CN115041658A - Die-casting device of thin-wall aluminum alloy die casting - Google Patents

Abstract

The invention discloses a die-casting device of a thin-wall aluminum alloy die-casting piece, which comprises a guide groove, a die holder and a die holder, wherein the guide groove is arranged at the middle position inside the die holder; the first die cavities are arranged on the periphery of the end face of the fixed die holder, and the number of the first die cavities is four; and the second die cavities are arranged on the periphery of the end face of the movable die holder, and the number of the second die cavities is four. The invention aims to solve the problems that the existing device needs to manually take materials after die casting is finished, only one casting can be produced at one time, and the efficiency is low.

Description

Die-casting device of thin-wall aluminum alloy die casting

Technical Field

The invention relates to the technical field of aluminum alloy die casting, in particular to a die casting device for a thin-wall aluminum alloy die casting.

Background

The aluminum alloy die casting machine is a series of industrial casting machines which inject molten metal into a die under the action of pressure for cooling and forming and obtain a solid aluminum alloy casting after die opening;

like application number CN207709839U name be an aluminum alloy die casting machine improvement structure, the on-line screen storage device comprises a base, the top fixed mounting of base has first fixing base, one side of first fixing base is equipped with the second fixing base of fixed mounting on the base top, one side fixed mounting that the second fixing base is close to first fixing base has the dead lever, the one end that the second fixing base was kept away from to the dead lever has been seted up the spout, slidable mounting has the movable rod in the spout, and outside the one end that the second fixing base was kept away from to the movable rod extended to the spout, the one end that the movable rod is close to the second fixing base has a threaded hole, threaded hole movable mounting has the lead screw, the one end that the lead screw is close to the second fixing base extends to the threaded hole outward and rotates to install on the one side inner wall that the spout is close to the second fixing base.

After the die-casting is finished, the device needs manual material taking, only one casting can be produced at a time, and the efficiency is low; a die casting apparatus for thin-walled aluminum alloy die castings has been proposed in order to solve the problems set forth above.

Disclosure of Invention

The invention aims to provide a die-casting device for a thin-wall aluminum alloy die-casting piece, and aims to solve the problems that the existing device in the background art needs to manually take materials after die-casting is finished, only one casting piece can be produced at one time, and the efficiency is low.

In order to achieve the purpose, the invention provides the following technical scheme: a die-casting device of a thin-wall aluminum alloy die casting comprises a base, wherein an outer expanding bottom plate is installed on the lower surface of the base, a material injection chamber is installed above one end of the base, a chamber door is installed at the front end of the material injection chamber, one side of the chamber door is connected with the material injection chamber in a locking mode through a bounce lock, the other side of the chamber door is rotatably connected with the material injection chamber through a hinge, a fixed die positioning plate is installed on one side of the material injection chamber, a fixed die seat is arranged at the front end of the fixed die positioning plate, a hydraulic cylinder positioning plate is installed above the inner portion of the other end of the base, a hydraulic cylinder is installed at the rear end of the hydraulic cylinder positioning plate, the output end of the hydraulic cylinder penetrates through and extends to the front end of the hydraulic cylinder positioning plate, a movable die positioning plate is installed at the front end of the movable die positioning plate, guide pillars are arranged on two sides below the hydraulic cylinder, and one end of each guide pillar penetrates through and extends to the inside of the hydraulic cylinder positioning plate, the guide post is fixedly connected with the movable die positioning plate, and a linear bearing is arranged at the joint of the guide post and the hydraulic cylinder positioning plate;

further comprising:

the guide groove is arranged in the middle of the inside of the fixed die base, a central guide hole is formed in the front end of the guide groove, a guide ring is arranged outside the central guide hole, and four guide channels communicated with each other are arranged between the guide ring and the central guide hole;

the first die cavities are arranged on the periphery of the end face of the fixed die holder, and the number of the first die cavities is four;

the four second die cavities are arranged on the periphery of the end face of the movable die holder;

the ball screw guide rail is arranged above the hydraulic cylinder positioning plate, a sliding block is connected to the ball screw guide rail in a transmission manner, a belt guide rail is mounted on the sliding block, and a sliding table is connected to the belt guide rail in a transmission manner;

the supporting arm is mounted on the sliding table, a point spraying cooling mechanism is mounted at the lower end of the supporting arm, a temperature measuring mechanism is mounted at the lower end of the point spraying cooling mechanism, and a grabbing mechanism is mounted at the lower end of the temperature measuring mechanism;

and the conveying belt is arranged on one side of the base.

