CN114653897A

CN114653897A - Aluminum alloy manufacturing is with pouring complicated precision mold device

Info

Publication number: CN114653897A
Application number: CN202210346661.4A
Authority: CN
Inventors: 程兰; 张伟彬
Original assignee: Xinchang Wuyuanda Automation Technology Co ltd
Current assignee: Xinchang Wuyuanda Automation Technology Co ltd
Priority date: 2022-04-02
Filing date: 2022-04-02
Publication date: 2022-06-24

Abstract

The invention relates to the field of aluminum alloy manufacturing, in particular to a complex pouring precision mold device for aluminum alloy manufacturing. According to the complex pouring precision die device for manufacturing the aluminum alloy, the rotating pin is rotated, the spline sleeve is respectively connected with the rotating rod and the spline on the rotating shaft, the driving rods are driven to continuously slide on the installation pipes along with the increase of the flow rate of the aluminum alloy injection material, the square plates and the plugging plates are pushed to slide towards the inside of the operation box in the continuous sliding process of the driving rods, the feeding on the L-shaped conveying pipe is automatically identified and plugged, the problem that the gas in the die body cannot be timely discharged to reduce the quality of aluminum alloy forming due to the fact that the flow rate of the aluminum alloy injection material on the L-shaped conveying pipe is too high is avoided, a feeding flow rate control mechanism in the pouring process of the aluminum alloy on the complex precision die device is formed, and the processing quality of the aluminum alloy is guaranteed.

Description

Aluminum alloy manufacturing is with pouring complicated precision mold device

Technical Field

The invention relates to the field of aluminum alloy manufacturing, in particular to a complex pouring precision mold device for aluminum alloy manufacturing.

Background

The alloy with certain amount of other alloying elements added based on aluminum is one of light metal materials, and besides the general characteristics of aluminum, the aluminum alloy has the specific characteristics of some alloys due to the difference of the types and the amounts of the added alloying elements. The aluminum alloy has the density of 2.63-2.85 g/cm3, high strength, specific strength close to high alloy steel, specific stiffness higher than that of steel, good casting performance and plastic processing performance, good electric conduction and heat conduction performance, good corrosion resistance and weldability, can be used as a structural material, and is widely applied to aerospace, aviation, transportation, construction, electromechanics, lightening and daily necessities.

In the process of manufacturing and processing the aluminum alloy, pouring operation needs to be carried out through a complex precision die device, but the existing complex precision die for manufacturing the aluminum alloy lacks a control mechanism for controlling the flow rate of the aluminum alloy during the process of pouring the aluminum alloy, so that the process of pouring the aluminum alloy from slow to fast to slow is difficult to follow, the gas inside the complex precision die during the pouring process cannot be discharged in time, and the quality of aluminum alloy pouring is reduced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a complex pouring precision mold device for manufacturing aluminum alloy.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides an aluminum alloy makes with pouring complicated accurate mould device, includes the mould body and sets up the inlet pipe on the mould body, the install bin is installed to the other end of inlet pipe, the inside of install bin is connected with the filter through a plurality of coupling assembling, install L type conveyer pipe on the install bin, the inside of install bin is provided with the shake mechanism that is used for the filter to promote the shake, be provided with the control mechanism who is used for feeding velocity of flow automatic control on the L type conveyer pipe.

The connecting assembly comprises a first fixing rod fixed inside the mounting box, a first sliding rod is connected to the first fixing rod in a sliding mode, the other end of the first sliding rod is connected with the filter plate in a clamping mode, and a first spring is sleeved on the side wall of the first fixing rod.

The shaking mechanism comprises a rotating rod which is rotatably connected inside the installation box, a fan blade is fixed on the rotating rod, one side of the fan blade is positioned at the lower side of one end of the L-shaped conveying pipe, and a cam used for pushing the filter plate is arranged on the rotating rod.

