CN114101643A

CN114101643A - Preliminary die-casting forming device of metal for manufacturing high-end equipment

Info

Publication number: CN114101643A
Application number: CN202111293685.XA
Authority: CN
Inventors: 许红莲
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-03
Filing date: 2021-11-03
Publication date: 2022-03-01

Abstract

The invention relates to a forming device, in particular to a metal primary die-casting forming device for manufacturing high-end equipment. The invention provides a metal primary die-casting forming device for manufacturing high-end equipment, which can be used for die-casting and forming molten metal, pouring the molten metal to a designated position at intervals and collecting the molten metal in a centralized manner to complete die-casting of the high-end equipment. The utility model provides a high-end equipment is made with preliminary die-casting forming device of metal, is connected with the workstation between the support frame top including support frame, workstation, splendid attire bucket, enhancement post and moving mechanism, is connected with the enhancement post between the support frame, is equipped with moving mechanism on the workstation, still including rotary mechanism and sealing mechanism, rotary mechanism is installed at the workstation top, installs splendid attire bucket on the rotary mechanism, and the rotatory formula in splendid attire bucket inner wall front side is equipped with sealing mechanism. The metal hydraulic casting mould is provided with the moving mechanism and the rotating mechanism, so that metal can be hydraulically cast into high-end equipment metal, and meanwhile, the metal liquid in the liquid containing barrel is poured into the mould containing box.

Description

Preliminary die-casting forming device of metal for manufacturing high-end equipment

Technical Field

The invention relates to a forming device, in particular to a metal primary die-casting forming device for manufacturing high-end equipment.

Background

The high-end equipment manufacturing industry is the high-end field of the equipment manufacturing industry, the high end mainly shows that the technical content is high, the knowledge and technology are intensive, the high end is positioned at the high end of a value chain, and the high-end equipment manufacturing part has the characteristic of high added value.

Therefore, it is highly desirable to design a metal preliminary die-casting device for manufacturing high-end equipment, which can perform die-casting of molten metal, pour the molten metal to a designated position at intervals, and collect the collected molten metal in a concentrated manner.

Disclosure of Invention

In order to overcome the defects that great labor is required for manual metal hydraulic casting and forming by workers, the process that the workers pour the molten metal to the specified position at intervals is complicated, and long time is required for manual collection and die casting of workers to complete high-end equipment, the invention has the technical problems that: the metal primary die-casting forming device for manufacturing the high-end equipment can be used for die-casting and forming metal liquid, pouring the metal liquid to a designated position at intervals and collecting the collected metal liquid in a centralized manner to complete the die-casting of the high-end equipment.

The technical implementation scheme of the invention is as follows: the utility model provides a high-end equipment is made with preliminary die-casting forming device of metal, is connected with the workstation between the support frame top including support frame, workstation, splendid attire bucket, enhancement post and moving mechanism, is connected with the enhancement post between the support frame, is equipped with moving mechanism on the workstation, still including rotary mechanism and sealing mechanism, rotary mechanism is installed at the workstation top, installs splendid attire bucket on the rotary mechanism, and the rotatory formula in splendid attire bucket inner wall front side is equipped with sealing mechanism.

Preferably, the moving mechanism comprises a cylinder, a mold containing box, a stop block, a long rotating plate, a short rotating plate and fixing nails, the cylinder is installed on the front side of the bottom of the workbench, the mold containing box is arranged on the workbench in a sliding mode, the stop block is symmetrically welded to the top of the mold containing box, the long rotating plate is arranged on the front side of the lower portion of the mold containing box in a rotating mode, the short rotating plate is arranged on the rear side of the lower portion of the mold containing box in a rotating mode, the front end of the short rotating plate is in contact fit with the rear end of the long rotating plate, the fixing nails are fixedly connected to the lower portions of the left side and the right side of the mold containing box, the number of the fixing nails is four, and the four fixing nails are matched with the corresponding long rotating plate and the short rotating plate in a sliding mode.

