CN111974968B - Aluminum alloy wheel hub extrusion casting forming die - Google Patents

Abstract

The invention discloses an aluminum alloy hub extrusion casting forming die, which comprises a raw material conveying and hoisting device, a hub extrusion forging device, a finished product conveying device, a hoisting support pillar, a fixed support platform, an extrusion forging support pillar, an extrusion forging platform, a finished product hoisting support pillar and an aluminum alloy ingot block, wherein the raw material conveying and hoisting device comprises a sliding slide rail, a connecting and hoisting platform, a connecting support frame and a connecting block, the hub extrusion forging device comprises a linear slide rail, a linear slide rail seat and a lower die support plate, the finished product conveying device comprises a fixed support slide pillar and a connecting truss, when the aluminum alloy ingot block is conveyed below the raw material conveying and hoisting device, the casting of the aluminum alloy hub is completed under the hub extrusion forging device, the aluminum alloy hub in the die can be automatically taken out and placed at a specified position through the finished product conveying device, and the whole process of shredding is completed, the invention has the advantages of simple structure, low cost, high efficiency, high automation degree and the like.

Description

Aluminum alloy wheel hub extrusion casting forming die

Technical Field

The invention relates to a casting die, in particular to an extrusion casting forming die for an aluminum alloy hub.

Background

In the process of high-speed development of an automobile, a hub of an automobile wheel is an important component in the production process, the required weight is light, the strength is high, the toughness is good, and the important attention of automobile manufacturers is received.

Disclosure of Invention

The invention provides a kelp shredding machine aiming at the technical problems, which can effectively solve the technical problems and has the advantages of simple structure, low cost, high efficiency and high automation degree.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: the utility model provides an aluminum alloy wheel hub extrusion casting forming die includes raw materials transport hoist device, wheel hub extrusion forging device, finished product conveyor, hoist and mount support column, fixed supporting platform, extrusion forging pillar, extrusion forging platform, finished product hoist and mount pillar, aluminum alloy ingot piece.

Raw materials transport hoist device include the slip slide rail, connect hoisting platform, joint support frame, connecting block, wheel hub extrusion forging device include linear slide rail, linear slide rail seat, lower mould backup pad, finished product conveyor include the fixed stay traveller, connect the truss.

The fixed supporting platform is installed and fixed above the hoisting supporting columns, the front side and the rear side are symmetrically distributed, each side is three, the raw material conveying hoisting device is installed and fixed above the fixed supporting platform, the sliding slide rail is installed and fixed at the middle position above the left side and the right side, the front side and the rear side can be symmetrically distributed, the connecting hoisting platform is in contact sliding fit above the sliding slide rail, the connecting supporting frames are installed and fixed above the connecting hoisting platform, the left side and the right side are respectively provided with two connecting blocks, the connecting blocks are installed and fixed above the connecting supporting frames, the extrusion forging supporting columns are installed and fixed on the ground and positioned inside the hoisting supporting columns at the front side and the rear side, the extrusion forging platform is installed and fixed above the extrusion forging supporting columns, the hub extrusion forging device is installed and fixed above the extrusion forging platform, the linear slide rail is installed and fixed on the extrusion forging platform, and the linear slide rail seat is in sliding fit on the linear slide rail, the lower die supporting plate is connected with the front linear slide rail and the rear linear slide rail, the finished product hoisting support column is fixedly installed on the ground and located on the right side of the extrusion forging platform, the finished product conveying device is installed and matched above the finished product hoisting support column point, the fixed support slide columns are fixedly installed at the upper ends of the finished product hoisting support columns, and the connecting truss is connected with the fixed support slide columns on the left side and the right side.

Further, the raw material conveying and hoisting device further comprises: a hoisting moving motor, a moving wheel, a motor fixing frame, a hoisting motor, a reel, a steel wire lifting rope, an auxiliary pulley bracket, a pulley wheel shaft, a pulley, a hook connecting rod, a hook rotating shaft and a hoisting hook, the hoisting movable motor is fixed below two ends of the connecting block through support mounting, the movable wheel is fixed on the hoisting movable motor through support mounting, the motor fixing frame is fixed above the connecting hoisting platform, the hoisting motor is fixed on the motor fixing frame through support mounting, the winding wheel is fixed on the hoisting motor through support mounting, the steel wire lifting rope is fixed on the winding wheel through support mounting, the auxiliary pulley support is fixed on the connecting hoisting platform through support mounting, the auxiliary pulley support is located on the left side of the winding wheel, the pulley wheel shaft is rotatably mounted and matched on the auxiliary pulley support, the pulley is mounted and fixed on the pulley wheel shaft, the upper end of the hook connecting rod is fixedly connected with the steel wire lifting rope, and the lower end of the hook connecting rod is mounted through a hook rotating shaft and fixed on a hoisting hook.

