CN111482573A

CN111482573A - Aluminum liquid guiding system for precision die-casting processing of aluminum ingot smelting

Info

Publication number: CN111482573A
Application number: CN202010306770.4A
Authority: CN
Inventors: 宋丰艾
Original assignee: 宋丰艾
Current assignee: Ningbo Zhongrong New Material Co.,Ltd.
Priority date: 2020-04-17
Filing date: 2020-04-17
Publication date: 2020-08-04
Anticipated expiration: 2040-04-17
Also published as: CN111482573B

Abstract

The invention relates to an aluminum liquid guiding system for precision die-casting processing of aluminum ingot smelting, which comprises a base, an adjusting device, a taking and placing device and a guiding unit, wherein the adjusting device is installed on the base, the taking and placing device is installed on the adjusting device, and the guiding unit is installed on the taking and placing device. The invention can solve the following problems in the process that the molten aluminum enters the die through the diversion system at present: a. the diversion trench in the diversion system has a single structure, and the flow velocity of the aluminum liquid is difficult to control, so that the forming quality of an aluminum casting in the mold is reduced; b. the flow guide groove in the flow guide system is difficult to control the due temperature when the aluminum liquid enters the mold, so that the aluminum casting in the mold is slowly molded, and the molding quality is reduced; c. the diversion trench in the diversion system is arranged singly, so that the production efficiency of the aluminum liquid flowing into the mold from the smelting furnace through the diversion trench to form the aluminum casting is reduced.

Description

Aluminum liquid guiding system for precision die-casting processing of aluminum ingot smelting

Technical Field

The invention relates to the field of metal processing, in particular to an aluminum liquid diversion system for precision die-casting processing of aluminum ingot smelting.

Background

When smelting aluminium, need melt aluminium in the smelting pot, carry aluminium liquid to the mould via the diversion system again and carry out subsequent casting process in, and when aluminium liquid gets into the mould via the diversion system, when casting to different aluminium castings, the velocity of flow that aluminium liquid got into the mould and the temperature of aluminium liquid all have very big requirements, therefore the diversion system need carry out speed control and temperature control to the aluminium liquid of flowing through, still need can accelerate the production efficiency of aluminium casting.

At present, the following problems can occur in the process that molten aluminum enters a die through a flow guide system: a. the diversion trench in the diversion system has a single structure, and the flow velocity of the aluminum liquid is difficult to control, so that the forming quality of an aluminum casting in the mold is reduced; b. the flow guide groove in the flow guide system is difficult to control the due temperature when the aluminum liquid enters the mold, so that the aluminum casting in the mold is slowly molded, and the molding quality is reduced; c. the diversion trench in the diversion system is arranged singly, so that the production efficiency of the aluminum liquid flowing into the mold from the smelting furnace through the diversion trench to form the aluminum casting is reduced.

Disclosure of Invention

The invention aims to provide an aluminum liquid guiding system for precision die-casting processing of aluminum ingot smelting, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an aluminum liquid guiding system for precise die-casting processing of aluminum ingot smelting comprises a base, an adjusting device, a taking and placing device and a guiding unit, wherein the adjusting device is installed on the base; wherein:

the adjusting device comprises an interval adjusting unit, an angle adjusting unit, adjusting support rods, adjusting support plates and adjusting telescopic rods, wherein the interval adjusting unit is arranged on the upper surface of the base, three angle adjusting units are uniformly arranged on the interval adjusting unit from left to right, the adjusting support rods are symmetrically arranged on the angle adjusting units from left to right, the adjusting support plates are arranged at the top ends of the adjusting support rods through hinges, and the adjusting telescopic rods are connected between the adjusting support plates through hinges;

the water conservancy diversion unit includes the one-level guiding gutter, the second grade guiding gutter, tertiary guiding gutter, the water conservancy diversion slider, water conservancy diversion baffle and water conservancy diversion connecting rod, it turns right from a left side and installs the one-level guiding gutter in proper order to be located the getting of three angle transfer unit tops on putting the device, second grade guiding gutter and tertiary guiding gutter, the slide has been seted up to second grade guiding gutter upper end both sides and the equal symmetry in tertiary guiding gutter upper end both sides, slidable mounting has the water conservancy diversion slider in the slide, be connected with the water conservancy diversion baffle between the water conservancy diversion slider, one-level guiding gutter inner wall, second grade guiding gutter inner wall and tertiary guiding gutter inner wall and water conservancy diversion baffle edge laminating, the water conservancy diversion connecting rod is all installed through the round pin shaft symmetry in.