Preferably, four clamping jaw grooves are formed in the periphery of the outer portion of the flow guide ring, four filling blocks are arranged on the front end of the movable die holder in an encircling mode, the number of the filling blocks is four, and the four filling blocks and the movable die holder are arranged in an integrated mode.

Preferably, first step motor is installed to the one end of ball screw guide rail, and the output of first step motor is connected with the transmission of ball screw guide rail, second step motor is installed to the side of the one end of belt guide rail, and second step motor is connected with the transmission of belt guide rail.

Preferably, it includes the connecting seat, rotates seat, cylinder, pneumatic seat and pneumatic four-jaw chuck to snatch the mechanism, the lower extreme fixed connection of connecting seat and temperature measurement mechanism, it rotates through pivot and connecting seat and is connected to rotate the seat, the cylinder is embedded to be set up in the inside of rotating the seat, pneumatic seat is installed on the output of cylinder, pneumatic seat's front end is provided with the air inlet, the lower surface at pneumatic seat is installed to pneumatic four-jaw chuck.

Preferably, a belt transmission mechanism is installed on the side edge of the connecting seat, one end of the belt transmission mechanism is in transmission connection with the rotating shaft, and a stepping motor is installed at the other end of the belt transmission mechanism.

Preferably, the front end and the rear end of the temperature measuring mechanism are both provided with temperature detecting probes.

Preferably, twenty nozzles are arranged on the front end face and the rear end face of the point spraying cooling mechanism, and the outer wall of the supporting arm is provided with a pipe connecting groove.

Preferably, a coarse runner and a conical runner are arranged between the first die cavity and the flow guide ring, the coarse runner is communicated with the conical runner, one end of the coarse runner is communicated with the flow guide ring, and the tip of the conical runner is communicated with the first die cavity.

Preferably, clamping blocks are arranged around the rear ends of the movable die holder and the fixed die holder, strong magnetic plates are mounted on the outer walls of the clamping blocks, and clamping grooves are formed in the peripheries of the front ends of the movable die positioning plate and the fixed die positioning plate

Preferably, circular electromagnets are installed in the movable die positioning plate and the fixed die positioning plate, and annular electromagnets are installed in the middle positions of the movable die positioning plate and the fixed die positioning plate.

Preferably, the internally mounted of notes material room has the crucible, heating mechanism is installed to the bottom of crucible, the internally mounted of crucible has the gooseneck, the inside of gooseneck is provided with the melt runner, and the one end and the guiding gutter of melt runner are linked together, one side of melt runner is provided with the inlet.

Preferably, an injection cylinder is arranged above the gooseneck, and an injection punch is mounted at the output end of the injection cylinder.

Preferably, a first support is installed below one end of the ball screw guide rail, the lower end of the first support is fixedly connected with the hydraulic cylinder positioning plate, a transverse support plate is installed on the side edge of one end of the ball screw guide rail, a second support is installed below one end of the transverse support plate, the lower end of the second support is fixedly connected with the material injection chamber, a connecting support is installed on the side edge of the conveying belt, a third support is installed below the other end of the ball screw guide rail, and one end of the third support is in threaded connection with the connecting support through a bolt.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention arranges four corresponding die cavities on the fixed die base and the movable die base, and the four die cavities are communicated with the flow guide ring through the conical flow passage and the coarse flow passage, after die casting, the four die cavities can be connected with the flow guide ring through the conical flow passage and the coarse flow passage, when material is taken, the ball screw guide rail runs to drive the belt guide rail to move to the upper parts of the movable die base and the fixed die base, the belt guide rail drives the supporting arm to move downwards, so that the grabbing mechanism reaches the die casting position formed by the flow guide ring at the center of the fixed die base, then the pneumatic four-jaw chuck rotates and extends out, the four jaw grooves at the periphery of the flow guide ring are used for clamping and fixing, after finishing, the pneumatic four-jaw chuck is taken out from the fixed die base, because the periphery of the flow guide ring is connected with four thin-wall aluminum alloy pieces through the four coarse flow passages and the conical flow passage, four workpieces can be taken out at one time, when the material is taken out, only the connection between the conical flow passage and the thin-wall aluminum alloy die casting pieces needs to be cut off, convenient and fast has solved current device and has finished the back at die-casting, need artifical manual the material of getting, and can only produce a foundry goods once, the lower problem of efficiency.

