusion molding device for metal buttons.

Fig. 2 is an exploded perspective view of an intelligent extrusion molding device for metal buttons.

Fig. 3 is an enlarged schematic three-dimensional structure diagram of a pressure assembly in the intelligent extrusion molding equipment for the metal button.

Fig. 4 is a schematic diagram of an enlarged explosion three-dimensional structure of a forming placement component in the intelligent metal button extrusion forming equipment.

Fig. 5 is a schematic diagram of an enlarged explosion three-dimensional structure of a material receiving mechanism in the intelligent metal button extrusion forming equipment.

Fig. 6 is an enlarged explosion three-dimensional structure schematic diagram of a longitudinal support column and an outer shell assembly in the intelligent metal button extrusion forming equipment.

Fig. 7 is an enlarged schematic three-dimensional structure diagram of a button bearing assembly in the intelligent metal button extrusion molding equipment.

Fig. 8 is an enlarged explosion three-dimensional structure schematic diagram of a side top assembly in the intelligent metal button extrusion forming equipment.

Fig. 9 is an enlarged schematic structural diagram of a position a in the intelligent extrusion molding equipment for the metal button.

Fig. 10 is an enlarged schematic structural diagram of a position B in the intelligent extrusion forming equipment for the metal button.

Illustration of the drawings:

1. extruding the air cylinder; 2. a top shell; 3. a housing; 4. a machine door; 5. a first discharge port; 6. a pressure assembly; 61. a pressure block; 62. a side mounting block; 63. a bottom rack; 64. a bottom pressing block; 7. forming and placing the assembly; 71. a drive motor; 72. a side cover; 73. an electromagnet; 74. adsorbing a magnet; 75. a baffle plate; 76. forming a metal placing box; 77. installing a cover groove; 78. an inner plate; 79. pressing a cavity; 8. a material receiving mechanism; 81. a button bearing assembly; 811. a bearing frame; 812. inclining the stripper plate; 813. a load bearing spring; 814. pressing the bottom shaft; 82. a side top assembly; 821. a flexible curved side top metal; 822. pushing the spring rod outwards; 823. installing a top hole; 824. installing a shell; 825. a clamping convex shaft; 826. a clamping spring; 827. mounting a shaft groove; 83. a material receiving box; 84. a longitudinal support column; 85. a side mounting groove; 86. a second discharge port; 87. a limiting sliding shaft; 88. an inner mounting groove; 9. a transmission gear; 10. and (6) mounting a gear shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution: the utility model provides a metal button intelligence extrusion equipment, includes casing 3, the top fixed mounting of casing 3 has top shell 2, the top fixed mounting of top shell 2 has extrusion cylinder 1, door 4 is installed through the hinge in the outside of casing 3, the inside of door 4 is provided with first discharge gate 5, be provided with the telescopic shaft on extrusion cylinder 1's the output, telescopic shaft one end is passed and is extended to the inside of casing 3, and the bottom fixed mounting of telescopic shaft has pressure components 6, and pressure components 6 are used for the extrusion of metal button, rotate on the inner wall of casing 3 and install the shaping and place subassembly 7, the shaping is placed subassembly 7 and is used for placing of shaping metal, fixed mounting has receiving agencies 8 on the bottom surface inner wall of casing 3, and receiving agencies 8 is used for the stable receipts of button after the shaping to be deposited.

The molding placing component 7 comprises a driving motor 71 and a molding metal placing box 76, a side cover 72 is fixedly arranged on the outer wall of one side of the molding metal placing box 76, the driving motor 71 is fixedly arranged on the outer wall of one side of the machine shell 3, one end of an output shaft of the driving motor 71 is fixedly provided with a rotating shaft, one end of the rotating shaft penetrates through and extends to the machine shell 3 to be fixedly connected with the side wall of the side cover 72, two electromagnets 73 are embedded and installed inside the side cover 72, two groove bodies are arranged inside the molded metal placing box 76, an inner plate 78 is fixedly installed inside the groove bodies, a plurality of pressing cavities 79 are arranged inside the inner plate 78, a mounting cover groove 77 is arranged inside the formed metal placing box 76, the inside of installation lid groove 77 is inserted and is inlayed and install baffle 75, the one end fixed mounting of baffle 75 has adsorption magnet 74, electro-magnet 73 is located the same horizontal plane with adsorption magnet 74.

The pressure assembly 6 comprises a pressure block 61, side mounting blocks 62 are fixedly mounted on the outer walls of two sides of the pressure block 61, bottom racks 63 are longitudinally and fixedly mounted on the bottom surfaces of the two side mounting blocks 62, a bottom pressing block 64 is fixedly mounted on the bottom surface of the pressure block 61, and the bottom pressing block 64 is positioned right above a groove body arranged in the formed metal placing box 76.

