CN117161344A - Automobile aluminum alloy bracket die casting device with scrap removing structure - Google Patents

Abstract

The application relates to the technical field of die castings, in particular to an automobile aluminum alloy bracket die casting device with a scrap removing structure, which comprises a workbench, wherein a die casting device used for die casting and forming the automobile aluminum alloy bracket is arranged on the workbench, one side of the workbench, which is far away from the die casting device, is provided with a scrap removing device used for removing impurities or scraps on the surface of the die casting device, the die casting device is provided with a dust blowing mechanism used for blowing dust on the surface of die casting equipment, and the dust blowing mechanism can further improve the effect that the scraps still remain on the surface and the concave part of the die casting device after the scrap removing device performs scrap removing treatment on the die casting device, so that the influence of the die casting device during die casting and forming the automobile aluminum alloy bracket can be further improved, and the overall working efficiency and the practicability are improved.

Description

Automobile aluminum alloy bracket die casting device with scrap removing structure

Technical Field

The application relates to the technical field of die castings, in particular to an automobile aluminum alloy bracket die casting device with a scrap removing structure.

Background

In the automobile parts, an aluminum alloy bracket is indispensable, one of the automobile parts is usually manufactured by using a die casting method in the production process, the quality of the automobile aluminum alloy bracket is directly determined by the die casting method, and in the normal case, a large amount of substances such as scraps can be remained on the surface of a die casting die under the condition of multiple use of the die casting die, so that the formed automobile aluminum alloy bracket has a defect at the edge.

Chinese patent CN216502311U discloses a sweeps cleaning device for die casting processing, the on-line screen storage device comprises a base, collect the bits groove has been seted up to the base top surface, collect the bits groove top surface and seted up the chip removal mouth, the middle part fixedly connected with round platform of album bits groove inner wall bottom surface, round platform top surface fixedly connected with support column, support column top surface fixedly connected with backup pad, the middle part fixedly connected with motor of round platform top surface, the output fixedly connected with pivot of motor, the bearing is installed in the pivot surface cup joint. The rotary table is driven to rotate, the connecting column is driven to move and the fixing column is driven to move, so that the chip cleaning plate moves, scraps falling into the chip collecting groove are cleaned, the scraps are cleaned into the chip discharging opening, and the scraps are discharged through the chip discharging machine.

The prior art solutions described above have the following drawbacks: the above-mentioned scheme describes the processing of sweeps through scraping of clear bits board, and just strike off the clearance with clear bits board alone, and the surface of die casting device still can remain partial showy sweeps, still can still influence the moulded piece of die casting like this.

Disclosure of Invention

To above-mentioned problem provides an automobile aluminum alloy support die-casting device with clear bits structure, can further improve clear bits device through blowing dirt mechanism and handle the back to die-casting device clear bits, the surface of die-casting device and recess still can remaining part float piece, the influence of die-casting device when the shaping of automobile aluminum alloy support is formed into in the die-casting that like this can be further promoted to promote holistic work efficiency and practicality.

In order to solve the problems in the prior art, the application provides an automobile aluminum alloy bracket die-casting device with a scrap removing structure, which comprises a workbench, wherein the workbench is provided with a die-casting device for die-casting the automobile aluminum alloy bracket, one side of the workbench, which is far away from the die-casting device, is provided with a scrap removing device for removing impurities or scraps on the surface of the die-casting device, and the die-casting device is provided with a dust blowing mechanism for blowing dust on the surface of die-casting equipment.

Preferably, the dust blowing mechanism comprises a fixed frame, a conveying pipeline and an air nozzle;

the fixing frame is provided with a die casting device;

the conveying pipeline is horizontal and is provided with a fixing frame through the cooperation of the fixing piece and the first bolt, and both sides of the conveying pipeline are respectively provided with an air inlet capable of air intake;

the air nozzle is arranged horizontally and linearly and is provided with a side edge of the conveying pipeline, the air nozzle is provided with an air outlet pipe capable of discharging air, and the air outlet of the air outlet pipe faces the die casting device.