2. Through set up temperature measurement mechanism and spot spray cooling mechanism on the support arm, after the material is got and is accomplished, the ball screw guide rail can drive the support arm subassembly again and move between movable mould seat and the cover half seat, after the height adjustment, utilize the temperature in temperature detection probe difference detection die holder and the movable mould seat of front and back end, and with temperature information feedback to terminal, divide high temperature region based on image acquisition technology terminal, divide and accomplish back with information feedback to pumping mechanism, pumping mechanism intercommunication cooling gas pitcher, carry air conditioning to the spot spray cooling mechanism on the nozzle blowout of corresponding position, realize the high-efficient cooling of fixed point to high temperature region, conveniently carry out next die-casting work fast.

3. Because of the specification and the molding of thin-wall aluminum alloy die casting depend on the shape of die cavity in movable mould seat and the cover half seat, so movable mould seat and cover half seat are detachable structure, can change the use according to the demand, when movable mould seat and cover half seat are installed, the draw-in groove location of corresponding position on movable mould locating plate and the cover half locating plate is gone into by four screens pieces card at rear end, adsorb fixedly through the strong magnet plate of screens piece outer wall, the annular electromagnet of cooperation movable mould locating plate and cover half locating plate middle part position consolidates, guarantee installation stability, when needs dismantle movable mould seat and cover half seat, can close middle part annular electromagnet, and drive the circular electromagnet in movable mould locating plate and the cover half locating plate, make it produce with strong magnet plate homopolar magnetic field, rely on magnetic repulsion to make movable mould seat and cover half seat separate, compare in current bolt fastening, convenient and fast more.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a support arm structure according to the present invention;

FIG. 3 is a schematic view of the inner structure of the injection chamber of the present invention;

FIG. 4 is a schematic view of the internal structure of the fixed mold base of the present invention;

FIG. 5 is a schematic view of the internal structure of the movable mold base according to the present invention;

in the figure: 1. a machine base; 2. expanding the bottom plate outwards; 3. a material injection chamber; 4. a chamber door; 5. a bounce lock; 6. fixing a die holder; 601. a central flow guide hole; 602. a flow guide way; 603. a flow guide ring; 604. a coarse flow channel; 605. a tapered flow passage; 606. a first mold cavity; 607. a jaw slot; 7. a movable die holder; 701. a second mold cavity; 702. filling blocks; 8. a movable die positioning plate; 9. a hydraulic cylinder positioning plate; 10. a hydraulic cylinder; 11. a guide post; 12. a linear bearing; 13. a ball screw guide; 14. a first stepper motor; 15. a first bracket; 16. a transverse support plate; 17. a second bracket; 18. a slider; 19. a belt guide; 20. a second stepping motor; 21. a sliding table; 22. a support arm; 23. a pipe connection groove; 24. a point spraying cooling mechanism; 25. a temperature measuring mechanism; 26. a grabbing mechanism; 27. a nozzle; 28. a temperature detection probe; 29. a connecting seat; 30. a belt drive mechanism; 31. a rotating seat; 32. a cylinder; 33. a pneumatic seat; 34. an air inlet; 35. a pneumatic four-jaw chuck; 36. fixing a die positioning plate; 37. a circular electromagnet; 38. an annular electromagnet; 39. a card slot; 40. a bit block; 41. a ferromagnetic plate; 42. a diversion trench; 43. a crucible; 44. a heating mechanism; 45. a gooseneck; 46. a molten liquid runner; 47. a liquid inlet; 48. an injection cylinder; 49. injecting a punch; 50. a conveyor belt; 51. a third support; 52. and connecting the support.