As a further scheme of the invention: the taking and placing device comprises a taking and placing groove body, a taking and placing inclined rod and a taking and placing buckle, get and put the driving lever, get and put and draw the piece, get and put the extension board and get and put the fixture block, it gets and put the cell body to adjust to install on the extension board to get and put the inside bottom bilateral symmetry of cell body and install and get and put the down tube, get and put the buckle through the round pin axle rotation on getting and put the down tube, get and put the cell body lateral wall and get and be connected with compression spring between the buckle, get and put the equal bilateral symmetry of terminal surface around putting the cell body and seted up the arc spout, get and put the driving lever at the buckle both ends and install and put the driving lever, arc spout and get and put sliding connection between the driving lever, be provided with perpendicular spout between the arc spout, slidable mounting gets in the perpendicular spout and puts the piece of.

As a further scheme of the invention: transfer the unit between including transferring the spout between, transfer the lead screw between, transfer the litter between, transfer the framework between and transfer the connecting rod between, the base upper surface evenly is provided with a plurality of and transfers the spout between from the past backward, it transfers the lead screw to install between in transferring the spout between the first of base upper surface front side, it transfers the litter to all install between in transferring the spout between the spout and the second backward between the spout between the second that is located base upper surface front side, it transfers the spout to transfer between to transfer to install three between from a left side to the right in proper order in transferring the spout between, and it transfers the framework fixed motionless to be located between transferring the framework between in the middle of transferring the spout between, transfer between lead screw and be located between transferring between the framework at spout both ends between and be connected through screw-thread fit, transfer between the litter and be located between transfer between the spout and transfer between the framework at the same end between sliding connection through transferring the connecting rod between.

As a further scheme of the invention: the angle adjusting unit comprises an angle adjusting gear, an angle adjusting rack, an angle adjusting shaft rod and an angle adjusting wheel disc, the angle adjusting gear is rotatably installed between the inner walls of the front side and the rear side of the interval adjusting frame body, the angle adjusting rack is symmetrically and slidably installed on the inner walls of the left side and the right side of the interval adjusting frame body, the angle adjusting gear is located between the angle adjusting racks, the angle adjusting gears located at the same end of the interval adjusting chute are connected through the angle adjusting shaft rod, the angle adjusting wheel disc is installed on the front side of the first interval adjusting frame body located on the front side of the upper surface of the base, and one end of the angle adjusting shaft rod is connected.

As a further scheme of the invention: the contact surfaces of the picking and placing driving lever and the picking and placing pulling block are wedge-shaped surfaces, and a pull ring is installed below the picking and placing pulling block.

As a further scheme of the invention: the angle adjusting wheel disc comprises a hollow shaft rod, an angle adjusting disc, an angle adjusting circular groove, an angle adjusting clamping block and a spring telescopic rod, the front side of a first interval adjusting frame body located on the front side of the upper surface of the base is connected with the rear end of the hollow shaft rod, the angle adjusting disc is installed at the front end of the hollow shaft rod, the angle adjusting circular groove is installed at the edge of the angle adjusting disc, a plurality of angle adjusting clamping grooves are evenly arranged at the inner side edge of the angle adjusting circular groove, the angle adjusting clamping block is installed in the angle adjusting circular groove in a sliding mode, and the angle adjusting shaft rod is connected with the angle adjusting clamping block.

Compared with the prior art, the invention has the following advantages:

the method can solve the following problems in the process that the molten aluminum enters the die through the diversion system at present: a. the diversion trench in the diversion system has a single structure, and the flow velocity of the aluminum liquid is difficult to control, so that the forming quality of an aluminum casting in the mold is reduced; b. the flow guide groove in the flow guide system is difficult to control the due temperature when the aluminum liquid enters the mold, so that the aluminum casting in the mold is slowly molded, and the molding quality is reduced; c. the diversion trench in the diversion system is arranged singly, so that the production efficiency of the aluminum liquid flowing into the mold from the smelting furnace through the diversion trench to form the aluminum casting is reduced.