The control device comprises an operation box installed on an L-shaped conveying pipe, a plugging plate is connected to the operation box in a sliding mode, the plugging plate is matched with the inside of the operation box, a square plate is installed at one end, away from the operation box, of the plugging plate, the square plate is connected with the operation box through a reset assembly, and a pushing mechanism used for pushing the square plate to extrude is arranged on the installation box.

The reset assembly comprises a second fixing rod fixed on the operation box, a second sliding rod is connected to the second fixing rod in a sliding mode, the other end of the second sliding rod is connected with the square plate, a second spring is sleeved on the side wall of the second fixing rod, and two ends of the second spring are connected with the operation box and the square plate respectively.

Pushing mechanism is including fixing the L template on the install bin, it is connected with the pivot to rotate on the L template, the one end of pivot is fixed with the plectane, be provided with a plurality of promotion subassemblies that are used for square board to promote on the plectane, be connected through opening the shutdown mechanism between pivot and the dwang.

The pushing assembly comprises a plurality of installation pipes arranged on a circular plate, each installation pipe is arranged in an annular array mode and is connected with a transmission rod in a sliding mode, a pushing ball is fixed at one end of each transmission rod, a third spring is arranged inside each installation pipe, and the other end of each third spring is connected with one end of each transmission rod.

Open stop gear including seting up at the relative one of pivot and dwang and serve an epaxial spline, sliding connection has the spline sleeve pipe on the spline, be connected with the driving plate through drive assembly on the install bin, the spline sleeve pipe rotates to be connected on the driving plate.

The drive assembly is including installing the thread bush on the driving plate, thread engagement is connected with the threaded rod on the thread bush, the one end and the install bin of threaded rod rotate to be connected, the other end of threaded rod is fixed with the rotating pin.

The installation box is hinged with a protective door.

The invention has the beneficial effects that:

(1) the complex precision die device for pouring aluminum alloy for manufacturing aluminum alloy, provided by the invention, is characterized in that in the process of forming and pouring aluminum alloy by the complex precision die device, conveyed aluminum alloy injection materials are filtered by the filter plate in the installation box, so that impurities existing in the aluminum alloy injection materials are prevented from being injected into the die body to influence the quality of aluminum alloy formation, in the process of circulating the aluminum alloy injection materials in the installation box, the blades on the rotating rod are pushed to rotate under stress by the fluid pressure of the aluminum alloy injection materials, in the process of rotating the blades, the cam is driven to synchronously rotate, in the process of rotating the cam, when the cam abuts against the filter plate, the filter plate is pushed to slide in the installation box, and each first sliding rod is driven to respectively slide on each first fixed rod, so that the first spring is stressed and deformed to generate elasticity, and when the cam does not abut against the filter plate any more, the filter resets under the elastic force effect of each first spring, and at the in-process that the filter resets, drives the filter atress through each first spring and takes place to shake, through the shake of filter, shakes the clearance to the impurity that remains in the filtration edulcoration in-process, keeps the filter to annotate the filterable permeability of material to the aluminum alloy, the further operation of pouring of the aluminum alloy of being convenient for on complicated precision die set.

(2) The invention relates to a pouring complex precision die device for manufacturing aluminum alloy, which is characterized in that a rotating pin is rotated in the process of controlling the feeding flow rate of aluminum alloy injection materials, so that spline sleeves are respectively connected with a rotating rod and splines on the rotating rod, the rotating rod is rotated to drive the rotating shaft and a circular plate at one end of the rotating shaft to synchronously rotate, the rotating rod, the rotating shaft and the circular plate are driven to synchronously rotate at a higher rotating speed along with the increase of the flow rate of the aluminum alloy injection materials, each transmission rod is driven to respectively slide in each installation tube under the action of centrifugal force in the rotating process of the circular plate, each transmission rod is driven to continuously slide on each installation tube along with the continuous increase of the feeding flow rate of the aluminum alloy injection materials, a push ball at one end of the transmission rod is abutted against a square plate in the continuous sliding process of each transmission rod, under the transmission action of force, promote square board and shutoff board and lean on the inside slip to the control box, through the slip of shutoff board, carry out the automatic identification shutoff to the feeding on the L type conveyer pipe, avoid the aluminium alloy on the L type conveyer pipe to annotate the material velocity of flow and cause the inside gas of mould body can't in time discharge the fashioned quality of reduction aluminum alloy too fast, form the feeding velocity of flow control mechanism of the aluminium alloy in-process of pouring on complicated accurate mould device, guaranteed the processingquality of aluminium alloy.