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.

Referring to fig. 1-5, an embodiment of the present invention is shown: a die-casting device of a thin-wall aluminum alloy die-casting piece comprises a base 1, an outer expanding bottom plate 2 is installed on the lower surface of the base 1, a material injection chamber 3 is installed above one end of the base 1, a chamber door 4 is installed at the front end of the material injection chamber 3, one side of the chamber door 4 is in locking connection with the material injection chamber 3 through a bounce lock 5, the other side of the chamber door 4 is in rotating connection with the material injection chamber 3 through a hinge, a fixed die positioning plate 36 is installed on one side of the material injection chamber 3, a fixed die base 6 is arranged at the front end of the fixed die positioning plate 36, a hydraulic cylinder positioning plate 9 is installed above the other end of the base 1, a hydraulic cylinder 10 is installed at the rear end of the hydraulic cylinder positioning plate 9, the output end of the hydraulic cylinder 10 penetrates through and extends to the front end of the hydraulic cylinder positioning plate 9, a movable die positioning plate 8 is installed, a movable die base 7 is arranged at the front end of the movable die positioning plate 8, guide pillars 11 are arranged on two sides below the hydraulic cylinder 10, one end of the guide pillars 11 penetrates through and extends to the inside of the hydraulic cylinder positioning plate 9, the positioning device is fixedly connected with the movable die positioning plate 8, and a linear bearing 12 is arranged at the joint of the guide pillar 11 and the hydraulic cylinder positioning plate 9;

further comprising:

the guide groove 42 is arranged in the middle of the inner part of the fixed die base 6, the front end of the guide groove 42 is provided with a central guide hole 601, the outer part of the central guide hole 601 is provided with a guide ring 603, and four guide channels 602 communicated with each other are arranged between the guide ring 603 and the central guide hole 601;

the first die cavities 606 are arranged on the periphery of the end face of the fixed die base 6, and the number of the first die cavities 606 is four;

the four second mold cavities 701 are arranged around the end face of the movable mold base 7, and the number of the second mold cavities 701 is four;

the ball screw guide rail 13 is arranged above the hydraulic cylinder positioning plate 9, a sliding block 18 is in transmission connection with the ball screw guide rail 13, a belt guide rail 19 is installed on the sliding block 18, and a sliding table 21 is in transmission connection with the belt guide rail 19;

the supporting arm 22 is installed on the sliding table 21, the lower end of the supporting arm 22 is provided with a point spraying cooling mechanism 24, the lower end of the point spraying cooling mechanism 24 is provided with a temperature measuring mechanism 25, and the lower end of the temperature measuring mechanism 25 is provided with a grabbing mechanism 26;

and a conveyor belt 50 disposed at one side of the housing 1.

Referring to fig. 4 and 5, four jaw grooves 607 are formed around the outside of the flow guide ring 603, four filling blocks 702 are disposed around the front end of the movable mold base 7, the number of the filling blocks 702 is four, and the four filling blocks 702 are integrally formed with the movable mold base 7, when die casting is performed, the four filling blocks 702 are clamped into the four jaw grooves 607, and after the die casting is completed, the filling blocks 702 are removed from the jaw grooves 607, so that the four jaw grooves 607 are reserved outside the die casting of the flow guide ring 603, and the pneumatic four-jaw chuck 35 can conveniently grab.

Referring to fig. 1, a first stepping motor 14 is installed at one end of a ball screw guide rail 13, an output end of the first stepping motor 14 is in transmission connection with the ball screw guide rail 13, a second stepping motor 20 is installed at a side edge of one end of a belt guide rail 19, the second stepping motor 20 is in transmission connection with the belt guide rail 19, the first stepping motor 14 drives the ball screw guide rail 13 to operate, the belt guide rail 19 on a sliding block 18 can be driven to move along the direction of the ball screw guide rail 13, and the belt guide rail 19 can drive a supporting arm 22 to move up and down through a sliding table 21.