Further, the hub extrusion forging device further comprises: the device comprises a smelting furnace, a heating resistance wire fixing frame, a heating resistance wire, a solution connecting pipeline, a motor supporting frame, an extrusion motor, a spiral extruder, an insulation can, an aluminum alloy upper die, a rotary driving motor, a driving gear, a driven gear, a smelting furnace door, a limiting pin, an aluminum alloy lower die, a mobile driving motor, a synchronous pulley and a synchronous belt, wherein the smelting furnace is fixedly arranged above an extrusion forging support column, the heating resistance wire fixing frame is distributed around the smelting furnace, the upper layer and the lower layer of the heating resistance wire are fixedly arranged in the smelting furnace through the heating resistance wire fixing frame, the solution connecting pipeline is connected with the smelting furnace and the insulation can, the motor supporting frame is fixedly arranged above an extrusion forging platform point, the extrusion motor is fixedly arranged on the motor supporting frame, the spiral extruder is fixedly arranged on the extrusion motor, an aluminum alloy upper die is fixedly arranged at the front end of the insulation can, the limiting pin is distributed around the aluminum alloy upper die, the rotary driving motor is fixedly installed at the rear of the upper part of the smelting furnace, the driving gear is fixedly installed on the rotary driving motor, the driven gear is meshed with the driving gear, the smelting furnace door is fixedly installed on a rotating shaft of the driven gear, the aluminum alloy lower die is fixedly installed at the middle position above the lower die supporting plate, the movable driving motors are fixedly installed at the left side and the right side of the aluminum alloy upper die, the synchronous belt wheel is fixedly installed below the movable driving motor, and the synchronous belt is cooperatively installed on the synchronous belt wheel.

Further, the finished product conveying device further comprises: the synchronous belt wheel is arranged and matched on the driving motor, the synchronous toothed belt wheel is arranged and configured on the synchronous toothed belt wheel, the suspension platform is arranged and matched on the movable wheel shaft through the wheel fixing frame to form a rotating matching relation, the movable wheel shaft is rotatably arranged and matched on the bearing wheel, the synchronous toothed belt wheel and the wheel fixing frame are connected and fixed through the wheel fixing frame, the transverse moving frame is arranged and fixed below the suspension platform, the high-speed stepping motor is arranged and fixed on the lower section of the transverse moving frame, the screw rod is fixedly installed on the high-speed stepping motor, the moving block is installed and matched on the transverse moving frame in a sliding mode, the conveying connecting frame is fixedly installed on the moving block, and the conveying fixing frame is fixedly installed at the lower end of the conveying connecting frame.

Furthermore, the moving wheels are fixedly arranged on the hoisting moving motor, the hoisting platform is connected and matched on the sliding slide rail in a sliding manner, and the moving wheels and the sliding slide rail form contact friction fit.

Furthermore, the steel wire lifting rope is fixedly arranged on the winding wheel, the pulley is rotatably arranged on the auxiliary pulley bracket through the pulley wheel shaft, and the steel wire lifting rope and the pulley form contact rotation fit.

Furthermore, the spiral extruder is fixedly arranged on the extrusion motor, and the spiral extruder and the heat preservation box form a spiral matching relationship.

Furthermore, the wheel fixing frame is rotatably arranged and matched on the bearing wheel through the movable wheel shaft, and the bearing wheel and the fixed support sliding column form a contact friction balance relation.

Compared with the prior art, the invention has the beneficial effects that: (1) the automation degree is high, and manual intervention is basically not needed; (2) the structure is simple, and the manufacturing cost is low; (3) the action is simple, and the efficiency is high; (4) the whole process of the invention is completed by mechanical automation, and the invention has high execution force and high manufacturing precision.