Preferably, the rotating mechanism comprises limiting columns, racks, full gears and baffles, the limiting columns are symmetrically welded on the front side of the top of the workbench, liquid containing barrels are arranged between the upper portions of the two limiting columns in a rotating mode, the racks are welded on the left side and the right side of the top of the die box, the full gears are installed at the left end and the right end of each liquid containing barrel and are in contact fit with the racks, the baffles are welded on the left side and the right side of each liquid containing barrel, and the baffles are in contact fit with the limiting columns.

Preferably, the sealing mechanism comprises a sealing plate, a jacking column, connecting blocks, a rotating plate and a first torsion spring, the sealing plate is fixedly connected to the top end of the liquid containing barrel, the jacking columns are symmetrically welded to the top of the sealing plate, the connecting blocks are symmetrically arranged at the bottom of the sealing plate, the rotating plate is arranged between the two connecting blocks in a rotating mode, the rotating plate is in sliding fit with the sealing plate, the first torsion spring is sleeved on the rotating plate, the number of the first torsion springs is two, and the two ends of the first torsion spring are respectively connected to the rotating plate and the connecting blocks.

Preferably, the device also comprises an auxiliary discharging mechanism, the auxiliary discharging mechanism comprises a limiting plate, a hollow frame and a limiting rod, extension spring, the connecting pipe, rotor plate and second torsion spring, workstation top rear side symmetric welding has the limiting plate, be connected with hollow frame between two dogs, hollow frame is connected with flourishing mould box top, equal slidingtype is equipped with the gag lever post in two limiting plates, the quantity of gag lever post is four, four gag lever posts front end all with hollow frame outer wall both sides connection, all the cover is equipped with extension spring on four gag lever posts, extension spring's both ends are connected respectively on limiting plate and gag lever post, install the connecting pipe in the hollow frame, the connecting pipe bottom penetrates flourishing mould box, connecting pipe and rotor plate contact fit, the rotary type is equipped with the rotor plate in the connecting pipe, the cover is equipped with second torsion spring on the rotor plate, rotor plate and connecting pipe are connected respectively at second torsion spring's both ends.

As preferred, still including locking mechanical system, locking mechanical system is including the rectangular board, the carriage, insert the nail group, circle frame and reset spring, the rectangular board has all been welded to flourishing diaphragm capsule top left and right sides, be connected with the carriage between two limiting plate upper portions, the equal slidingtype in carriage left and right sides is equipped with inserts the nail group, the nail group top of inserting of the left and right sides all is equipped with the circle frame, circle frame and the cooperation of rectangular board contact, all the cover is equipped with reset spring on the nail group of inserting of the left and right sides, reset spring's both ends are connected respectively on inserting nail group and carriage.

Preferably, the material receiving mechanism comprises connecting columns, a square frame, drawers and handles, the connecting columns are symmetrically welded to the rear side of the bottom of the workbench, the square frame is connected between the bottom ends of the connecting columns on the left side and the right side, the drawers are arranged in the square frame in a sliding mode, and the handles are welded to the rear side of the drawers.

Preferably, the top pillar is elongated.

Compared with the prior art, the invention has the following advantages: 1. the metal hydraulic casting mould is provided with the moving mechanism and the rotating mechanism, so that the metal can be hydraulically cast into high-end equipment metal, and meanwhile, the metal liquid in the liquid containing barrel is not required to be manually poured into the mould containing box by workers;

2. the die box is provided with the sealing mechanism and the auxiliary discharging mechanism, so that the die box can be in a sealing state as required, and the molten metal discharge amount in the liquid containing barrel is controlled according to the use requirement of workers, so that the molten metal is wasted;

3. the mould box clamping device is provided with the locking mechanism and the moving mechanism, so that the mould box can be clamped according to the requirement, and the situation that the mould box rebounds is effectively avoided;

4. the high-end equipment metal collecting device is provided with the material receiving mechanism and the moving mechanism, so that the labor intensity of workers for collecting high-end equipment metal is effectively reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first angle of the moving mechanism of the present invention.

Fig. 3 is a schematic perspective view of a second angle of the moving mechanism of the present invention.

Fig. 4 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 5 is a perspective view of the sealing mechanism of the present invention at a first angle.

Fig. 6 is a perspective view of the sealing mechanism according to the second embodiment of the present invention.

Fig. 7 is a schematic perspective view of the auxiliary discharging mechanism of the present invention.