(3) According to the complex pouring precision mold device for manufacturing the aluminum alloy, disclosed by the invention, when rapid feeding and pouring are required, the rotating pin is reversely rotated, the transmission plate is driven to reset through transmission, the spline sleeve is not connected with the rotating rod any more in the resetting process, the rotating rod is not driven to rotate any more, so that a control mechanism cannot be operated and implemented, the rapid material injection operation is further facilitated according to actual requirements, and the pouring efficiency of the aluminum alloy on the complex precision mold device is further improved.

Drawings

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

FIG. 1 is a schematic view of an overall appearance structure of a complex casting precision mold device for manufacturing aluminum alloy according to the present invention;

FIG. 2 is a schematic view of the internal structure of a connecting assembly and an opening and closing mechanism of the complex casting precision mold device for manufacturing aluminum alloy according to the present invention;

FIG. 3 is a schematic structural view of a pushing assembly and a resetting assembly of the complex casting precision mold device for manufacturing aluminum alloy according to the present invention;

FIG. 4 is a schematic view of the internal structure of an installation box of the complex casting precision mold device for manufacturing aluminum alloy provided by the invention;

FIG. 5 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 6 is an enlarged view of the structure at B in FIG. 2;

FIG. 7 is an enlarged view of the structure at C in FIG. 3;

fig. 8 is an enlarged schematic view of the structure at D in fig. 6.

In the figure: 1. a mold body; 2. a feed pipe; 3. installing a box; 401. a first fixing lever; 402. a first slide bar; 403. a first spring; 5. a filter plate; 6. an L-shaped delivery pipe; 701. rotating the rod; 702. a fan blade; 703. a cam; 801. an operation box; 802. a plugging plate; 803. a square plate; 804. a second fixing bar; 805. a second slide bar; 806. a second spring; 901. an L-shaped plate; 902. a rotating shaft; 903. a circular plate; 904. installing a pipe; 905. a transmission rod; 906. pushing the ball; 907. a third spring; 1001. a spline; 1002. a spline housing; 1003. a drive plate; 1004. a threaded sleeve; 1005. a threaded rod; 1006. a rotation pin; 11. a guard gate.

Detailed Description

The following description of the embodiments of the present invention is provided by way of specific examples, and those skilled in the art will appreciate the advantages and utilities of the present invention from the disclosure herein. It should be noted that the drawings provided in the following embodiments are for illustrative purposes only, are schematic drawings rather than actual drawings, and should not be construed as limiting the present invention, and in order to better illustrate the embodiments of the present invention, some components in the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

In the description of the present invention, it should be understood that if there are terms such as "upper", "lower", "left", "right", "front", "back", etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, it is merely for convenience of description and simplicity of description, but does not indicate or imply that the indicated device or element must have a specific orientation, be constructed in a specific orientation, and be operated, therefore, the terms describing the positional relationships in the drawings are only used for illustrative purposes and are not to be construed as limiting the present invention, and those skilled in the art can understand the specific meanings for the above applications according to specific situations.