Drawings

Fig. 1 and 2 are schematic diagrams of the overall structure of the present invention.

Fig. 3 is a schematic structural view of the raw material conveying and hoisting device of the present invention.

FIGS. 4 and 5 are schematic structural views of the hub extruding and forging apparatus according to the present invention.

Fig. 6 is a schematic structural view of the finished product conveying device of the present invention.

Reference numbers in the figures: 1-raw material conveying and hoisting device; 2-a hub extrusion forging device; 3-a finished product conveying device; 4-hoisting the supporting column; 5-fixing a supporting platform; 6-extrusion forging the pillar; 7-extruding and forging the platform; 8-finished hoisting the pillar; 9-an aluminum alloy ingot; 101-sliding slide rail; 102-connecting a hoisting platform; 103-connecting a support frame; 104-connecting block; 105-hoisting a moving motor; 106-a moving wheel; 107-motor fixing frame; 108-a hoisting motor; 109-a reel; 110-steel wire lifting rope; 111-an auxiliary sheave bracket; 112-pulley axle; 113-a pulley; 114-a hook connecting rod; 115-hook rotating shaft; 116-hoisting a hook; 201-a smelting furnace; 202-heating resistance wire fixing frame; 203-heating resistance wires; 204-solution connection pipe; 205-a motor support frame; 206-extrusion motor; 207-screw extruder; 208-incubator; 209-aluminum alloy upper die; 210-a rotary drive motor; 211-a drive gear; 212-driven gear; 213-smelting furnace door; 214-a spacing pin; 215-aluminum alloy lower die; 216-linear slide rail; 217-linear slide rail seat; 218-lower mold support plate; 219 — a movement drive motor; 220-synchronous pulley; 221-a synchronous belt; 301-fixed support slide; 302-connecting trusses; 303-a motor frame; 304-a drive motor; 305-synchronous toothed pulley; 306-synchronous toothed belt; 307-suspension platform; 308-a wheel holder; 309-moving wheel axle; 310-bearing wheels; 311-belt wheel fixing block; 312-a traverse frame; 313-a screw; 314-a moving block; 315-high speed stepper motor; 316-handling the connecting frame; 317-carrying the fixing frame.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): fig. 1 and 2 are schematic diagrams of the overall structure of the invention, which include a raw material conveying and hoisting device 1, a hub extrusion forging device 2, a finished product conveying device 3, a hoisting support column 4, a fixed support platform 5, an extrusion forging support column 6, an extrusion forging platform 7, a finished product hoisting support column 8 and an aluminum alloy ingot block 9, and are characterized in that:

the raw material conveying and hoisting device 1 comprises a sliding slide rail 101, a connecting and hoisting platform 102, a connecting support frame 103 and a connecting block 104, the hub extrusion forging device 2 comprises a linear slide rail 216, a linear slide rail seat 217 and a lower die support plate 218, and the finished product conveying device 3 comprises a fixed support slide column 301 and a connecting truss 302.

The fixed supporting platform 5 is installed and fixed above the hoisting supporting column 4, the front side and the rear side are distributed in a symmetrical structure, three are arranged on each side, the raw material conveying hoisting device 1 is installed and fixed above the fixed supporting platform 5, the sliding slide rail 101 is installed and fixed at the middle position between the left side and the right side, the front side and the rear side are distributed in a symmetrical structure, the connecting hoisting platform 102 is in contact sliding fit above the sliding slide rail 101, the connecting supporting frame 103 is installed and fixed above the connecting hoisting platform 102, two connecting blocks 104 are installed and fixed above the connecting supporting frame 103, the extrusion forging support column 6 is installed and fixed on the ground and is positioned inside the hoisting supporting columns 4 at the front side and the rear side, the extrusion forging platform 7 is installed and fixed above the extrusion forging support column 6, the hub extrusion forging device 2 is installed and fixed above the extrusion forging platform 7, and the linear slide rail 216 is installed and fixed on the extrusion forging platform 7, the linear slide rail seat 217 is in sliding fit with the linear slide rails 216, the lower die supporting plate 218 is connected with the front linear slide rail 216 and the rear linear slide rail 216, the finished product hoisting support column 8 is fixedly installed on the ground and located on the right side of the extrusion forging platform 7, the finished product conveying device 3 is installed and matched above the finished product hoisting support column 8, the fixed supporting slide columns 301 are fixedly installed at the upper ends of the finished product hoisting support column 8, and the connecting truss 302 is connected with the fixed supporting slide columns 301 on the left side and the right side.