Preferably, the chip removing device comprises a first rotating motor, a base, a rotating shaft and a mounting rod;

the base is arranged on a workbench at one side far away from the die casting device;

the first rotating motor is horizontally arranged on the base, and the output shaft of the first rotating motor extends to one side of the die casting device;

the same axis of the rotating shaft is connected with an output shaft of the first rotating motor through a coupler;

the installation pole passes through coupling assembling and is connected the setting with the pivot, and one side that the installation pole is close to die casting device is equipped with the rotatory brush head that is used for clear bits.

Preferably, the connection assembly comprises a mounting box, a plug block and an upper cover plate;

the mounting box is provided with a rotating shaft far away from one side of the first rotating motor, and one side of the mounting box far away from the rotating shaft is provided with an arc-shaped groove for placing a mounting rod;

the inserting block is inserted into the mounting box, and one side of the inserting block is connected with the mounting rod;

the upper cover plate can rotate through the hinge and locate the upper portion of installing the case, and the bottom of upper cover plate and the top butt setting of plug-in connection piece, the bottom of upper cover plate be equipped with can with the butt piece of installation pole lateral surface butt, one side that the hinge was kept away from to the upper cover plate still is equipped with the stopper, the stopper passes through the fixed setting of location portion and installing the case.

Preferably, the positioning part comprises an installation box, an abutting column, a first limiting ring, a second limiting ring and a spring;

the mounting boxes are provided with a pair of mutually symmetrical limiting blocks;

the abutting column penetrates through the mounting box and the insertion of the limiting block and is arranged on the mounting box, and the mounting box is provided with an insertion slot for the abutting column to be inserted;

the first limiting ring is sleeved on the abutting column on the same axis, and the first limiting ring can be abutted with the surface of the limiting block;

the spring is sleeved on the abutting column on the same axis, one side of the spring is abutted with the first limiting ring, and the other side of the spring is abutted with the inner wall surface of the mounting box;

one side of the second limiting ring, which is far away from the first limiting ring, is provided with an abutting column, the second limiting ring can be arranged in an abutting manner with the outer wall surface of the mounting box, and one side of the abutting column, which is close to the second limiting ring, is also provided with a holding part convenient to hold

Preferably, the base is provided with a moving assembly capable of driving the first rotating motor to move along the vertical direction of the die casting device, and the moving assembly comprises a fixed plate, a guide rod, a rack, a second rotating motor and a mounting seat;

the fixed plate can be movably arranged at the bottom of the base, and two sides of the fixed plate are symmetrically provided with limiting plates;

the guide rod penetrates through the fixed plate and extends towards two ends respectively, and two ends of the guide rod are respectively in abutting connection with the two limiting plates on the fixed plate;

the rack is movably arranged on the fixed plate, the top of the rack is in butt joint with the bottom of the base, and the fixed plate is provided with a guide groove for the rack to move;

the mounting seat is provided with the bottom of the fixing plate;

the second rotating motor is horizontally arranged on the mounting frame and is in meshed connection with the rack through an external gear on an output shaft of the second rotating motor.

Preferably, the bottom of the fixed plate is provided with a lifting component capable of driving the first rotating motor to lift, and the lifting component comprises a mounting plate, a first extending and lowering cylinder and a connecting block;

the mounting plate is provided with a workbench;

at least one first extending and lowering cylinder is arranged on the mounting plate through the fixing part;

the quantity of connecting blocks is the same and the one-to-one with the quantity of first cylinder that stretches down locate on the first cylinder that stretches down, and the top of connecting block is connected with the bottom of fixed plate and is set up.

Preferably, the workbench is provided with a sliding component capable of driving the first rotating motor to be perpendicular to the moving direction of the rack, the sliding component comprises an electric sliding table, the electric sliding table is perpendicular to the mounting plate and is arranged on the workbench, and the upper part of the electric sliding table is in butt joint with the bottom of the mounting plate.

Preferably, the die casting device includes an upper die and a lower die;

the lower die is arranged on the workbench and is in abutting connection with the workbench through the supporting part;

the upper die is horizontally arranged above the lower die.

Preferably, the workbench is also provided with a driving part for driving the upper die to lift, and the driving part comprises a mounting frame, a second stretching and lowering cylinder and a connecting sheet;

the mounting frame is arranged on the workbench;

at least one second extending and lowering cylinder is arranged at the top of the mounting frame, and the output end of the second extending and lowering cylinder extends downwards through the top of the mounting frame;

the number of the connecting pieces is the same as that of the second stretching and lowering cylinders and the connecting pieces are arranged on the output ends of the second stretching and lowering cylinders in a one-to-one correspondence mode, and the connecting pieces are connected with the upper die through second bolts.