The device is provided with the adjusting device, wherein the angle adjusting unit can adjust the inclination angle of the guide groove in the guide unit to a certain degree according to the flow velocity required by casting of the aluminum casting when the aluminum liquid flows through the guide unit, so that the flow velocity of the aluminum liquid flowing into the mold is effectively controlled; when the aluminum liquid flows through the diversion unit, the intermediate adjustment unit can adjust the length of the diversion trench in the diversion unit to a certain extent according to the temperature required by casting the aluminum casting, so that the distance of the aluminum liquid flowing through the diversion trench is lengthened or shortened, and the temperature of the aluminum liquid entering the mold is effectively controlled;

the device of the invention is provided with the taking and placing device, can quickly assemble and disassemble the diversion trench in the diversion unit, is simple to use, and can effectively save the time for assembling and disassembling the diversion trench;

the device of the invention designs the multi-channel flow guide unit, so that the aluminum liquid in the smelting furnace can flow to a plurality of moulds at one time for casting at the same time, and the production efficiency of aluminum castings is effectively improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic view of the front plan structure of the present invention;

FIG. 3 is a side plan view of the present invention;

FIG. 4 is a schematic elevational cross-sectional plan view of the present invention;

FIG. 5 is a schematic elevational cross-sectional plan view of the present invention;

FIG. 6 is a schematic cross-sectional plan view of a flow guide unit of the present invention;

fig. 7 is an enlarged plan view of the invention at a in fig. 2.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained with reference to fig. 1 to 7.

An aluminum liquid guiding system for precision die-casting processing of aluminum ingot smelting comprises a base 1, an adjusting device 2, a taking and placing device 3 and a guiding unit 4, wherein the adjusting device 2 is installed on the base 1, the taking and placing device 3 is installed on the adjusting device 2, and the guiding unit 4 is installed on the taking and placing device 3; wherein:

the adjusting device 2 comprises an interval adjusting unit 21, an angle adjusting unit 22, an adjusting support rod 23, an adjusting support plate 24 and an adjusting telescopic rod 25, the interval adjusting unit 21 is arranged on the upper surface of the base 1, the three angle adjusting units 22 are uniformly arranged on the interval adjusting unit 21 from left to right, the adjusting support rods 23 are symmetrically arranged on the angle adjusting units 22 from left to right, the adjusting support plates 24 are arranged at the top ends of the adjusting support rods 23 through hinges, and the adjusting telescopic rods 25 are connected between the adjusting support plates 24 through hinges; during specific work, according to the required flow velocity and temperature during casting of aluminum castings, the distance between the taking and placing device 3 on the adjusting support plate 24 is adjusted through the interval adjusting unit 21, so that the flow guide unit 4 is adjusted, the upper and lower heights of the two adjusting support rods 23 are adjusted through the angle adjusting unit 22, the inclination angle of the taking and placing device 3 is adjusted, the inclination angle of the flow guide unit 4 is adjusted, the length and the inclination angle of the flow guide unit 4 are adjusted to a certain degree, and the flow velocity and the temperature of aluminum liquid flowing through the flow guide groove in the smelting furnace are effectively controlled.