Referring to fig. 2, the grasping mechanism 26 includes a connecting seat 29, a rotating seat 31, an air cylinder 32, an air cylinder 33, and an air four-jaw chuck 35, the connecting seat 29 is fixedly connected to the lower end of the temperature measuring mechanism 25, the rotating seat 31 is rotatably connected to the connecting seat 29 through a rotating shaft, the air cylinder 32 is embedded inside the rotating seat 31, the air cylinder 33 is installed at the output end of the air cylinder 32, the front end of the air cylinder 33 is provided with an air inlet 34, and the air four-jaw chuck 35 is installed at the lower surface of the air cylinder 33.

Referring to fig. 2, a belt transmission mechanism 30 is installed on a side edge of the connecting seat 29, one end of the belt transmission mechanism 30 is in transmission connection with the rotating shaft, a stepping motor is installed on the other end of the belt transmission mechanism 30, and the belt transmission mechanism 30 is driven by the stepping motor and can drive the rotating seat 31 to rotate, so that the pneumatic four-jaw chuck 35 can conveniently grab and lower the aluminum alloy die casting.

Referring to fig. 2, the temperature detecting probes 28 are mounted at the front end and the rear end of the temperature measuring mechanism 25, and after die casting is completed, the temperature detecting probes 28 at the front end and the rear end can respectively detect the temperatures in the die holder 6 and the movable die holder 7, and feed back the temperature information to the terminal.

Referring to fig. 2, twenty nozzles 27 are arranged on the front end face and the rear end face of the spot spray cooling mechanism 24, the pipe connecting groove 23 is formed in the outer wall of the supporting arm 22, the twenty nozzles 27 on the front end face and the rear end face of the spot spray cooling mechanism 24 can be independently controlled, a high-temperature area can be divided based on an image acquisition technology terminal, information is fed back to the pumping mechanism after the division is finished, the pumping mechanism is communicated with the cooling air tank, and cold air is conveyed to the corresponding nozzles 27 to be sprayed out, so that efficient cooling of the high-temperature area is achieved.

Referring to fig. 4, a coarse flow passage 604 and a tapered flow passage 605 are arranged between a first die cavity 606 and a guide ring 603, the coarse flow passage 604 is communicated with the tapered flow passage 605, one end of the coarse flow passage 604 is communicated with the guide ring 603, the tip of the tapered flow passage 605 is communicated with the first die cavity 606, and after die casting is completed, one corners of four thin-wall aluminum alloy die castings are connected with a casting of the guide ring 603 through the tapered flow passage 605 and the coarse flow passage 604, so that the pneumatic four-jaw chuck 35 can conveniently perform blanking on the four thin-wall aluminum alloy die castings at the same time.

Referring to fig. 3, clamping blocks 40 are arranged around the rear ends of the movable mold base 7 and the fixed mold base 6, strong magnetic plates 41 are arranged on the outer walls of the clamping blocks 40, clamping grooves 39 are arranged around the front ends of the movable mold positioning plate 8 and the fixed mold positioning plate 36, and the specification and the shape of the thin-wall aluminum alloy die casting piece depend on the shapes of mold cavities in the movable mold base 7 and the fixed mold base 6, so that the movable mold base 7 and the fixed mold base 6 are of detachable structures and can be replaced and used according to requirements, when the movable mold base 7 and the fixed mold base 6 are installed, the four clamping blocks 40 at the rear ends are clamped into the clamping grooves 39 at corresponding positions on the movable mold positioning plate 8 and the fixed mold positioning plate 36 for positioning, and the clamping blocks 41 on the outer walls of the clamping blocks 40 are adsorbed and fixed.

Referring to fig. 3, circular electromagnets 37 are respectively installed inside the peripheries of the movable mold positioning plate 8 and the fixed mold positioning plate 36, annular electromagnets 38 are respectively installed at the middle positions inside the movable mold positioning plate 8 and the fixed mold positioning plate 36, the annular electromagnets 38 at the middle positions of the movable mold positioning plate 8 and the fixed mold positioning plate 36 can play a role of reinforcement, so as to ensure the installation stability, when the movable mold base 7 and the fixed mold base 6 need to be disassembled, the middle annular electromagnets 38 can be closed, and the circular electromagnets 37 in the movable mold positioning plate 8 and the fixed mold positioning plate 36 are driven to generate a magnetic field which is homopolar with the strong magnetic plate 41, so that the movable mold base 7 and the fixed mold base 6 are separated by means of magnetic repulsion force, and the replacement is convenient,

referring to fig. 3, a crucible 43 is installed inside the material injection chamber 3, a heating mechanism 44 is installed at the bottom of the crucible 43, a gooseneck 45 is installed inside the crucible 43, a melt flow channel 46 is installed inside the gooseneck 45, one end of the melt flow channel 46 is communicated with the flow guide groove 42, and a liquid inlet 47 is installed at one side of the melt flow channel 46.