The raw material conveying and hoisting device 1 further comprises: a hoisting moving motor 105, a moving wheel 106, a motor fixing frame 107, a hoisting motor 108, a reel 109, a steel wire hoisting rope 110, an auxiliary pulley bracket 111, a pulley wheel shaft 112, a pulley 113, a hook connecting rod 114, a hook rotating shaft 115 and a hoisting hook 116, wherein the hoisting moving motor 105 is fixedly arranged below two ends of the connecting block 104 through brackets, the moving wheel 106 is fixedly arranged on the hoisting moving motor 105, the motor fixing frame 107 is fixedly arranged above the connecting hoisting platform 102, the hoisting motor 108 is fixedly arranged on the motor fixing frame 107, the reel 109 is fixedly arranged on the hoisting motor 108, the steel wire hoisting rope 110 is fixedly arranged on the reel 109, the auxiliary pulley bracket 111 is fixedly arranged on the connecting hoisting platform 102 and positioned at the left side of the reel 109, the pulley wheel shaft 112 is rotatably arranged and matched on the auxiliary pulley bracket 111, the pulley 113 is fixedly arranged on the pulley wheel shaft 112, the upper end of the hook connecting rod 114 is fixedly connected with the steel wire hoisting rope 110, the lower end is installed through a hook rotating shaft 115 and fixed on a hoisting hook 116.

The hub extrusion forging apparatus 2 further includes: the smelting furnace 201, a heating resistance wire fixing frame 202, a heating resistance wire 203, a solution connecting pipeline 204, a motor supporting frame 205, an extruding motor 206, a spiral extruder 207, an insulation can 208, an aluminum alloy upper die 209, a rotary driving motor 210, a driving gear 211, a driven gear 212, a smelting furnace door 213, a limiting pin 214, an aluminum alloy lower die 215, a movable driving motor 219, a synchronous pulley 220 and a synchronous belt 221, wherein the smelting furnace 201 is fixedly installed above the extrusion forging support 6, the heating resistance wire fixing frame 202 is distributed around the smelting furnace 201, the upper layer and the lower layer of the heating resistance wire 203 are fixedly installed in the smelting furnace 201 through the heating resistance wire fixing frame 202, the solution connecting pipeline 204 is connected with the smelting furnace 201 and the insulation can 208, the motor supporting frame 205 is fixedly installed above the extrusion forging platform 7 point, the extruding motor 206 is fixedly installed on the motor supporting frame 205, and the spiral extruder 207 is fixedly installed in the extruding motor 206, an aluminum alloy upper die 209 is fixedly installed at the front end of the heat insulation box 208, limiting pins 214 are distributed on the periphery of the aluminum alloy upper die 209, a rotary driving motor 210 is fixedly installed at the rear of the upper portion of the smelting furnace 201, a driving gear 211 is fixedly installed on the rotary driving motor 210, a driven gear 212 is in gear engagement with the driving gear 211, a smelting furnace door 213 is fixedly installed on a rotating shaft of the driven gear 212, an aluminum alloy lower die 215 is fixedly installed at the middle position above a lower die supporting plate 218, moving driving motors 219 are fixedly installed at the left side and the right side of the aluminum alloy upper die 209, synchronous pulleys 220 are fixedly installed below the moving driving motors 219, and synchronous belts 221 are fixedly installed on the synchronous pulleys 220.