The interval adjusting unit 21 comprises an interval adjusting sliding groove 211, an interval adjusting screw rod 212, an interval adjusting sliding rod 213, an interval adjusting frame body 214 and an interval adjusting connecting rod 215, wherein a plurality of interval adjusting sliding grooves 211 are uniformly arranged on the upper surface of the base 1 from front to back, the interval adjusting screw rod 212 is arranged in the first interval adjusting sliding groove 211 positioned on the front side of the upper surface of the base 1, the interval adjusting sliding rod 213 is arranged in the second interval adjusting sliding groove 211 positioned on the front side of the upper surface of the base 1 and the second interval adjusting sliding groove 211 positioned back, the three interval adjusting frame bodies 214 are sequentially arranged in the interval adjusting sliding groove 211 from left to right, the interval adjusting frame body 214 positioned in the middle of the interval adjusting sliding groove 211 is fixed, the interval adjusting screw rod 212 is connected with the interval adjusting frame bodies 214 positioned at two ends of the interval adjusting sliding groove 211 in a threaded fit mode, the interval adjusting sliding rod 213 is connected with the interval adjusting frame bodies 214 positioned at two ends of the interval adjusting sliding groove 211 in a sliding mode, and the interval adjusting frame bodies 214 positioned at the same end of the interval adjusting sliding groove 211 are connected through an interval adjusting connecting rod 215; during specific work, according to the temperature required during casting of an aluminum casting, the screw 212 is adjusted between rotating, the frame body 214 is adjusted between driving and slides in the adjusting sliding groove 211, so that the frame body 214 is adjusted between being located at two ends of the adjusting sliding groove 211 and is far away from or close to the frame body 214 between being located in the middle of the adjusting sliding groove 211, the length of the flow guide unit 4 is adjusted, and the temperature required when aluminum liquid flows through the flow guide groove and enters the mold is controlled by controlling the length of the flow guide groove.

The angle adjusting unit 22 comprises an angle adjusting gear 221, an angle adjusting rack 222, an angle adjusting shaft 223 and an angle adjusting wheel disc 224, the angle adjusting gear 221 is rotatably installed between the inner walls of the front side and the rear side of the interval adjusting frame body 214, the angle adjusting racks 222 are symmetrically and slidably installed on the inner walls of the left side and the right side of the interval adjusting frame body 214, the angle adjusting gear 221 is located between the angle adjusting racks 222, the angle adjusting gears 221 located at the same end of the interval adjusting chute 211 are connected through the angle adjusting shaft 223, the angle adjusting wheel disc 224 is installed on the front side of the first interval adjusting frame body 214 located on the front side of the upper surface of the base 1, and one end of the angle adjusting shaft 223 is connected with the angle adjusting wheel; during specific work, according to the required velocity of flow when the aluminum casting is cast, adjust angle and transfer rim plate 224, make angle transfer gear 221 rotate, thereby drive the angle of both sides and transfer gear 222 and reciprocate, because the connection of angle transfer shaft lever, when adjusting angle and transferring rim plate 224, can adjust the upper and lower position of all adjusting support rods 23 of base 1 with the one end simultaneously, thereby make and adjust extension board 24 front and back end and send the slope, the required speed when realizing controlling aluminium liquid flow through the guiding gutter entering mould through control diversion system's inclination.

The angle adjusting wheel disc 224 comprises a hollow shaft rod 2241, an angle adjusting disc 2242, an angle adjusting round groove 2243, an angle adjusting clamping groove 2244, an angle adjusting clamping block 2245 and a spring telescopic rod 2246, the front side of a first interval adjusting frame body 214 positioned on the front side of the upper surface of the base 1 is connected with the rear end of the hollow shaft rod 2241, the angle adjusting disc 2242 is installed at the front end of the hollow shaft rod 2241, the angle adjusting round groove 2243 is installed at the edge of the angle adjusting disc 2242, a plurality of angle adjusting clamping grooves 2244 are uniformly arranged at the inner side edge of the angle adjusting round groove 2243, the angle adjusting clamping block 2245 is installed in the angle adjusting round groove 2243 in a sliding mode, and the angle adjusting shaft rod 223 is connected with the angle adjusting clamping block 2245 through a; during operation specifically, according to the required velocity of flow when the aluminium casting is cast, move the angle in angle modulation circular slot 2243 and transfer fixture block 2245, thereby drive angle modulation axostylus axostyle 223 and rotate, make angle modulation gear 221 rotate, thereby drive the angle modulation gear 222 of both sides and reciprocate, after the inclination of water conservancy diversion unit 4 was adjusted suitable position, transfer fixture block 2245 with the angle and move in angle modulation draw-in groove 2244, because spring telescopic link 2246's effect, angle modulation fixture block 2245 can block in angle modulation draw-in groove 2244, thereby control the inclination of water conservancy diversion unit 4.