Referring to fig. 3, an injection cylinder 48 is arranged above the gooseneck 45, an injection punch 49 is mounted at the output end of the injection cylinder 48, when die casting is carried out, molten metal is placed in the crucible 43, the injection punch 49 is driven by the injection cylinder 48 to run, the injection punch 49 is enabled to move vertically downwards, and the molten metal in the gooseneck 45 is pushed into the die cavity.

Referring to fig. 1, a first support 15 is installed below one end of a ball screw guide rail 13, the lower end of the first support 15 is fixedly connected with a hydraulic cylinder positioning plate 9, a transverse support plate 16 is installed on the side of one end of the ball screw guide rail 13, a second support 17 is installed below one end of the transverse support plate 16, the lower end of the second support 17 is fixedly connected with a material injection chamber 3, a connecting support 52 is installed on the side of a conveying belt 50, a third support 51 is installed below the other end of the ball screw guide rail 13, one end of the third support 51 is in threaded connection with the connecting support 52 through a bolt, and the ball screw guide rail 13 is supported and fixed by three sets of support structures, so that the operation stability is ensured.

A thin-wall aluminum alloy die casting comprises the following components in percentage by mass:

6.5 to 13 percent of silicon;

2.5 to 5 percent of copper;

0.15 to 0.35 percent of magnesium;

0.8 percent of manganese;

the balance being aluminum;

in the proportion, silicon can improve the fluidity of the alloy, reduce the shrinkage rate, enable the injection process to be smoother, and improve the wear resistance of the alloy after molding to a certain extent, while the addition of copper plays a role in solid solution strengthening, so that the hardening strength of the thin-wall aluminum alloy is increased, the addition of a small amount of magnesium further strengthens the strength and reduces the specific gravity, and the addition of manganese plays a role in supplementary strengthening, so that the hot cracking tendency is reduced, and the corrosion resistance of the finished product is improved.

The working principle is as follows: when the die casting machine is used, aluminum alloy molten metal is placed in the crucible 43, the hydraulic cylinder 10 is driven to operate, the movable die holder 7 moves towards the fixed die holder 6 until the aluminum alloy molten metal and the fixed die holder are completely attached, the injection cylinder 48 drives the injection punch 49 to operate, the injection punch 49 vertically moves downwards to push the molten metal in the gooseneck 45 to enter the flow guide groove 42 and spread into the flow guide ring 603 and the four first die cavities 606 and the four second die cavities 701 along the peripheral flow guide channel 602, after the molten metal is cooled, the hydraulic cylinder 10 retracts to drive the movable die holder 7 to be separated from the fixed die holder 6, after the molten metal is cooled, the first stepping motor 14 drives the ball screw guide rail 13 to operate to move, the belt guide rail 19 on the sliding block 18 moves above the movable die holder 7 and the fixed die holder 6, the second stepping motor 20 drives the supporting arm 22 on the sliding table of the belt guide rail 19 to move downwards, and the grabbing mechanism 26 reaches the position of a die casting formed by the flow guide ring 603 in the center of the fixed die holder 6, then the belt transmission mechanism 30 drives the pneumatic four-jaw chuck 35 to rotate, and faces to the four jaw grooves 607 around the guide ring 603, the air cylinder 32 drives the pneumatic four-jaw chuck 35 to extend out to clamp the guide ring 603 die casting, and takes it out from the fixed die base 6, because the periphery of the guide ring 603 die casting is connected with four thin-wall aluminum alloy die casting through four thick runners 604 and tapered runners 605, four workpieces can be taken down at one time, after taking down, the ball screw guide rail 13 operates to drive the die casting group to move above the conveying belt 50, the belt transmission mechanism 30 drives the pneumatic four-jaw chuck 35 to deflect downwards, the objects are flatly placed on the conveying belt 50, then the ball screw guide rail 13 drives the supporting arm 22 assembly to move between the movable die base 7 and the fixed die base 6 again, after adjusting the height, the temperature in the die base 6 and the movable die base 7 is detected by the temperature detection probes 28 at the front end and the rear end respectively, and feeding back temperature information to the terminal, dividing the high-temperature area based on the image acquisition technology terminal, feeding back the information to the pumping mechanism after the division is finished, communicating the cooling gas tank by the pumping mechanism, conveying cold gas to the nozzles 27 at the corresponding positions on the spot spray cooling mechanism 24 for spraying, realizing the fixed-point efficient cooling of the high-temperature area, conveniently and quickly carrying out the next die-casting work, and repeating the steps after the movable die base 7 is cooled to the fixed die base 6, thereby realizing the continuous processing and forming of the aluminum alloy die-casting piece.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (13)