The finished product conveying apparatus 3 further includes: a motor frame 303, a driving motor 304, a synchronous cog belt wheel 305, a synchronous cog belt 306, a suspension platform 307, a wheel fixing frame 308, a movable wheel shaft 309, a bearing wheel 310, a belt wheel fixing block 311, a traverse frame 312, a screw shaft 313, a moving block 314, a high-speed stepping motor 315, a conveying connecting frame 316 and a conveying fixing frame 317, wherein the motor frame 303 is arranged and fixed on a connecting truss 302 and symmetrically distributed on the left and right sides, the driving motor 304 is arranged and fixed on the motor frame 303, the synchronous cog belt wheel 305 is arranged and matched on the driving motor 304, the synchronous cog belt 306 is arranged and configured on the synchronous cog belt wheel 305, the suspension platform 307 is arranged and matched on the movable wheel shaft 309 through the wheel fixing frame 308 to form a rotating matching relationship, the movable wheel shaft 309 is rotatably arranged and matched on the bearing wheel 310, the synchronous cog belt 306 and the wheel fixing frame 308 are connected and fixed through the belt fixing block 311, the traverse frame 312 is arranged and fixed below the suspension platform 307, the high-speed stepping motor 315 is mounted and fixed on the lower section of the traverse frame 312, the screw shaft 313 is mounted and fixed on the high-speed stepping motor 315, the moving block 314 is slidably mounted and fitted on the traverse frame 312, the conveying connecting frame 316 is mounted and fixed on the moving block 314, and the conveying fixing frame 317 is mounted and fixed on the lower end of the conveying connecting frame 316.

The moving wheel 106 is fixed on the hoisting moving motor 105, the connecting hoisting platform 102 is matched on the sliding slide rail 101 in a sliding way, and the moving wheel 106 and the sliding slide rail 101 form a contact friction fit.

The wire rope 110 is fixed on the reel 109, the pulley 113 is rotatably fixed on the auxiliary pulley bracket 111 through the pulley axle 112, and the wire rope 110 and the pulley 113 are in contact rotation fit.

The screw extruder 207 is fixed on the extrusion motor 206, and the screw extruder 207 and the heat preservation box 208 form a screw fit relationship.

The wheel fixing frame 308 is rotatably installed and matched on the bearing wheel 310 through the movable wheel shaft 309, and the bearing wheel 310 and the fixed support sliding column 301 form a contact friction balance relation.

The working principle of the invention is as follows: when the aluminum alloy ingot 9 is conveyed to the lower part of the raw material conveying and hoisting device 1, under the action of the hoisting moving motor 105, the connecting and hoisting platform 102 drives the hoisting motor 108 to move to the upper part of the aluminum alloy ingot 9, the winding wheel 109 is driven to rotate by the rotation of the hoisting motor 108, the hook connecting rod 114 is vertically put down through the pulley 113 under the action of the steel wire lifting rope 110, under the action of the hook rotating shaft 115, the hoisting hook 116 hooks the aluminum alloy ingot 9, at the moment, the hoisting motor 108 works to drive the winding wheel 109 to rotate reversely, the steel wire lifting rope 110 is wound on the winding wheel 109, at the moment, the aluminum alloy ingot 9 is lifted up through the contraction hook connecting rod 114, the moving wheel 106 is driven under the action of the hoisting moving motor 105, so that the moving wheel 106 drives the aluminum alloy ingot 9 to be conveyed to the upper part of the smelting furnace 201, the rotation driving motor 210 on the smelting furnace 201 drives the driving gear 211 to rotate, the driving gear 211 is provided with a driven gear 212 which is matched with the driving gear to rotate to drive a smelting furnace door 213, the aluminum alloy ingot 9 is fed after the rotation driving motor 210 is started, the molten aluminum alloy is extruded into an aluminum alloy upper die 209 through a screw extruder 207 under the action of a solution connecting pipeline 204, the aluminum alloy ingot 9 of the synchronous belt 221 drives a synchronous belt pulley 220 to rotate, the synchronous belt 221 moves to drive an aluminum alloy lower die 215 to move back and forth to be matched with the solution connecting pipeline 204 and to be tightly contacted with the aluminum alloy upper die 209, the extrusion casting of an aluminum alloy wheel hub is completed, when the aluminum alloy lower die 215 is opened, under the action of a driving motor 304, a synchronous toothed belt pulley 305 drives a synchronous toothed belt 306 to hoist a bearing wheel 310 of a supporting column 4 to move on a fixed supporting sliding column 301, and a belt wheel fixing block 311 and a moving block 314 are in spiral matching relationship to drive a conveying connecting frame 316 to descend, so that the carrying fixing frame 317 can completely grab the aluminum alloy hub and transfer the aluminum alloy hub to a finished product area.