Fig. 8 is a partial perspective view of the auxiliary discharging mechanism of the present invention.

Fig. 9 is a perspective view of the locking mechanism of the present invention.

Fig. 10 is a partial perspective view of the locking mechanism of the present invention.

Fig. 11 is a schematic perspective view of the receiving mechanism of the present invention.

Description of reference numerals: 1_ support frame, 2_ workbench, 3_ liquid containing barrel, 4_ reinforcing column, 5_ moving mechanism, 51_ air cylinder, 52_ die box, 53_ stop, 54_ long rotating plate, 55_ short rotating plate, 56_ fixing nail, 6_ rotating mechanism, 61_ limiting column, 62_ rack, 63_ full gear, 64_ baffle, 7_ sealing mechanism, 71_ closing plate, 72_ top column, 73_ connecting block, 74_ rotating plate, 75_ first torsion spring, 8_ auxiliary discharging mechanism, 81_ limiting plate, 82_ hollow frame, 83_ limiting rod, 84_ extension spring, 85_ connecting pipe, 86_ rotating plate, 87_ second torsion spring, 9_ locking mechanism, 91_ long plate, 92_ connecting frame, 93_ inserting nail group, 94_ round rod frame, 95_ return spring, 10_ receiving mechanism, connecting column 101_ box, 102_ box, 103_ drawer and 104_ handle.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

Example 1

The utility model provides a high-end is equipped preliminary die-casting forming device of metal for manufacturing, as shown in figure 1, including support frame 1, workstation 2, flourishing liquid barrel 3, strengthen post 4, moving mechanism 5, rotary mechanism 6 and sealing mechanism 7, be connected with workstation 2 between 1 tops of support frame, be connected with between the support frame 1 and strengthen post 4, be equipped with moving mechanism 5 on the workstation 2, rotary mechanism 6 is installed at 2 tops of workstation, install flourishing liquid barrel 3 on the rotary mechanism 6, 3 inner walls front side rotations of flourishing liquid barrel are equipped with sealing mechanism 7.

When a worker needs to perform primary die-casting forming on high-end equipment metal, the worker can firstly pour molten metal into the liquid containing barrel 3, then the worker can enable the moving mechanism 5 to stretch and retract, the moving mechanism 5 extends to slide towards the rear side on the workbench 2, the moving mechanism 5 can enable the rotating mechanism 6 to rotate and incline, at the moment, the sealing mechanism 7 can be manually opened, then part of the molten metal in the liquid containing barrel 3 flows into the moving mechanism 5, after the molten metal is die-cast and formed in the moving mechanism 5, the worker can take out the high-end equipment metal in the moving mechanism 5, when the moving mechanism 5 shrinks to slide forwards on the workbench 2 to reset, the moving mechanism 5 can enable the rotating mechanism 6 to rotate to reset, at the moment, the sealing mechanism 7 can be manually closed, then part of the molten metal in the liquid containing barrel 3 can temporarily stop pouring into the moving mechanism 5, then the worker can close the moving mechanism 5, and if the worker needs to continue to perform primary die-casting forming on the high-end equipment metal, the worker repeats the above operation again.

Example 2

In a preferred embodiment of the present invention, as shown in fig. 2-11, the moving mechanism 5 includes an air cylinder 51, a mold box 52, a stopper 53, a long rotating plate 54, a short rotating plate 55 and fixing nails 56, the air cylinder 51 is installed on the front side of the bottom of the workbench 2, the mold box 52 is slidably installed on the workbench 2, the stopper 53 is symmetrically welded on the top of the mold box 52, the long rotating plate 54 is rotatably installed on the front side of the lower portion of the mold box 52, the short rotating plate 55 is rotatably installed on the rear side of the lower portion of the mold box 52, the front end of the short rotating plate 55 is in contact fit with the rear end of the long rotating plate 54, the fixing nails 56 are fixedly connected to the lower portions of the left and right sides of the mold box 52, the number of the fixing nails 56 is four, and the four fixing nails 56 are slidably fit with the corresponding long rotating plate 54 and short rotating plate 55.