1. The utility model provides a die-casting device of thin wall aluminum alloy die casting, includes frame (1), the lower surface mounting of frame (1) expands bottom plate (2) outward, annotate material room (3) are installed to the top of frame (1) one end, room door (4) are installed to the front end of annotating material room (3), one side of room door (4) is connected with notes material room (3) locking through bounce lock (5), the opposite side of room door (4) is passed through the hinge and is connected with notes material room (3) rotation, cover half locating plate (36) are installed to one side of annotating material room (3), the front end of cover half locating plate (36) is provided with cover half seat (6), pneumatic cylinder locating plate (9) is installed to the top in the frame (1) other end, pneumatic cylinder (10) are installed to the rear end of pneumatic cylinder locating plate (9), the output of pneumatic cylinder (10) runs through and extends to the front end of pneumatic cylinder (9), a movable die positioning plate (8) is installed, a movable die holder (7) is arranged at the front end of the movable die positioning plate (8), guide pillars (11) are arranged on two sides below the hydraulic cylinder (10), one end of each guide pillar (11) penetrates through and extends into the hydraulic cylinder positioning plate (9) and is fixedly connected with the movable die positioning plate (8), and a linear bearing (12) is installed at the connecting position of each guide pillar (11) and the corresponding hydraulic cylinder positioning plate (9);

the method is characterized in that: further comprising:

the guide groove (42) is arranged in the middle of the inside of the fixed die holder (6), the front end of the guide groove (42) is provided with a central guide hole (601), a guide ring (603) is arranged outside the central guide hole (601), and four guide channels (602) communicated with each other are arranged between the guide ring (603) and the central guide hole (601);

the first die cavities (606) are arranged on the periphery of the end face of the fixed die holder (6), and the number of the first die cavities (606) is four;

the second die cavities (701) are arranged on the periphery of the end face of the movable die holder (7), and four second die cavities (701) are arranged;

the hydraulic cylinder positioning device comprises a ball screw guide rail (13) arranged above a hydraulic cylinder positioning plate (9), wherein a sliding block (18) is connected to the ball screw guide rail (13) in a transmission manner, a belt guide rail (19) is installed on the sliding block (18), and a sliding table (21) is connected to the belt guide rail (19) in a transmission manner;

the supporting arm (22) is installed on the sliding table (21), a point spraying cooling mechanism (24) is installed at the lower end of the supporting arm (22), a temperature measuring mechanism (25) is installed at the lower end of the point spraying cooling mechanism (24), and a grabbing mechanism (26) is installed at the lower end of the temperature measuring mechanism (25);

a conveyor belt (50) disposed at one side of the frame (1).

2. A die casting apparatus for a thin-walled aluminum alloy die casting according to claim 1, wherein: the guide ring (603) is provided with four clamping jaw grooves (607) on the periphery, the front end of the movable die holder (7) is provided with four filling blocks (702) in a winding manner, the four filling blocks (702) are provided, and the four filling blocks (702) are integrally formed with the movable die holder (7).