Compared with the prior art, the application has the beneficial effects that: according to the application, the dust blowing mechanism can further improve the influence of the die casting device on the molding of the aluminum alloy bracket of the automobile by the dust blowing mechanism, so that the overall working efficiency and the practicability are improved.

Drawings

Fig. 1 is a schematic perspective view of an automobile aluminum alloy bracket die casting device with a scrap removing structure.

Fig. 2 is a schematic diagram of a second perspective structure of an automobile aluminum alloy bracket die casting device with a scrap removing structure.

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

Fig. 4 is a schematic diagram of a part of a perspective structure of an automobile aluminum alloy bracket die casting device with a scrap removing structure.

Fig. 5 is a schematic diagram of a part of a schematic diagram of a die casting device with a scrap removing structure for an aluminum alloy bracket of an automobile.

Fig. 6 is a schematic diagram III of a partial perspective view of an automobile aluminum alloy bracket die casting device with a scrap removing structure.

Fig. 7 is a partial perspective sectional view of an aluminum alloy bracket die casting device for an automobile with a scrap removing structure.

Fig. 8 is a schematic diagram of a part of a three-dimensional structure of an automobile aluminum alloy bracket die casting device with a scrap removing structure.

Fig. 9 is an enlarged schematic view of the present application at B in fig. 8.

Fig. 10 is an enlarged schematic view of the present application at C in fig. 8.

The reference numerals in the figures are: 1-a workbench; 2-die casting device; 21-upper die; 22-lower die; 23-a support; 24-a driving part; 241-mounting rack; 242-a second extending and lowering cylinder; 243-connecting pieces; 244-a second bolt; 3-a chip removing device; 31-a first rotating electrical machine; 32-a base; 33-coupling; 34-rotating shaft; 35-mounting a rod; 36-rotating the brush head; a 37-connection assembly; 371-mounting a box; 3711-arc grooves; 3712-slots; 372-plug block; 373-upper cover plate; 374-abutment blocks; 375-limiting block; 376-hinge; 377-positioning portion; 3771-mounting box; 3774-abutment post; 3775-a first stop collar; 3776-spring; 3777-a second stop collar; 3778-grip; 38-a moving assembly; 381-fixing plate; 3811—guide grooves; 382-limiting plate; 383-guide rods; 384-racks; 385-a second rotating electrical machine; 386-external gear; 387-mount; 39-a lifting assembly; 391-mounting plate; 392-a first extension and lowering cylinder; 393-connecting block; 394-a fixing portion; 4-a sliding assembly; 41-an electric sliding table; 4-dust blowing mechanism; 41-a conveying pipeline; 411-air inlet; 42-air nozzles; 43-an air outlet pipe; 44-a fixing frame; 45-fixing sheets; 46-first bolt.

Detailed Description

The application will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the application and the specific objects and functions achieved.

Referring to fig. 1 to 10, an automobile aluminum alloy bracket die casting device with a scrap removing structure comprises a workbench 1, wherein a die casting device 2 for die casting the automobile aluminum alloy bracket is arranged on the workbench 1, one side, far away from the die casting device 2, of the workbench 1 is provided with a scrap removing device 3 for removing impurities or scraps on the surface of the die casting device 2, and the die casting device 2 is provided with a dust blowing mechanism 4 for blowing dust to the surface of the die casting device 2.

When the staff needs to carry out the clear bits to die casting device 2 and handle, firstly install die casting device 2 on workstation 1, then keep away from on workstation 1 of one side of die casting device 2 and install clear bits device 3 on die casting device 2 again, then will blow dust mechanism 4, after the die casting device 2 is started to die casting device 2 first die casting shaping car aluminum alloy support, then take out car aluminum alloy support from die casting device 2, because of die casting device 2 behind long-time work, the surface of die casting device 2 can remain a large amount of impurity or piece, then can influence the car aluminum alloy support of die casting device 2 at the back, the staff just can start clear bits device 3 and carry out clear bits to die casting device 2's surface like this, because of clear bits device 3 still can leave by clear bits after the recess of die casting device 2 to die casting device 2's surface or concave part, can further improve clear bits device 3 to die casting device 2 clear bits after the work for a long time, can further improve the die casting device 2's surface and the die casting device can lift the whole and can further be like this the shaping of the device of the float and can be carried out in the die casting device 2 when the whole can promote the shaping efficiency of the aluminium alloy.