The taking and placing device 3 comprises a taking and placing groove body 31, a taking and placing inclined rod 32, a taking and placing buckle 33, a taking and placing deflector rod 34, a taking and placing pull block 35, a taking and placing support plate 36 and a taking and placing fixture block 37, wherein the taking and placing groove body 31 is installed on the adjusting support plate 24, the taking and placing inclined rod 32 is installed at the bottom end inside the taking and placing groove body 31 in bilateral symmetry, the taking and placing buckle 33 is installed on the taking and placing inclined rod 32 through a pin shaft in rotation, a compression spring is connected between the side wall of the taking and placing groove body 31 and the taking and placing buckle 33, arc-shaped sliding grooves are symmetrically formed in the front end surface and the rear end surface of the taking and placing groove body 31, the taking and placing deflector rod 34 is installed at the two ends of the taking and placing buckle 33, the arc-shaped sliding grooves are connected with the taking and placing deflector rod 34, the taking and placing fixture block 37 is installed on the flow guide unit 4; during specific work, the flow guide groove is firstly installed on the taking and placing fixture block 37, then the taking and placing fixture block 37 is pressed down from the position right above the taking and placing buckle 33, due to the pressure effect, the taking and placing buckle 33 can be extruded to two sides, so that the taking and placing fixture block 37 enters the taking and placing clamp groove 31, then under the effect of the compression spring, the taking and placing fixture block 37 is limited by rebounding of the taking and placing buckle 33, the taking and placing fixture block 37 is upwards jacked up by the taking and placing support plate 36 under the effect of the supporting spring and is fixed with the taking and placing fixture block 37 together with the taking and placing buckle 33, when the flow guide groove is required to be taken down or replaced, the taking and placing support plate 36 is propped open by pulling the taking and placing pull block 35, the taking and placing buckle 33 can be.

The contact surfaces of the pick-and-place shift lever 34 and the pick-and-place pull block 35 are wedge-shaped surfaces, and a pull ring 351 is arranged below the pick-and-place pull block 35; the pulling ring 351 is pulled during specific work, so that the picking and placing pulling block 35 moves downwards, and the picking and placing pulling block 35 and the place where the picking and placing pulling rod 34 contacts are wedge-shaped surfaces, so that the picking and placing pulling rod 34 can be extruded towards two sides when the picking and placing pulling block 35 moves downwards, and the operation is simple and practical for picking and placing the diversion trench.

The flow guide unit 4 comprises a first-stage flow guide groove 41, a second-stage flow guide groove 42, a third-stage flow guide groove 43, a flow guide slider 44, a flow guide baffle 45 and a flow guide connecting rod 46, wherein the first-stage flow guide groove 41, the second-stage flow guide groove 42 and the third-stage flow guide groove 43 are sequentially arranged on the pick-and-place device 3 positioned above the three angular adjustment units 22 from left to right, two sides of the upper end of the second-stage flow guide groove 42 and two sides of the upper end of the third-stage flow guide groove 43 are symmetrically provided with slide ways, the flow guide slider 44 is slidably arranged in the slide ways, the flow guide baffle 45 is connected between the flow guide sliders 44, the inner walls of the first-stage flow guide groove 41, the inner wall of the second-stage flow guide groove 42 and the inner wall of the third-stage flow guide groove 43 are; during specific work, aluminum liquid flows out of the melting furnace and enters the die through the first-stage diversion trench 41, the second-stage diversion trench 42 and the third-stage diversion trench 43, the first-stage diversion trench 41, the distance between the second-stage diversion trench 42 and the third-stage diversion trench 43 and the first-stage diversion trench 41 are adjusted according to the requirements on the temperature and the flow velocity of the aluminum liquid during casting of aluminum castings, and the diversion baffle 45 can slide in the diversion trench when adjusting the respective inclination angles of the first-stage diversion trench 41, so that the length of the aluminum liquid flowing through the diversion trench can be changed, the aluminum liquid can only flow forwards, the aluminum liquid can not flow out from the rear end of the diversion trench, and the waste of the aluminum liquid is avoided.