The specific implementation mode is as follows: during extrusion molding, the baffle plate 75 is pushed open, the processing metal is placed into each pressing cavity 79 of the molding metal placing box 76, the baffle plate 75 is closed again, the front and back sides of the molding metal placing box 76 can be placed, when extrusion molding is carried out, the extrusion cylinder 1 can be opened to drive the pressure component 6 to descend, at the moment, the electromagnet 73 above is opened, the attracting magnet 74 of the closing flap 75 is attracted to draw the closing flap 75 into the mounting cover groove 77, the bottom press block 64 of the press unit 6 can enter the groove body of the formed metal placing box 76, and (3) pressurizing the metal in the pressing cavity 79 to extrude the metal, after the metal is formed, starting the driving motor 71, controlling the formed metal placing box 76 to rotate, directly dropping the formed metal button into the material receiving mechanism 8 for storage, and extruding and forming the metal on the other surface of the formed metal placing box 76.

The receiving mechanism 8 comprises a receiving box 83, an inner mounting groove 88 is arranged inside the receiving box 83, a second discharge hole 86 is formed in one side wall of the receiving box 83, the second discharge hole 86 corresponds to the first discharge hole 5, a side mounting groove 85 is formed in the outer wall of the other side of the receiving box 83, a limiting sliding shaft 87 is longitudinally fixedly mounted on the inner wall of the side mounting groove 85, a longitudinal support column 84 is slidably mounted outside the limiting sliding shaft 87, the longitudinal support column 84 is slidably connected with the side mounting groove 85, an installation gear shaft 10 is rotatably mounted on the inner wall of the receiving box 83, a transmission gear 9 is fixedly mounted outside the installation gear shaft 10, the transmission gear 9 is respectively connected with the longitudinal support column 84 and a bottom rack 63 in an engaged manner, and two limiting sliding shafts 87 and two longitudinal support columns 84 are symmetrically arranged about the longitudinal central axis of the receiving box 83, both longitudinal support posts 84 are located directly below the formed metal containment box 76.

The specific implementation mode is as follows; when pressure components 6 move down to carry out pressure testing to metal each time, along with pressure components 6 move down, end rack 63 also can move down simultaneously, because drive gear 9 is connected with intermeshing between longitudinal support column 84 and the end rack 63 respectively, when end rack 63 moves down, accessible drive gear 9 drives longitudinal support column 84 and upwards displaces, because longitudinal support column 84 all is located the pressure piece 61 under, longitudinal support column 84 can place box 76 to the shaping metal and produce certain upward holding power, through this design, can effectively make this equipment carry out the extrusion process to metal, can realize placing the function that the subassembly 7 provided good holding power to the shaping of receiving pressure, thereby avoid the circumstances such as damage that the subassembly 7 atress and cause is placed in solitary shaping.

Interior mounting groove 88's inside movable mounting has button carrier assembly 81, and button carrier assembly 81 is used for the stable recovery of shaping back button to bear, button carrier assembly 81 includes bearing frame 811, bearing frame 811's inboard is rotated through the pivot and is installed slope stripper 812, the equal fixed mounting in bottom surface four corners department of bearing frame 811 has bearing spring 813, bearing spring 813's bottom and the bottom surface inner wall fixed connection of collecting box 83, vertical fixed mounting has the bottom shaft 814 of touch on bearing frame 811's the bottom surface.

The inner side top assembly 82 is fixedly installed on the inner wall of the bottom surface of the inner installation groove 88, the side top assembly 82 is used for stabilizing the side top of the inclined discharging plate 812, the side top assembly 82 comprises a flexible bending side top metal 821 and an installation shell 824, two outward push spring rods 822 are fixedly installed inside the installation shell 824, one ends of the two outward push spring rods 822 are fixedly installed with a flexible bending side top metal 821, one section of the flexible bending side top metal 821 is connected with the inside of the installation shell 824 in a sliding manner, an installation top hole 823 is arranged on the top surface of the installation shell 824, one side of the flexible bending side top metal 821 is tightly attached to and pressed against the inner surface of the inner installation groove 88, an installation shaft groove 827 is arranged inside the flexible bending side top metal 821, a clamping spring 826 is fixedly installed inside the installation shaft groove 827, and one end of the clamping spring 826 is fixedly installed with a clamping convex shaft 825, the locking protrusion shaft 825 is slidably coupled to the mounting shaft slot 827, and one end of the locking protrusion shaft 825 passes through the mounting top hole 823 and extends to the outside of the mounting case 824.