As shown in figures 1-8, the complex casting precision mold device for manufacturing aluminum alloy of the invention comprises a mold body 1 and a feeding pipe 2 arranged on the mold body 1, the other end of the feeding pipe 2 is provided with an installation box 3, the interior of the installation box 3 is connected with a filter plate 5 through a plurality of connecting components, the installation box 3 is provided with an L-shaped conveying pipe 6, the interior of the installation box 3 is provided with a shaking mechanism for pushing and shaking the filter plate 5, the L-shaped conveying pipe 6 is provided with a control mechanism for automatically controlling the feeding flow speed, an aluminum alloy injection material is conveyed to the interior of the installation box 3 through the L-shaped conveying pipe 6 and is finally conveyed to the interior of the mold body 1 through the feeding pipe 2 for aluminum alloy molding processing operation, and the conveyed aluminum alloy injection material is filtered through the filter plate 5 in the installation box 3 in the process of conveying the aluminum alloy injection material in the installation box 3, the quality of aluminum alloy formation is prevented from being influenced by the impurities existing in the aluminum alloy injection material injected into the die body 1.

Specifically, coupling assembling is including fixing the inside first dead lever 401 at install bin 3, and sliding connection has first slide bar 402 on first dead lever 401, and the other end and the 5 joint settings of filter of first slide bar 402 are equipped with first spring 403 on the lateral wall of first dead lever 401, and through coupling assembling, the filter 5 after the extrusion of being convenient for carries out the motion of resetting.

Specifically, the shaking mechanism includes a rotating rod 701 rotatably connected inside the installation box 3, a fan blade 702 is fixed on the rotating rod 701, one side of the fan blade 702 is located at the lower side of one end of the L-shaped delivery pipe 6, a cam 703 for pushing the filter plate 5 is arranged on the rotating rod 701, the fluid pressure of the aluminum alloy injection pushes the fan blade 702 on the rotating rod 701 to be forced to rotate in the process of circulating inside the installation box 3, the cam 703 is driven to rotate synchronously in the process of rotating the fan blade 702, in the process of rotating the cam 703, when the cam 703 abuts against the filter plate 5, the filter plate 5 is pushed to slide inside the installation box 3 and drives each first sliding rod 402 to slide on each first fixing rod 401 respectively so as to deform the first spring 403 to generate an elastic force, when the cam 703 no longer abuts against the filter plate 5, the filter plate 5 is reset under the elastic force of each first spring 403, in the in-process that filter 5 resets, drive filter 5 atress through each first spring 403 and take place the shake, through the shake of filter 5, shake the clearance to the impurity that persists in the filtration edulcoration in-process, keep filter 5 to annotate the filterable permeability of material to the aluminum alloy, the further operation of pouring of the aluminum alloy of being convenient for on complicated precision die set.

Specifically, the control device comprises an operation box 801 arranged on an L-shaped conveying pipe 6, a plugging plate 802 is connected on the operation box 801 in a sliding manner, the plugging plate 802 is matched with the inside of the operation box 801, a square plate 803 is arranged at one end, away from the operation box 801, of the plugging plate 802, the square plate 803 is connected with the operation box 801 through a reset component, a pushing mechanism for pushing and pushing the square plate 803 in an extruding manner is arranged on the installation box 3, the square plate 803 and the plugging plate 802 are pushed to slide towards the inside of the operation box 801 through transmission along with the increase of the flow rate of aluminum alloy injection materials, the feeding on the L-shaped conveying pipe 6 is automatically identified and plugged through the sliding of the plugging plate 802, the problem that the gas inside the mold body 1 cannot be discharged in time to reduce the quality of aluminum alloy molding due to the over-high flow rate of the aluminum alloy injection materials on the L-shaped conveying pipe 6 is avoided, and a feeding flow rate control mechanism for aluminum alloy in the pouring process on a complex precise mold device is formed, the processing quality of the aluminum alloy is ensured.

Specifically, the reset assembly comprises a second fixing rod 804 fixed on the operation box 801, a second sliding rod 805 is connected to the second fixing rod 804 in a sliding manner, the other end of the second sliding rod 805 is connected to the square plate 803, a second spring 806 is sleeved on the side wall of the second fixing rod 804, two ends of the second spring 806 are respectively connected to the operation box 801 and the square plate 803, and the square plate 803 after being pushed is convenient to reset through the reset assembly.