Referring to fig. 2 and 3, the dust blowing mechanism 4 includes a fixing frame 44, a conveying pipe 41, and an air nozzle 42;

the fixing frame 44 is arranged on the die casting device 2;

the conveying pipeline 41 is horizontal, is provided with a fixing frame 44 through the cooperation of a fixing piece 45 and a first bolt 46, and is respectively provided with an air inlet 411 capable of introducing air at two sides of the conveying pipeline 41;

the air nozzle 42 is arranged horizontally and linearly and is provided with the side edge of the conveying pipeline 41, the air nozzle 42 is provided with an air outlet pipe 43 which can give off air, and the air outlet of the air outlet pipe 43 faces the die casting device 2.

When the dust blowing mechanism 4 is needed, the fixing frame 44 is firstly fixed on the die-casting device 2, then the conveying pipeline 41 is fixed on the fixing frame 44 through the fixing piece 45 and the first bolt 46, then the air outlet pipe 43 is arranged on the air nozzle 42, after the air outlet pipe is arranged, the air nozzle 42 is arranged on the conveying pipeline 41, then the direction of the air outlet pipe 43 towards the die-casting device 2 is adjusted, then an external air pump is connected with the air inlet 411 on the conveying pipeline 41 by a worker, and after the air is introduced into the conveying pipeline 41, the residual debris impurities are cleaned by air injection towards the die-casting device 2 through the air nozzle 42 and the air outlet pipe 43.

Referring to fig. 5, the chip removing apparatus 3 includes a first rotary motor 31, a base 32, a rotation shaft 34, and a mounting rod 35;

the base 32 is arranged on the workbench 1 at the side far away from the die casting device 2;

the first rotating electric machine 31 is horizontally arranged on the base 32, and the output shaft of the first rotating electric machine 31 extends to one side of the die casting device 2;

the shaft 34 is connected with the output shaft of the first rotating motor 31 through a coupling 33 on the same axis;

the mounting rod 35 is connected with the rotating shaft 34 through the connecting component 37, and a rotary brush head 36 for cleaning scraps is arranged on one side of the mounting rod 35 close to the die casting device 2.

When the die casting device 2 needs to be cleaned, the first rotating motor 31 is firstly arranged on the base 32, then the rotating shaft 34 is fixedly welded at one end of the coupler 33, the other end of the coupler 33 is fixedly welded with the output shaft of the first rotating motor 31, then the rotating brush head 36 is fixedly connected with the mounting rod 35, then the mounting rod 35 is connected with the rotating shaft 34 through the connecting component 37, after the die casting device 2 is assembled, a worker can start the first rotating motor 31 on the base 32, and when the first rotating motor 31 rotates, the coupler 33 on the output shaft is driven to rotate together, the rotating shaft 34 is driven to rotate together because the rotating shaft 34 is fixedly connected with the coupler 33, then the mounting rod 35 and the rotating brush head 36 on the mounting rod 35 are driven to rotate through the connecting component 37, and then the die casting device 2 is cleaned of the scraps through the rotating brush head 36.

Referring to fig. 5 and 6, the connection assembly 37 includes a mounting case 371, a plug 372, and an upper cover 373;

the installation case 371 is provided with a rotating shaft 34 far away from one side of the first rotating motor 31, and one side of the installation case 371 far away from the rotating shaft 34 is provided with an arc-shaped groove 3711 for placing the installation rod 35;

the plug-in block 372 is inserted into the mounting box 371, and one side of the plug-in block 372 is connected with the mounting rod 35;

the upper cover plate 373 is located the upper portion of installing case 371 through hinge 376 rotatable, and the bottom of upper cover plate 373 and the top butt setting of grafting piece 372, and the bottom of upper cover plate 373 is equipped with the butt piece 374 that can with the outside face butt of installation pole 35, and one side that upper cover plate 373 kept away from hinge 376 still is equipped with stopper 375, and stopper 375 passes through locating part 377 and the fixed setting of installing case 371.