Claims (5)

1. The utility model provides an aluminum alloy wheel hub extrusion casting forming die, includes that raw materials transports hoist device (1), wheel hub extrusion forging device (2), finished product conveyor (3), hoist and mount support column (4), fixed support platform (5), extrusion forging pillar (6), extrusion forging platform (7), finished product hoist and mount pillar (8), aluminum alloy ingot piece (9), its characterized in that: the raw material conveying and hoisting device (1) comprises a sliding slide rail (101), a connecting and hoisting platform (102), a connecting support frame (103) and a connecting block (104); the hub extrusion forging device (2) comprises a linear slide rail 216, a linear slide rail seat (217) and a lower die supporting plate (218); the finished product conveying device (3) comprises a fixed supporting sliding column (301) and a connecting truss (302); the fixed supporting platform (5) is fixedly arranged above the hoisting supporting columns (4), the front side and the rear side are symmetrically distributed, each side is three, the raw material conveying hoisting device (1) is fixedly arranged above the fixed supporting platform (5), the sliding rail (101) is fixedly arranged at the middle position above the left side and the right side, the front side and the rear side can be symmetrically distributed, the connecting hoisting platform (102) is in contact sliding fit above the sliding rail (101), the connecting supporting frames (103) are fixedly arranged at the left side and the right side above the connecting hoisting platform (102), the connecting blocks (104) are fixedly arranged above the connecting supporting frames (103), the extrusion forging support columns (6) are fixedly arranged on the ground and positioned in the hoisting supporting columns (4) at the front side and the rear side, the extrusion forging platform (7) is fixedly arranged above the extrusion forging support columns (6), and the hub extrusion forging device (2) is fixedly arranged above the extrusion forging platform (7), the linear slide rail 216 is fixedly installed on the extrusion forging platform (7), a linear slide rail seat (217) is in sliding fit with the linear slide rail (216), a lower die supporting plate (218) is connected with the front linear slide rail and the rear linear slide rail (216), a finished product hoisting pillar (8) is fixedly installed on the ground and located on the right side of the extrusion forging platform (7), a finished product conveying device (3) is installed and matched above a point of the finished product hoisting pillar (8), a fixed supporting slide column (301) is fixedly installed at the upper end of the finished product hoisting pillar (8), and a connecting truss (302) is connected with the fixed supporting slide columns (301) on the left side and the right side;

the raw material conveying and hoisting device (1) further comprises: the hoisting device comprises a hoisting movable motor (105), a movable wheel (106), a motor fixing frame (107), a hoisting motor (108), a reel (109), a steel wire hoisting rope (110), an auxiliary pulley bracket (111), a pulley wheel shaft (112), a pulley (113), a hook connecting rod (114), a hook rotating shaft (115) and a hoisting hook (116), wherein the hoisting movable motor (105) is fixedly arranged below two ends of a connecting block (104) through a bracket, the movable wheel (106) is fixedly arranged on the hoisting movable motor (105), the motor fixing frame (107) is fixedly arranged above a connecting hoisting platform (102), the hoisting motor (108) is fixedly arranged on the motor fixing frame (107), the reel (109) is fixedly arranged on the hoisting motor (108), the steel wire hoisting rope (110) is fixedly arranged on the reel (109), and the auxiliary pulley bracket (111) is fixedly arranged on the connecting hoisting platform (102), the pulley wheel shaft (112) is rotatably arranged on the left side of the reel (109) and matched with the auxiliary pulley bracket (111), the pulley (113) is fixedly arranged on the pulley wheel shaft (112), the upper end of the hook connecting rod (114) is fixedly connected with the steel wire lifting rope (110), and the lower end of the hook connecting rod is arranged through a hook rotating shaft (115) and fixed on a lifting hook (116);