Concretely, pushing mechanism is including fixing the L template 901 on install bin 3, it is connected with pivot 902 to rotate on the L template 901, pivot 902's one end is fixed with plectane 903, be provided with a plurality of promotion subassemblies that are used for square board 803 to promote on the plectane 903, be connected through opening the mechanism between pivot 902 and the dwang 701, through pushing mechanism, promote square board 803 and closure plate 802 and lean on the inside slip to control box 801, through the slip of closure plate 802, carry out the automatic identification shutoff to the feeding on L type conveyer pipe 6, avoid the aluminium alloy on L type conveyer pipe 6 to annotate the material velocity of flow too fast and cause the inside gas of mould body 1 in time to discharge the fashioned quality of reduction aluminium alloy, form the feeding velocity of flow control mechanism of aluminium alloy pouring in-process on complicated precision mould device, the processingquality of aluminium alloy has been guaranteed.

Specifically, the pushing assembly includes a plurality of mounting tubes 904 mounted on a circular plate 903, each mounting tube 904 is arranged in an annular array, a transmission rod 905 is slidably connected to each mounting tube 904, a pushing ball 906 is fixed at one end of each transmission rod 905, a third spring 907 is mounted inside each mounting tube 904, the other end of the third spring 907 is connected to one end of the transmission rod 905, during the rotation of the circular plate 903, each transmission rod 905 is driven to slide inside each mounting tube 904 respectively under the action of centrifugal force, each transmission rod 905 is driven to continuously slide on each mounting tube 904 along with the continuous increase of the feeding flow rate of aluminum alloy injection, during the continuous sliding of each transmission rod 905, the pushing ball 906 at one end of the transmission rod 905 abuts against the square plate 803, and under the force transmission action, the square plate 803 and the blocking plate 802 are pushed to slide against the inside the operation box 801, facilitating the pushing of the square plate 803.

Specifically, start and stop mechanism including offering at the relative one end of pivot 902 and dwang 701 spline 1001, sliding connection has spline sleeve pipe 1002 on the spline 1001, is connected with driving plate 1003 through drive assembly on the install bin 3, and spline sleeve pipe 1002 rotates to be connected on driving plate 1003, is convenient for control the connection and the installation between dwang 701 and the pivot 902 through starting and stopping the mechanism.

Specifically, the drive assembly includes threaded sleeve 1004 installed on driving plate 1003, threaded engagement is connected with threaded rod 1005 on threaded sleeve 1004, the one end and the install bin 3 of threaded rod 1005 rotate to be connected, the other end of threaded rod 1005 is fixed with rotation pin 1006, rotate rotation pin 1006, drive threaded rod 1005 atress and carry out synchronous rotation, at threaded rod 1005 pivoted in-process, through the intermeshing transmission between threaded rod 1005 and the threaded sleeve 1004, it leans on to dwang 701 to move to drive driving plate 1003 atress, in the in-process of driving plate 1003 motion, make spline sleeve 1002 be connected with dwang 701 and the spline 1001 on the pivot 902 respectively.

Specifically, the hinge has guard gate 11 on the install bin 3, through guard gate 11, takes out the waste material after 5 filtration edulcorations of filter.