When the staff needs to connect the installation pole 35 with the pivot 34 and set up, first with install bin 371 fixed welding on pivot 34, then with grafting piece 372 fixed welding on install pole 35, then install an upper cover plate 373 on the top of install bin 371 again, then with hinge 376 fixed welding with upper cover plate 373 and install bin 371 respectively, then with butt piece 374 and stopper 375 fixed welding together with upper cover plate 373 respectively, after all parts are assembled, the staff overturns upper cover plate 373, then inserts grafting piece 372 in the inside of install bin 371, then close upper cover plate 373, then make upper cover plate 373 and install bin 371 fixed through the location on upper stopper 375, thereby prevent that the installation pole 35 that is connected with grafting piece 372 from dropping, so when rotatory brush head 36 can harm under long-time use, rotatory brush head 36 on the faster grafting piece 372 of being convenient for that can be quick.

Referring to fig. 6 and 7, the positioning portion 377 includes a mounting box 3771, an abutment post 3774, a first stopper ring 3775, a second stopper ring 3777, and a spring 3776;

the mounting box 3771 is provided with a pair of mutually symmetrical limiting blocks 375;

the abutting column 3774 penetrates through the mounting box 3771 and the limiting block 375 and is inserted into the mounting box 371, and a slot 3712 for the abutting column 3774 to be inserted into is formed in the mounting box 371;

the first limiting ring 3775 is sleeved on the abutting column 3774 on the same axis, and the first limiting ring 3775 can be abutted with the surface of the limiting block 375;

the spring 3776 is sleeved on the abutting column 3774 on the same axis, one side of the spring 3776 is abutted to the first limiting ring 3775, and the other side is abutted to the inner wall surface of the mounting box 3771;

one side of the second spacing ring 3777 away from the first spacing ring 3775 is provided with an abutting post 3774, and the second spacing ring 3777 can be abutted with the outer wall surface of the mounting box 3771, and one side of the abutting post 3774 close to the second spacing ring 3777 is also provided with a holding part 3778 which is convenient for holding.

When the upper cover plate 373 is required to be fixed on the mounting box 371, a worker holds the holding part 3778 of the abutting column 3774 by hand and then pulls the abutting column 3774 upwards, when the upper cover plate 373 is completely abutted to the top of the mounting box 371, then the holding part 3778 is manually loosened, the abutting column 3774 is enabled to be downwards moved and inserted into the slot 3712 of the mounting box 371, the moving direction of the abutting column 3774 is ensured because the mounting box 3771 is fixedly arranged on the limiting block 375, the abutting column 3774 can be prevented from sliding off the mounting box 3771 through the limiting ring, then the abutting column 3774 can be automatically locked through the spring 3776, and therefore when the upper cover plate 373 is required to be far away from the mounting box 371, the worker can directly hold the holding part 3778 of the abutting column 3774 to be pulled upwards again, the abutting column 3774 is enabled to be far away from the slot 3712 on the mounting box 371, then the upper cover plate can be turned over, and the convenience of the operation of the worker is improved.

Referring to fig. 8 and 9, a moving assembly 38 capable of driving the first rotary motor 31 to move in a vertical direction of the die casting device 2 is provided on the base 32, and the moving assembly 38 includes a fixed plate 381, a guide bar 383, a rack 384, a second rotary motor 385 and a mount 387;

the fixed plate 381 is movably arranged at the bottom of the base 32, and two sides of the fixed plate 381 are symmetrically provided with limiting plates 382;

the guide rod 383 extends to two ends respectively through the fixed plate 381, and two ends of the guide rod 383 are respectively in abutting connection with two limiting plates 382 on the fixed plate 381;

the rack 384 is movably arranged on the fixed plate 381, the top of the rack 384 is in abutting connection with the bottom of the base 32, and the fixed plate 381 is provided with a guide groove 3811 for the rack 384 to move;

the mounting seat 387 is provided with the bottom of the fixing plate 381;

the second rotary motor 385 is horizontally arranged on the mounting frame 241, and is in meshed connection with the rack 384 through an external gear 386 on the output shaft of the second rotary motor 385.