The specific implementation mode is as follows: the formed metal buttons fall into the material receiving mechanism 8 for storage, and as the amount of the stored metal buttons increases gradually, when the bearing capacity of the bearing frame 811 exceeds the supporting capacity of the bearing spring 813, the bearing frame 811 will displace downward gradually until the bearing frame 811 moves downward to the position below the second material outlet 86, at this time, the touch-press bottom shaft 814 at the bottom surface of the bearing frame 811 can touch-press the position-locking convex shaft 825 of the side-pushing assembly 82, so that the position-locking convex shaft 825 is clamped into the mounting shaft slot 827, at this time, the two outward-push spring levers 822 lose the limit, the flexible bending side-pushing metal 821 can be pushed laterally automatically, one end of the flexible bending side-pushing metal 821 can move upward along the inner wall of the material receiving box 83, until one end of the flexible bending side-pushing metal 821 pushes up the end of the inclined plate 812 of the button bearing assembly 81, at this time, the inclined plate 812 has an automatic inclination angle, and the processed metal buttons loaded on the inclined plate can slide down quickly, and finally out through a second outlet 86.

The working principle is as follows: during extrusion molding, the baffle plate 75 is pushed open, the processing metal is placed into each pressing cavity 79 of the molding metal placing box 76, the baffle plate 75 is closed again, the front and back sides of the molding metal placing box 76 can be placed, when extrusion molding is carried out, the extrusion cylinder 1 can be opened to drive the pressure component 6 to descend, at the moment, the electromagnet 73 above is opened, the attracting magnet 74 of the closing flap 75 is attracted to draw the closing flap 75 into the mounting cover groove 77, the bottom press block 64 of the press unit 6 can enter the groove body of the formed metal placing box 76, pressing the metal in the pressing cavity 79 to extrude the metal, after the metal is formed, starting the driving motor 71, controlling the formed metal placing box 76 to rotate, directly dropping the formed metal button into the material receiving mechanism 8 for storage, and extruding and forming the metal on the other surface of the formed metal placing box 76; when the pressure component 6 moves downwards to perform pressure test on metal each time, the bottom rack 63 can also move downwards synchronously along with the downward movement of the pressure component 6, the transmission gear 9 is meshed and connected with the longitudinal support column 84 and the bottom rack 63 respectively, when the bottom rack 63 moves downwards, the transmission gear 9 can drive the longitudinal support column 84 to move upwards, and the longitudinal support column 84 is positioned right below the pressure block 61, so that the longitudinal support column 84 can generate certain upward supporting force for the formed metal placing box 76, and through the design, the device can effectively realize the function of providing good supporting force for the formed placing component 7 under pressure in the process of extrusion forming of metal, thereby avoiding the conditions of damage and the like caused by the stress of the independent formed placing component 7; the formed metal buttons fall into the material receiving mechanism 8 for storage, and as the amount of the stored metal buttons increases gradually, when the bearing capacity of the bearing frame 811 exceeds the supporting capacity of the bearing spring 813, the bearing frame 811 will displace downward gradually until the bearing frame 811 moves downward to the position below the second material outlet 86, at this time, the touch-press bottom shaft 814 at the bottom surface of the bearing frame 811 can touch-press the position-locking convex shaft 825 of the side-pushing assembly 82, so that the position-locking convex shaft 825 is clamped into the mounting shaft slot 827, at this time, the two outward-push spring levers 822 lose the limit, the flexible bending side-pushing metal 821 can be pushed laterally automatically, one end of the flexible bending side-pushing metal 821 can move upward along the inner wall of the material receiving box 83, until one end of the flexible bending side-pushing metal 821 pushes up the end of the inclined plate 812 of the button bearing assembly 81, at this time, the inclined plate 812 has an automatic inclination angle, and the processed metal buttons loaded on the inclined plate can slide down quickly, and finally out through a second outlet 86.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides a metal button intelligence extrusion equipment, includes casing (3), the top fixed mounting of casing (3) has top shell (2), the top fixed mounting of top shell (2) has extrusion cylinder (1), door (4) are installed through the hinge in the outside of casing (3), the inside of door (4) is provided with first discharge gate (5), its characterized in that: the button forming machine is characterized in that a telescopic shaft is arranged at the output end of the extrusion cylinder (1), one end of the telescopic shaft penetrates through and extends into the machine shell (3), a pressure assembly (6) is fixedly mounted at the bottom end of the telescopic shaft, the pressure assembly (6) is used for extrusion forming of metal buttons, a forming placing assembly (7) is rotatably mounted on the inner wall of the machine shell (3), the forming placing assembly (7) is used for placing forming metal, a material receiving mechanism (8) is fixedly mounted on the inner wall of the bottom surface of the machine shell (3), and the material receiving mechanism (8) is used for stably receiving and storing the formed buttons;

subassembly (7) are placed in the shaping includes that driving motor (71) and shaping metal place box (76), fixed mounting has side cap (72) on the shaping metal places one side outer wall of box (76), driving motor (71) fixed mounting is on one side outer wall of casing (3), the output shaft one end fixed mounting of driving motor (71) has the pivot, and the one end of pivot is passed and is extended to the lateral wall fixed connection of casing (3) and side cap (72).