The working principle is as follows: in the process of pouring the aluminum alloy by the complex precise die device, firstly, the aluminum alloy injection material is conveyed to the inside of the installation box 3 through the L-shaped conveying pipe 6 and finally conveyed to the inside of the die body 1 through the feeding pipe 2 to carry out aluminum alloy forming processing operation, in the process of conveying the aluminum alloy injection material in the installation box 3, the conveyed aluminum alloy injection material is filtered through the filter plate 5 in the installation box 3, the phenomenon that impurities existing in the aluminum alloy injection material are injected into the inside of the die body 1 to influence the quality of aluminum alloy formation is avoided, in the process of circulating the aluminum alloy injection material in the installation box 3, the fan blades 702 on the rotating rod 701 are pushed to be stressed to rotate through the fluid pressure of the aluminum alloy injection material, in the process of rotating the fan blades 702, the cam 703 is driven to synchronously rotate, in the process of rotating the cam 703, when the cam 703 abuts against the filter plate 5, the filter plate 5 is pushed to slide in the installation box 3 and drives the first sliding rods 402 to slide on the first fixing rods 401 respectively, so that the first springs 403 are stressed and deformed to generate elastic force, when the cam 703 is not abutted against the filter plate 5 any more, the filter plate 5 is reset under the elastic force action of the first springs 403, in the resetting process of the filter plate 5, the first springs 403 drive the filter plate 5 to be stressed and shaken, impurities remained in the filtering and impurity removing processes are shaken and cleaned through shaking of the filter plate 5, the permeability of the filter plate 5 for aluminum alloy injection filtering is kept, and further, the pouring operation of aluminum alloy on a complex precision die device is facilitated;

then, when feeding, in the process of controlling the feeding flow rate of the aluminum alloy injection material, the rotating pin 1006 is rotated to drive the threaded rod 1005 to be stressed to rotate synchronously, in the process of rotating the threaded rod 1005, the transmission plate 1003 is driven to be stressed to move towards the rotating rod 701 through the mutual meshing transmission between the threaded rod 1005 and the threaded sleeve 1004, in the process of moving the transmission plate 1003, the spline sleeve 1002 is connected with the rotating rod 701 and the spline 1001 on the rotating shaft 902 respectively, at the moment, the rotating rod 701 rotates to drive the rotating shaft 902 and the circular plate 903 at one end of the rotating shaft 902 to rotate synchronously, and the rotating rod 701, the rotating shaft 902 and the circular plate 903 are driven to rotate synchronously at a faster rotating speed along with the increase of the feeding flow rate of the aluminum alloy injection material, in the process of rotating the circular plate 903, each transmission rod 905 is driven to slide in each installation tube 904 respectively under the action of centrifugal force, along with the increase of the feeding flow rate of the aluminum alloy injection material, the driving rods 905 are driven to continuously slide on the mounting pipes 904, in the process that the driving rods 905 continuously slide, the pushing balls 906 at one ends of the driving rods 905 are abutted against the square plates 803, the square plates 803 and the plugging plates 802 are pushed to slide towards the inside of the operation box 801 under the action of force transmission, feeding on the L-shaped conveying pipe 6 is automatically identified and plugged through the sliding of the plugging plates 802, the problem that gas in the mould body 1 cannot be timely discharged to reduce the quality of aluminum alloy forming due to the fact that the flow rate of aluminum alloy injection on the L-shaped conveying pipe 6 is too high is avoided, a feeding flow rate control mechanism of aluminum alloy in the pouring process on a complex precision mould device is formed, and the processing quality of the aluminum alloy is guaranteed;

finally, when need carry out quick feeding and build, carry out antiport with the rotating pin 1006, through the transmission, drive driving plate 1003 and reset, at the in-process that resets, make spline sleeve pipe 1002 no longer be connected with dwang 701, the rotation of dwang 701 no longer drives pivot 902 and rotates this moment, make control mechanism can't operate the implementation, further be convenient for carry out quick notes material operation according to actual requirement, further improvement the efficiency of pouring of aluminum alloy on complicated accurate mould device.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention as defined in the appended claims. The techniques, shapes, and configurations not described in detail in the present invention are all known techniques.

Claims

1. The utility model provides an aluminum alloy makes with pouring complicated precision mold device which characterized in that: including mould body (1) and inlet pipe (2) of setting on mould body (1), install bin (3) at the other end of inlet pipe (2), the inside of install bin (3) is connected with filter (5) through a plurality of coupling assembling, install L type conveyer pipe (6) on install bin (3), the inside of install bin (3) is provided with the shake mechanism that is used for filter (5) to promote the shake, be provided with the control mechanism who is used for feeding velocity of flow automatic control on L type conveyer pipe (6).