A worker can manually pour the molten metal in the liquid containing barrel 3 into the die containing box 52, the worker can open the air cylinder 51, the telescopic rod of the air cylinder 51 is extended to enable the die containing box 52 to slide towards the rear side in the workbench 2, the stop block 53, the long rotating plate 54 and the short rotating plate 55 can move towards the rear side, the fixing nail 56 can also move towards the rear side, after the molten metal in the die containing box 52 is formed by die casting, the worker can pull out the fixing nail 56 towards the outer side, then the worker can rotate the long rotating plate 54 and the short rotating plate 55, the long rotating plate 54 and the short rotating plate 55 can rotate to temporarily stop contacting with the bottom of the die containing box 52, the worker can manually take out the high-end equipment metal in the die containing box 52, then the worker can rotate the long rotating plate 54 and the short rotating plate 55 back to the original position, when the long rotating plate 54 and the short rotating plate 55 rotate to contact with the bottom of the die containing box 52, the worker can push the fixing nail 56 back to the original position, the long rotating plate 54 and the short rotating plate 55 can be clamped by the fixing nail 56, and then the mold box 52 is in a sealed state, when the telescopic rod of the cylinder 51 is contracted, the mold box 52 slides to the front side in the workbench 2 to reset, and then the stop block 53, the long rotating plate 54 and the short rotating plate 55 move to the front side, so that the fixing nail 56 also moves to reset to the front side, then the worker can close the cylinder 51, and if the worker needs to continue to hydraulically cast the metal into high-end equipment metal, the worker repeats the operation again.

The rotating mechanism 6 comprises limiting columns 61, racks 62, full gears 63 and baffle plates 64, the limiting columns 61 are symmetrically welded on the front side of the top of the workbench 2, the liquid containing barrel 3 is rotatably arranged between the upper portions of the two limiting columns 61, the racks 62 are welded on the left side and the right side of the top of the liquid containing box 52, the full gears 63 are installed on the left end and the right end of the liquid containing barrel 3, the full gears 63 are in contact fit with the racks 62, the baffle plates 64 are welded on the left side and the right side of the liquid containing barrel 3, and the baffle plates 64 are in contact fit with the limiting columns 61.

The process that a worker can manually pour the molten metal in the liquid containing barrel 3 into the die containing box 52 is complicated, so that when the die containing box 52 slides towards the rear side, the die containing box 52 can enable the rack 62 to move towards the rear side, when the rack 62 moves towards the rear side to be contacted with the full gear 63, the rack 62 can enable the full gear 63 to rotate reversely, then the full gear 63 can enable the liquid containing barrel 3 to rotate reversely on the limiting column 61, the liquid containing barrel 3 rotates to enable the baffle 64 to rotate reversely, when the baffle 64 rotates reversely to be contacted with the limiting column 61, the limiting column 61 can limit the baffle 64, therefore, the liquid containing barrel 3 can be inclined, the molten metal in the liquid containing barrel 3 can flow into the die containing box 52, when the die containing box 52 slides towards the front side, the die containing box 52 can enable the rack 62 to move towards the front side, when the rack 62 moves towards the front side to be contacted with the full gear 63, the rack 62 can enable the full gear 63 to rotate forwards, and then the liquid containing barrel 3 can rotate forwards on the limiting column 61, the baffle plate 64 can rotate forwards due to the rotation of the liquid containing barrel 3, when the baffle plate 64 rotates backwards to be temporarily stopped to be contacted with the limiting column 61, the limiting column 61 can temporarily stop limiting the baffle plate 64, so that the liquid containing barrel 3 can rotate forwards and reset, the molten metal in the liquid containing barrel 3 can temporarily stop flowing into the mold containing box 52, and the device realizes that the molten metal in the liquid containing barrel 3 is not required to be manually poured into the mold containing box 52 by a worker.

The sealing mechanism 7 comprises a sealing plate 71, a top column 72, connecting blocks 73, a rotating plate 74 and first torsion springs 75, the sealing plate 71 is fixedly connected to the top end of the liquid containing barrel 3, the top of the sealing plate 71 is symmetrically welded with the top column 72, the connecting blocks 73 are symmetrically arranged at the bottom of the sealing plate 71, the rotating plate 74 is rotatably arranged between the two connecting blocks 73, the rotating plate 74 is in sliding fit with the sealing plate 71, the first torsion springs 75 are sleeved on the rotating plate 74, the number of the first torsion springs 75 is two, and two ends of the first torsion springs 75 are respectively connected to the rotating plate 74 and the connecting blocks 73.