When the second rotating motor 385 is required to be driven to move, the second rotating motor 385 on the mounting seat 387 is driven to rotate at first, so that the external gear 386 on the output shaft of the second rotating motor 385 is driven to rotate, the rack 384 is meshed with the external gear 386, so that the rack 384 is driven to reciprocate, the rack 384 can only move in the guide groove 3811 of the fixing plate 381, so that the moving direction of the rack 384 is ensured, the base 32 fixedly connected with the rack 384 is driven to move, the first rotating motor 31 is arranged on the base 32, the horizontal direction movement of the first rotating motor 31 is realized, meanwhile, the guide rod 383 on the fixing plate 381 has a guiding effect on the moving direction of the base 32, and the limiting plate 382 on the fixing plate 381 also has a limiting effect on the base 32, so that the moving direction of the base 32 can be ensured, and meanwhile, the base 32 can be prevented from falling off due to excessive movement.

Referring to fig. 8 and 10, a lifting assembly 39 capable of driving the first rotating motor 31 to lift is provided at the bottom of the fixing plate 381, and the lifting assembly 39 includes a mounting plate 391, a first extension and lowering cylinder 392 and a connection block 393;

the mounting plate 391 is provided on the table 1;

at least one first extending and lowering cylinder 392, and the first extending and lowering cylinder 392 is arranged on the mounting plate 391 through the fixing part 394;

the number of the connecting blocks 393 is the same as that of the first stretching and descending cylinders 392 and is arranged on the first stretching and descending cylinders 392 in a one-to-one correspondence mode, and the top of the connecting blocks 393 is connected with the bottom of the fixing plate 381.

When the first rotating motor 31 needs to be driven to lift, a worker can directly start the first extending and descending cylinder 392 on the mounting plate 391, when the first extending and descending cylinder 392 lifts, the connecting block 393 on the first extending and descending cylinder 392 can be driven to move, the fixing plate 381 fixedly connected with the connecting block 393 is driven to move up and down, the first rotating motor 31 on the fixing plate 381 is accordingly driven to move up and down, the die casting device 2 is prevented from being higher, scraps can be removed from top to bottom of the die casting device 2, and practicability is improved.

Referring to fig. 8, a sliding assembly 4 capable of driving the first rotating motor 31 to move in a direction perpendicular to the rack 384 is provided on the workbench 1, the sliding assembly 4 includes an electric sliding table, the electric sliding table is perpendicular to the mounting plate 391 and is provided on the workbench 1, and the upper part of the electric sliding table is arranged in abutment with the bottom of the mounting plate 391.

When the first rotating motor 31 needs to be driven to move horizontally in the direction parallel to the die casting device 2, a worker can directly start the electric sliding table on the workbench 1, so that the mounting plate 391 on the electric sliding table is driven to move, and the first rotating motor 31 is in a linkage state with the mounting plate 391, so that the first rotating motor 31 can be driven to move together, so that chip cleaning can be carried out on multiple planes of the die casting device 2, and the practicability of the chip cleaning device 3 is further improved.

Referring to fig. 2, the die casting device 2 includes an upper die 21 and a lower die 22;

the lower die 22 is arranged on the workbench 1, and the lower die 22 is in abutting connection with the workbench 1 through the supporting part 23;

the upper die 21 is horizontally disposed above the lower die 22.

When a worker needs to die-cast an aluminum alloy bracket for an automobile, first, the lower die 22 is mounted on the workbench 1 through the supporting part 23, then the upper die 21 is placed above the lower die 22, then the inside of the upper die 21 and the inside of the lower die 22 are filled with a die-casting material, and finally the aluminum alloy bracket for the automobile is formed through die casting of the upper die 21 and the lower die 22.

Referring to fig. 2 and 4, the workbench 1 is further provided with a driving part 24 for driving the upper die 21 to lift, and the driving part 24 comprises a mounting frame 241, a second stretching and lowering cylinder 242 and a connecting sheet 243;

the mounting frame 241 is arranged on the workbench 1;

at least one second extending and lowering cylinder 242 is arranged at the top of the mounting frame 241, and the output end of the second extending and lowering cylinder 242 extends downwards through the top of the mounting frame 241;

the number of the connecting pieces 243 is the same as that of the second stretching and lowering cylinders 242, and the connecting pieces 243 are arranged on the output ends of the second stretching and lowering cylinders 242 in a one-to-one correspondence mode, and the connecting pieces 243 are connected with the upper die 21 through second bolts 244.