2. The device for casting the complex precision mold for manufacturing the aluminum alloy according to claim 1, wherein: coupling assembling is including fixing first dead lever (401) in install bin (3) inside, sliding connection has first slide bar (402) on first dead lever (401), the other end and filter (5) joint setting of first slide bar (402), the cover is equipped with first spring (403) on the lateral wall of first dead lever (401).

3. The device for casting the complex precision mold for manufacturing the aluminum alloy according to claim 1, wherein: the shaking mechanism comprises a rotating rod (701) which is rotatably connected inside the installation box (3), a fan blade (702) is fixed on the rotating rod (701), one side of the fan blade (702) is positioned at the lower side of one end of the L-shaped conveying pipe (6), and a cam (703) which is used for pushing the filter plate (5) is arranged on the rotating rod (701).

4. The device for casting the complex precision mold for manufacturing the aluminum alloy according to claim 1, wherein: controlling means is including installing control box (801) on L type conveyer pipe (6), sliding connection has shutoff board (802) on control box (801), shutoff board (802) and the inside of control box (801) match the setting each other, the one end that control box (801) were kept away from in shutoff board (802) is installed square board (803), be connected through the subassembly that resets between square board (803) and control box (801), be provided with on install bin (3) and be used for square board (803) to extrude the pushing mechanism who promotes.

5. The device for casting the complex precision mold for manufacturing the aluminum alloy according to claim 4, wherein: the reset assembly comprises a second fixing rod (804) fixed on the operation box (801), a second sliding rod (805) is connected to the second fixing rod (804) in a sliding mode, the other end of the second sliding rod (805) is connected with the square plate (803), a second spring (806) is sleeved on the side wall of the second fixing rod (804), and two ends of the second spring (806) are connected with the operation box (801) and the square plate (803) respectively.

6. The device for casting the complex precision mold for manufacturing the aluminum alloy according to claim 5, wherein: the pushing mechanism comprises an L-shaped plate (901) fixed on the installation box (3), a rotating shaft (902) is connected to the L-shaped plate (901) in a rotating mode, a circular plate (903) is fixed to one end of the rotating shaft (902), a plurality of pushing assemblies used for pushing the square plate (803) are arranged on the circular plate (903), and the rotating shaft (902) is connected with the rotating rod (701) through a starting and stopping mechanism.

7. The device for casting the complex precision mold for manufacturing the aluminum alloy according to claim 6, wherein: the pushing assembly comprises a plurality of mounting pipes (904) mounted on a circular plate (903), each mounting pipe (904) is arranged in an annular array, a transmission rod (905) is connected onto each mounting pipe (904) in a sliding mode, one end of each transmission rod (905) is fixed with a pushing ball (906), a third spring (907) is mounted inside each mounting pipe (904), and the other end of each third spring (907) is connected with one end of each transmission rod (905).

8. The device for casting the complex precision mold for manufacturing the aluminum alloy according to claim 6, wherein: open stop gear including offering spline (1001) in pivot (902) and dwang (701) relative one end, sliding connection has spline sleeve pipe (1002) on spline (1001), be connected with driving plate (1003) through drive assembly on install bin (3), spline sleeve pipe (1002) rotate to be connected on driving plate (1003).

9. The device for casting the complex precision mold for manufacturing the aluminum alloy according to claim 8, wherein: the driving assembly comprises a threaded sleeve (1004) installed on a transmission plate (1003), a threaded rod (1005) is connected to the threaded sleeve (1004) in a threaded engagement mode, one end of the threaded rod (1005) is rotatably connected with the installation box (3), and a rotating pin (1006) is fixed to the other end of the threaded rod (1005).

10. The device for casting the complex precision mold for manufacturing the aluminum alloy according to claim 1, wherein: the installation box (3) is hinged with a protective door (11).