the hub extrusion forging device (2) further comprises: the smelting furnace comprises a smelting furnace (201), a heating resistance wire fixing frame (202), a heating resistance wire (203), a solution connecting pipeline (204), a motor supporting frame (205), an extrusion motor (206), a spiral extruder (207), an insulation can (208), an aluminum alloy upper die (209), a rotary driving motor (210), a driving gear (211), a driven gear (212), a smelting furnace door (213), a limiting pin (214), an aluminum alloy lower die (215), a mobile driving motor (219), a synchronous pulley (220) and a synchronous belt (221), wherein the smelting furnace (201) is fixedly arranged above an extrusion forging support (6), the heating resistance wire fixing frame (202) is distributed around the smelting furnace (201), the upper layer and the lower layer of the heating resistance wire (203) are fixedly arranged in the smelting furnace (201) through the heating resistance wire fixing frame (202), and the solution connecting pipeline (204) is connected with the smelting furnace (201) and the insulation can (208), a motor supporting frame (205) is fixedly arranged above the point of an extrusion forging platform (7), an extrusion motor (206) is fixedly arranged on the motor supporting frame (205), a spiral extruder (207) is fixedly arranged on the extrusion motor (206), an aluminum alloy upper die (209) is fixedly arranged at the front end of a heat preservation box (208), limiting pins (214) are distributed on the periphery of the aluminum alloy upper die (209), a rotary driving motor (210) is fixedly arranged at the rear of the upper part of a smelting furnace (201), a driving gear (211) is fixedly arranged on the rotary driving motor (210), a driven gear (212) is engaged on the driving gear (211), a smelting furnace door (213) is fixedly arranged on a rotating shaft of the driven gear (212), an aluminum alloy lower die (215) is fixedly arranged at the middle position above a lower die supporting plate (218), and movable driving motors (219) are fixedly arranged at the left side and the right side of the aluminum alloy upper die (209), a synchronous pulley (220) is fixedly arranged below the mobile driving motor (219), and a synchronous belt (221) is arranged and matched with the synchronous pulley (220);

the finished product conveying device (3) further comprises: the device comprises a motor frame (303), a driving motor (304), a synchronous toothed belt wheel (305), a synchronous toothed belt (306), a suspension platform (307), a wheel fixing frame (308), a movable wheel shaft (309), a bearing wheel (310), a wheel fixing block (311), a traversing frame (312), a screw rod (313), a moving block (314), a high-speed stepping motor (315), a conveying connecting frame (316) and a conveying fixing frame (317), wherein the motor frame (303) is fixedly arranged on the connecting truss (302) and symmetrically distributed on the left side and the right side, the driving motor (304) is fixedly arranged on the motor frame (303), the synchronous toothed belt wheel (305) is arranged and matched on the driving motor (304), the synchronous toothed belt (306) is arranged and configured on the synchronous toothed belt wheel (305), and the suspension platform (307) is arranged and matched on the movable wheel shaft (309) through the wheel fixing frame (308) to form a rotation matching relationship, the movable wheel shaft (309) is rotatably arranged and matched on a bearing wheel (310), a belt wheel fixing block (311) is used for connecting and fixing a synchronous toothed belt (306) and a wheel fixing frame (308), a transverse moving frame (312) is arranged and fixed below a suspension platform (307), a high-speed stepping motor (315) is arranged and fixed on the lower section of the transverse moving frame (312), a screw rod (313) is arranged and fixed on the high-speed stepping motor (315), a moving block (314) is arranged and matched on the transverse moving frame (312) in a sliding manner, a conveying connecting frame (316) is arranged and fixed on the moving block (314), and a conveying fixing frame (317) is arranged and fixed at the lower end of the conveying connecting frame (316).

2. The extrusion casting forming die for the aluminum alloy hub as recited in claim 1, wherein: the moving wheel (106) is fixedly arranged on a hoisting moving motor (105), the connecting hoisting platform (102) is arranged on the sliding slide rail (101) in a sliding fit mode, and the moving wheel (106) and the sliding slide rail (101) form a contact friction fit mode.

3. The extrusion casting forming die for the aluminum alloy hub as recited in claim 1, wherein: the steel wire lifting rope (110) is fixedly arranged on the winding wheel (109), the pulley (113) is rotatably arranged and matched on the auxiliary pulley bracket (111) through a pulley wheel shaft (112), and the steel wire lifting rope (110) and the pulley (113) form contact rotation matching.

4. The extrusion casting forming die for the aluminum alloy hub as recited in claim 1, wherein: the spiral extruder (207) is fixedly arranged on the extrusion motor (206), and the spiral extruder (207) and the heat preservation box (208) form a spiral matching relationship.

5. The extrusion casting forming die for the aluminum alloy hub as recited in claim 1, wherein: the wheel fixing frame (308) is rotatably installed and matched on the bearing wheel (310) through the movable wheel shaft (309), and the bearing wheel (310) and the fixed supporting sliding column (301) form a contact friction balance relation.

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