When the upper die 21 needs to be driven to lift, the second stretching and lowering cylinder 242 on the mounting frame 241 is directly started, so that the connecting sheet 243 on the output end of the second stretching and lowering cylinder 242 is driven to move, the connecting sheet 243 is fixedly connected with the upper die 21 through the second bolt 244, so that the upper die 21 is driven to move together, the weight of the upper die 21 and the die casting temperature are very high, and the manual die casting efficiency can be greatly reduced through the second stretching and lowering cylinder 242.

The foregoing examples merely illustrate one or more embodiments of the application, which are described in greater detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of the application should be assessed as that of the appended claims.

Claims (10)

1. The utility model provides an automobile aluminum alloy support die-casting device with clear bits structure, includes workstation (1), its characterized in that is equipped with one on workstation (1) and is used for die casting device (2) that die casting formed into automobile aluminum alloy support, and one side that keeps away from die casting device (2) on workstation (1) is equipped with clear bits device (3) that can be used for getting rid of die casting device (2) surface impurity or piece, is equipped with on die casting device (2) and can blow dirt mechanism (4) that blows dirt to die casting device (2) surface and handle.

2. An automotive aluminum alloy bracket die casting device with a scrap removing structure as claimed in claim 1, wherein the dust blowing mechanism (4) comprises a fixing frame (44), a conveying pipeline (41) and an air nozzle (42);

the fixing frame (44) is provided with a die casting device (2);

the conveying pipeline (41) is horizontal, a fixing frame (44) is arranged through the cooperation of the fixing piece (45) and the first bolt (46), and air inlets (411) capable of allowing air to enter are respectively formed in two sides of the conveying pipeline (41);

the air nozzle (42) is horizontally and linearly arranged and provided with the side edge of the conveying pipeline (41), the air nozzle (42) is provided with an air outlet pipe (43) capable of discharging air, and the air outlet of the air outlet pipe (43) faces the die casting device (2).

3. An automotive aluminum alloy bracket die casting device with a scrap removing structure according to claim 1, characterized in that the scrap removing device (3) comprises a first rotating electric machine (31), a base (32), a rotating shaft (34) and a mounting rod (35);

the base (32) is far away from the workbench (1) on one side of the die casting device (2);

the first rotating motor (31) is horizontally arranged on the base (32), and the output shaft of the first rotating motor (31) extends to one side of the die casting device (2);

the rotating shaft (34) is connected with the output shaft of the first rotating motor (31) through a coupler (33) on the same axis;

the installation rod (35) is connected with the rotating shaft (34) through the connecting component (37), and one side of the installation rod (35) close to the die casting device (2) is provided with a rotary brush head (36) for cleaning scraps.

4. A die casting device for an automotive aluminum alloy bracket with a scrap removing structure according to claim 3, wherein the connecting assembly (37) comprises a mounting box (371), a plug block (372) and an upper cover plate (373);

the mounting box (371) is provided with a rotating shaft (34) far away from one side of the first rotating motor (31), and an arc-shaped groove (3711) for placing a mounting rod (35) is formed in one side of the mounting box (371) far away from the rotating shaft (34);

the plug-in block (372) is inserted into the mounting box (371), and one side of the plug-in block (372) is connected with the mounting rod (35);

the upper cover plate (373) can rotate through hinge (376) and locate the upper portion of install bin (371), and the bottom of upper cover plate (373) and the top butt setting of grafting piece (372), the bottom of upper cover plate (373) is equipped with butt piece (374) that can with installation pole (35) lateral surface butt, and one side that hinge (376) was kept away from to upper cover plate (373) still is equipped with stopper (375), and stopper (375) are fixed through locating part (377) and install bin (371) and are set up.