2. The intelligent extrusion forming equipment for the metal buttons according to claim 1, wherein two electromagnets (73) are embedded and installed inside the side cover (72), two groove bodies are arranged inside the formed metal placing box (76), an inner plate (78) is fixedly installed inside each groove body, and a plurality of pressing cavities (79) are arranged inside the inner plate (78).

3. The intelligent extrusion forming device for the metal buttons as claimed in claim 2, wherein a mounting cover groove (77) is formed in the forming metal placing box (76), a baffle plate (75) is inserted and embedded in the mounting cover groove (77), an adsorption magnet (74) is fixedly mounted at one end of the baffle plate (75), and the electromagnet (73) and the adsorption magnet (74) are located on the same horizontal plane.

4. The intelligent extrusion molding device for the metal buttons as claimed in claim 3, wherein the pressure assembly (6) comprises a pressure block (61), side mounting blocks (62) are fixedly mounted on the outer walls of the two sides of the pressure block (61), bottom racks (63) are longitudinally and fixedly mounted on the bottom surfaces of the two side mounting blocks (62), a bottom pressing block (64) is fixedly mounted on the bottom surface of the pressure block (61), and the bottom pressing block (64) is located right above a groove body arranged inside the molded metal placing box (76).

5. The intelligent extrusion forming equipment for the metal buttons as claimed in claim 4, wherein the material receiving mechanism (8) comprises a material receiving box (83), an inner mounting groove (88) is formed in the material receiving box (83), a second discharging hole (86) is formed in one side wall of the material receiving box (83), the second discharging hole (86) corresponds to the first discharging hole (5) in position, and a side mounting groove (85) is formed in the outer wall of the other side of the material receiving box (83).

6. The intelligent extrusion forming equipment for the metal buttons according to claim 5, wherein a limiting sliding shaft (87) is longitudinally and fixedly mounted on the inner wall of the side mounting groove (85), a longitudinal supporting column (84) is slidably mounted outside the limiting sliding shaft (87), the longitudinal supporting column (84) is slidably connected with the side mounting groove (85), a mounting gear shaft (10) is rotatably mounted on the inner wall of the material receiving box (83), and a transmission gear (9) is fixedly mounted outside the mounting gear shaft (10).

7. The intelligent extrusion forming equipment for the metal buttons according to claim 6, wherein the transmission gear (9) is meshed and connected with the longitudinal supporting column (84) and the bottom rack (63) respectively, two limiting sliding shafts (87) and two longitudinal supporting columns (84) are symmetrically arranged around a longitudinal central axis of the material receiving box (83), and the two longitudinal supporting columns (84) are located right below the formed metal placing box (76).

8. The intelligent extrusion molding equipment for metal buttons according to claim 7, wherein a button bearing assembly (81) is movably mounted inside the inner mounting groove (88), the button bearing assembly (81) is used for stably recovering and bearing the molded buttons, the button bearing assembly (81) comprises a bearing frame (811), an inclined discharging plate (812) is rotatably mounted on the inner side of the bearing frame (811) through a rotating shaft, bearing springs (813) are fixedly mounted at four corners of the bottom surface of the bearing frame (811), the bottom ends of the bearing springs (813) are fixedly connected with the inner wall of the bottom surface of the receiving box (83), and a pressing bottom shaft (814) is longitudinally and fixedly mounted on the bottom surface of the bearing frame (811).

9. The intelligent extrusion molding equipment for metal buttons as claimed in claim 8, wherein a side top assembly (82) is fixedly installed on the inner wall of the bottom surface of the inner installation groove (88), the side top assembly (82) is used for inclining the stable side top of the discharging plate (812), the side top assembly (82) comprises a flexible bending side top metal (821) and an installation shell (824), two outward-pushing spring rods (822) are fixedly installed inside the installation shell (824), one end of each of the two outward-pushing spring rods (822) is fixedly installed with a flexible bending side top metal (821), one section of the flexible bending side top metal (821) is in sliding connection with the inside of the installation shell (824), an installation top hole (823) is formed in the top surface of the installation shell (824), one side of the flexible bending side top metal (821) is tightly attached to and pressed against the inner surface of the inner installation groove (88), the inside of flexible crooked side top metal (821) is provided with installation axle slot (827), the inside fixed mounting of installation axle slot (827) has screens spring (826), the one end fixed mounting of screens spring (826) has screens protruding axle (825), screens protruding axle (825) and installation axle slot (827) sliding connection, the one end of screens protruding axle (825) is passed installation apical pore (823) and is extended to the outside of installing shell (824).

10. A metal button processing technology, which is characterized in that the intelligent extrusion forming equipment of the metal button as claimed in any one of claims 1 to 9 is used.

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