The working principle of the invention is as follows:

firstly, the diversion trench is installed on the picking and placing fixture block 37, then the picking and placing fixture block 37 is pressed down from right above the picking and placing buckle 33, due to the pressure action, the picking and placing buckle 33 is squeezed to two sides to enable the picking and placing fixture block 37 to enter the picking and placing buckle 31, then under the action of the compression spring, the picking and placing buckle 33 rebounds to limit the picking and placing fixture block 37, the picking and placing support plate 36 is used for jacking the picking and placing fixture block 37 upwards to be fixed with the picking and placing buckle 33 under the action of the supporting spring, when the diversion trench is required to be taken down or replaced, the picking and placing buckle 33 can be opened only by pulling down the picking and placing pull block 35 to prop the picking and placing support plate 36, the picking and placing fixture block 37 is popped up by the picking and placing support plate 36, the diversion trench can be taken down, then according to the required flow rate and temperature during casting of aluminum, the upper and lower heights of the two adjusting support rods 23 are adjusted through the angle adjusting unit 22, so that the inclination angle of the taking and placing device 3 is adjusted, the inclination angle of the flow guide unit 4 is adjusted, the length and the inclination angle of the flow guide unit 4 are adjusted to a certain degree, and the aluminum liquid conveying operation can be started when the flow guide unit 4 is adjusted.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. The utility model provides a precision die-casting processing aluminium liquid water conservancy diversion system is smelted to aluminium ingot, includes base (1), adjusting device (2), gets puts device (3) and water conservancy diversion unit (4), its characterized in that: the base (1) is provided with an adjusting device (2), the adjusting device (2) is provided with a taking and placing device (3), and the taking and placing device (3) is provided with a flow guide unit (4); wherein:

the adjusting device (2) comprises an interval adjusting unit (21), an angle adjusting unit (22), adjusting support rods (23), adjusting support plates (24) and adjusting telescopic rods (25), the interval adjusting unit (21) is arranged on the upper surface of the base (1), the three angle adjusting units (22) are uniformly arranged on the interval adjusting unit (21) from left to right, the adjusting support rods (23) are symmetrically arranged on the angle adjusting unit (22) from left to right, the adjusting support plates (24) are arranged at the top ends of the adjusting support rods (23) through hinges, and the adjusting telescopic rods (25) are connected between the adjusting support plates (24) through hinges;

the diversion unit (4) comprises a first-stage diversion trench (41), a second-stage diversion trench (42), a third-stage diversion trench (43), a diversion slide block (44), a diversion baffle (45) and a diversion connecting rod (46), wherein the first-stage diversion trench (41), the second-stage diversion trench (42) and the third-stage diversion trench (43) are sequentially arranged on a picking and placing device (3) positioned above the three corner adjusting units (22) from left to right, slideways are symmetrically arranged on two sides of the upper end of the second-stage diversion trench (42) and two sides of the upper end of the third-stage diversion trench (43), the diversion slide block (44) is slidably arranged in the slideways, the diversion baffle (45) is connected between the diversion slides (44), the inner wall of the first-stage diversion trench (41), the inner wall of the second-stage diversion trench (42) and the inner wall of the third-stage diversion trench (43) are attached to the edge of the diversion baffle (45), the diversion connecting rod, the upper end of the flow guide sliding block (44) is connected with the lower end of the flow guide connecting rod (46).

2. The aluminum liquid diversion system for precision die-casting processing of aluminum ingot smelting according to claim 1 is characterized in that: the taking and placing device (3) comprises a taking and placing groove body (31), a taking and placing inclined rod (32), a taking and placing buckle (33), a taking and placing shift lever (34), a taking and placing pull block (35), a taking and placing support plate (36) and a taking and placing clamping block (37), wherein the taking and placing groove body (31) is installed on the adjusting support plate (24), the taking and placing inclined rod (32) is installed at the bottom inside the taking and placing groove body (31) in a bilateral symmetry mode, the taking and placing buckle (33) is installed on the taking and placing inclined rod (32) in a rotating mode through a pin shaft, a compression spring is connected between the side wall of the taking and placing groove body (31) and the taking and placing buckle (33), arc-shaped sliding grooves are formed in the front end face and the rear end face of the taking and placing groove body (31) in a bilateral symmetry mode, the pick-and-place shifting lever (34) is attached to the pick-and-place pulling block (35), a pick-and-place support plate (36) is connected above the bottom of the pick-and-place groove body (31) through a support spring, a pick-and-place clamping block (37) is supported on the pick-and-place support plate (36), and the pick-and-place clamping block (37) is installed on the flow guide unit (4).