3. The die casting apparatus for a thin-walled aluminum alloy die casting according to claim 1, wherein: first step motor (14) are installed to the one end of ball screw guide rail (13), and the output of first step motor (14) is connected with ball screw guide rail (13) transmission, second step motor (20) are installed to the side of the one end of belt guide rail (19), and second step motor (20) are connected with belt guide rail (19) transmission.

4. The die casting apparatus for a thin-walled aluminum alloy die casting according to claim 1, wherein: snatch mechanism (26) and include connecting seat (29), rotate seat (31), cylinder (32), pneumatic seat (33) and pneumatic four-jaw chuck (35), the lower extreme fixed connection of connecting seat (29) and temperature measurement mechanism (25), it rotates through pivot and connecting seat (29) to rotate seat (31) and is connected, the cylinder (32) are embedded to be set up in the inside of rotating seat (31), install on the output of cylinder (32) pneumatic seat (33), the front end of pneumatic seat (33) is provided with air inlet (34), the lower surface at pneumatic seat (33) is installed in pneumatic four-jaw chuck (35).

5. A die-casting apparatus for a thin-walled aluminum alloy die-cast member as claimed in claim 4, wherein: the side of connecting seat (29) is installed belt drive mechanism (30), and the one end and the pivot transmission of belt drive mechanism (30) are connected, and step motor is installed to the other end of belt drive mechanism (30).

6. A die casting apparatus for a thin-walled aluminum alloy die casting according to claim 1, wherein: and the front end and the rear end of the temperature measuring mechanism (25) are both provided with temperature detecting probes (28).

7. A die casting apparatus for a thin-walled aluminum alloy die casting according to claim 1, wherein: twenty nozzles (27) are arranged on the front end face and the rear end face of the point spraying cooling mechanism (24), and a pipe connecting groove (23) is formed in the outer wall of the supporting arm (22).

8. A die casting apparatus for a thin-walled aluminum alloy die casting according to claim 1, wherein: a coarse flow channel (604) and a conical flow channel (605) are arranged between the first die cavity (606) and the flow guide ring (603), the coarse flow channel (604) is communicated with the conical flow channel (605), one end of the coarse flow channel (604) is communicated with the flow guide ring (603), and the tip of the conical flow channel (605) is communicated with the first die cavity (606).

9. A die casting apparatus for a thin-walled aluminum alloy die casting according to claim 1, wherein: all be provided with card position piece (40) around movable mould seat (7) and cover half seat (6) rear end, install strong magnetic plate (41) on the outer wall of card position piece (40), all be provided with draw-in groove (39) around movable mould locating plate (8) and cover half locating plate (36) front end.

10. A die casting apparatus for a thin-walled aluminum alloy die casting according to claim 9, wherein: circular electro-magnet (37) are all installed to inside all around of movable mould locating plate (8) and cover half locating plate (36), annular electro-magnet (38) are all installed to inside intermediate position department of movable mould locating plate (8) and cover half locating plate (36).

11. A die casting apparatus for a thin-walled aluminum alloy die casting according to claim 1, wherein: the internally mounted of notes material room (3) has crucible (43), heating mechanism (44) are installed to the bottom of crucible (43), the internally mounted of crucible (43) has gooseneck (45), the inside of gooseneck (45) is provided with melt runner (46), and the one end and guiding gutter (42) of melt runner (46) are linked together, one side of melt runner (46) is provided with inlet (47).

12. A die casting apparatus for thin-walled aluminum alloy die castings according to claim 11, wherein: an injection cylinder (48) is arranged above the gooseneck (45), and an injection punch head (49) is mounted on the output end of the injection cylinder (48).

13. A die casting apparatus for thin-walled aluminum alloy die casting according to claim 12, wherein: first support (15) are installed to the below of ball screw guide (13) one end, and the lower extreme and pneumatic cylinder locating plate (9) fixed connection of first support (15), horizontal extension board (16) are installed to the side of ball screw guide (13) one end, second support (17) are installed to the below of horizontal extension board (16) one end, and the lower extreme of second support (17) with annotate material room (3) fixed connection, connection support (52) are installed to the side of conveyer belt (50), third support (51) are installed to the below of the ball screw guide (13) other end, and the one end of third support (51) passes through bolt and connection support (52) threaded connection.

Images