5. The die casting device for the automobile aluminum alloy bracket with the scrap removing structure according to claim 4, wherein the positioning part (377) comprises a mounting box (3771), an abutting column (3774), a first limiting ring (3775), a second limiting ring (3777) and a spring (3776);

the mounting box (3771) is provided with a pair of limit blocks (375) which are symmetrically arranged;

the abutting column (3774) penetrates through the mounting box (3771) and the limiting block (375) and is inserted into the mounting box (371), and a slot (3712) for the abutting column (3774) to be inserted into is formed in the mounting box (371);

the first limiting ring (3775) is sleeved on the abutting column (3774) on the same axis, and the first limiting ring (3775) can be abutted to the surface of the limiting block (375);

the spring (3776) is sleeved on the abutting column (3774) on the same axis, one side of the spring (3776) is abutted with the first limiting ring (3775), and the other side is abutted with the inner wall surface of the mounting box (3771);

one side of second spacing ring (3777) keeping away from first spacing ring (3775) is equipped with on butt post (3774), and second spacing ring (3777) can with the outer wall face butt setting of installation box (3771), and one side that butt post (3774) is close to second spacing ring (3777) still locates portion of gripping (3778) convenient to hold.

6. A car aluminum alloy bracket die casting device with a scrap removing structure as claimed in claim 3, characterized in that a moving assembly (38) capable of driving the first rotating motor (31) to move along the vertical direction of the die casting device (2) is arranged on the base (32), and the moving assembly (38) comprises a fixed plate (381), a guide rod (383), a rack (384), a second rotating motor (385) and a mounting seat (387);

the fixed plate (381) is movably arranged at the bottom of the base (32), and two sides of the fixed plate (381) are symmetrically provided with limiting plates (382);

the guide rod (383) penetrates through the fixed plate (381) to extend towards two ends respectively, and two ends of the guide rod (383) are respectively in abutting connection with the two limiting plates (382) on the fixed plate (381);

the rack (384) is movably arranged on the fixed plate (381), the top of the rack (384) is in abutting connection with the bottom of the base (32), and the fixed plate (381) is provided with a guide groove (3811) for the rack (384) to move;

the mounting seat (387) is provided with the bottom of the fixing plate (381);

the second rotary motor (385) is horizontally arranged on the mounting frame (241), and is connected with the rack (384) in a meshed manner through an external gear (386) on the output shaft of the second rotary motor (385).

7. The die casting device for the aluminum alloy bracket of the automobile with the scrap removing structure according to any one of claims 1, 3 and 6, wherein a lifting assembly (39) capable of driving the first rotating motor (31) to lift is arranged at the bottom of the fixing plate (381), and the lifting assembly (39) comprises a mounting plate (391), a first stretching and lowering cylinder (392) and a connecting block (393);

the mounting plate (391) is provided with a workbench (1);

at least one first extending and lowering cylinder (392) is arranged on the mounting plate (391) through a fixing part (394);

the number of the connecting blocks (393) is the same as that of the first stretching and descending cylinders (392) and are arranged on the first stretching and descending cylinders (392) in a one-to-one correspondence mode, and the tops of the connecting blocks (393) are connected with the bottoms of the fixing plates (381).

8. The automobile aluminum alloy bracket die casting device with the scrap removing structure according to claim 1, 3 or 7, wherein a sliding component (4) capable of driving the first rotating motor (31) to be perpendicular to the moving direction of the rack (384) is arranged on the workbench (1), the sliding component (4) comprises an electric sliding table, the electric sliding table is perpendicular to the mounting plate (391) and is arranged on the workbench (1), and the upper part of the electric sliding table is in abutting connection with the bottom of the mounting plate (391).

9. An automotive aluminium alloy bracket die casting device with scrap removing structure according to claim 1, characterized in that the die casting device (2) comprises an upper die (21) and a lower die (22);

the lower die (22) is arranged on the workbench (1), and the lower die (22) is in abutting connection with the workbench (1) through the supporting part (23);

the upper die (21) is horizontally arranged above the lower die (22).

10. The automobile aluminum alloy bracket die casting device with the scrap removing structure according to any one of claims 1 or 9, wherein a driving part (24) for driving the upper die (21) to lift is further arranged on the workbench (1), and the driving part (24) comprises a mounting frame (241), a second stretching and lowering cylinder (242) and a connecting sheet (243);

the mounting frame (241) is provided with a workbench (1);

at least one second extending and descending cylinder (242) is arranged at the top of the mounting frame (241), and the output end of the second extending and descending cylinder (242) extends downwards through the top of the mounting frame (241);

the number of the connecting pieces (243) is the same as that of the second stretching and descending cylinders (242), the connecting pieces (243) are arranged on the output ends of the second stretching and descending cylinders (242) in one-to-one correspondence, and the connecting pieces (243) are connected with the upper die (21) through second bolts (244).