3. The aluminum liquid diversion system for precision die-casting processing of aluminum ingot smelting according to claim 1 is characterized in that: the interval adjusting unit (21) comprises an interval adjusting sliding groove (211), an interval adjusting lead screw (212), an interval adjusting sliding rod (213), an interval adjusting frame body (214) and an interval adjusting connecting rod (215), wherein a plurality of interval adjusting sliding grooves (211) are uniformly arranged on the upper surface of the base (1) from front to back, an interval adjusting lead screw (212) is arranged in the first interval adjusting sliding groove (211) on the front side of the upper surface of the base (1), an interval adjusting sliding rod (213) is arranged in the second interval adjusting sliding groove (211) on the front side of the upper surface of the base (1) and the second interval adjusting sliding groove (211) on the back, three interval adjusting frame bodies (214) are sequentially arranged in the interval adjusting sliding groove (211) from left to right, the interval adjusting frame bodies (214) in the middle of the interval adjusting sliding grooves (211) are fixed, the interval adjusting lead screw (212) is connected with the interval adjusting frame bodies (214) at two ends of the interval adjusting sliding groove (211) in a threaded fit manner, and the interval adjusting sliding rod (213) is connected with the interval adjusting sliding grooves (214) at two ends of the interval, the interval adjusting frame bodies (214) positioned at the same end of the interval adjusting sliding groove (211) are connected through an interval adjusting connecting rod (215).

4. The aluminum liquid diversion system for precision die-casting processing of aluminum ingot smelting according to claim 1 is characterized in that: the angle adjusting unit (22) comprises an angle adjusting gear (221), an angle adjusting rack (222), an angle adjusting shaft rod (223) and an angle adjusting wheel disc (224), the angle adjusting gear (221) is rotatably installed between the inner walls of the front side and the rear side of the interval adjusting frame body (214), the angle adjusting rack (222) is symmetrically and slidably installed on the inner walls of the left side and the right side of the interval adjusting frame body (214), the angle adjusting gear (221) is located between the angle adjusting racks (222), the angle adjusting gear (221) located at the same end of the interval adjusting sliding groove (211) is connected through the angle adjusting shaft rod (223), the angle adjusting wheel disc (224) is installed on the front side of the first interval adjusting frame body (214) located on the front side of the upper surface of the base (1), and one end of the angle adjusting shaft rod (223) is connected with the angle adjusting wheel.

5. The aluminum liquid diversion system for precision die-casting processing of aluminum ingot smelting according to claim 1 is characterized in that: the contact surfaces of the pick-and-place shifting rod (34) and the pick-and-place pulling block (35) are wedge-shaped surfaces, and a pulling ring (351) is installed below the pick-and-place pulling block (35).

6. The aluminum liquid diversion system for precision die-casting processing of aluminum ingot smelting according to claim 4, characterized in that: corner adjusting wheel dish (224) are including hollow axostylus axostyle (2241), disc (2242) is transferred in the corner, circular slot (2243) is transferred in the corner, draw-in groove (2244) is transferred in the corner, fixture block (2245) and spring telescopic link (2246) are transferred in the corner, the front side that is located first interval transfer framework (214) of base (1) upper surface front side is connected with hollow axostylus axostyle (2241) rear end, disc (2242) is transferred in hollow axostylus axostyle (2241) front end installation corner, circular slot (2243) is transferred in the corner installation corner at disc (2242) edge, the edge evenly is provided with a plurality of angle and transfers draw-in groove (2244) in the corner, circular slot (2243) is interior slidable mounting corner and transfers fixture block (2245) to the corner, it transfers between fixture block (2245) and the corner to transfer through spring.