In order to enable the molten metal in the liquid barrel 3 to accurately flow into the die box 52, when the liquid barrel 3 rotates, the liquid barrel 3 can enable the closing plate 71, the top column 72 and the connecting block 73 to rotate, the rotating plate 74 and the first torsion spring 75 can rotate along with the rotating plate, then a worker can enable the rotating plate 74 to rotate on the connecting block 73, the first torsion spring 75 is stretched, when the rotating plate 74 rotates to temporarily stop the closing plate 71, the molten metal in the liquid barrel 3 can accurately flow into the die box 52, when the worker does not need to enable the molten metal in the liquid barrel 3 to flow into the die box 52 temporarily, the worker can rapidly release the rotating plate 74, the first torsion spring 75 resets to enable the rotating plate 74 to rotate and reset on the connecting block 73, when the rotating plate 74 rotates to re-close the plate 71, the molten metal in the liquid barrel 3 can temporarily stop flowing into the die box 52, if the worker needs to continuously flow the molten metal in the liquid barrel 3 into the die box 52, the worker repeats the above operation again.

The automatic feeding device further comprises an auxiliary discharging mechanism 8, wherein the auxiliary discharging mechanism 8 comprises a limiting plate 81, a hollow frame 82, limiting rods 83, an extension spring 84, connecting pipes 85, a rotating plate 86 and a second torsion spring 87, the limiting plate 81 is symmetrically welded on the rear side of the top of the workbench 2, the hollow frame 82 is connected between the two blocks 53, the hollow frame 82 is connected with the top of the mold containing box 52, the limiting rods 83 are arranged in the two limiting plates 81 in a sliding mode, the number of the limiting rods 83 is four, the front ends of the four limiting rods 83 are connected with the two sides of the outer wall of the hollow frame 82, the extension springs 84 are sleeved on the four limiting rods 83, the two ends of each extension spring 84 are respectively connected to the limiting plates 81 and the limiting rods 83, the connecting pipes 85 are arranged in the hollow frame 82, the bottom ends of the connecting pipes 85 penetrate into the mold containing box 52, the connecting pipes 85 are in contact fit with the rotating plate 74, the rotating plate 86 is arranged in the connecting pipes 85 in a rotating mode, the second torsion spring 87 is sleeved on the rotating plate 86, both ends of the second torsion spring 87 are connected to the rotating plate 86 and the connecting pipe 85, respectively.

In order to avoid waste caused by continuous flow of the molten metal in the liquid containing barrel 3 into the die box 52, when a worker needs to make the molten metal in the liquid containing barrel 3 flow into the die box 52, when the stopper 53 moves towards the rear side, the stopper 53 can make the hollow frame 82 move towards the rear side, the hollow frame 82 can make the limiting rod 83 slide towards the rear side in the limiting plate 81, the extension spring 84 is extended, the connecting pipe 85, the rotating plate 86 and the second torsion spring 87 move towards the rear side, when the connecting pipe 85 moves towards the rear side to be contacted with the rotating plate 74, the connecting pipe 85 can push the rotating plate 74 open, the top pillar 72 just rotates to be contacted with the rotating plate 86, the top pillar 72 can make the rotating plate 86 rotate on the connecting pipe 85, the second torsion spring 87 is extended, at this time, the molten metal in the liquid containing barrel 3 flows into the die box 52 through the connecting pipe 85, when the stopper 53 moves towards the front side, the hollow frame 82 can move towards the front side, the hollow frame 82 can make the limiting rod 83 slide to the front side in the limiting plate 81, the extension spring 84 can be reset to assist the limiting rod 83 to reset, and then the connecting pipe 85, the rotating plate 86 and the second torsion spring 87 can move to the front side, when the connecting pipe 85 moves to the front side and temporarily stops contacting with the rotating plate 74, the first torsion spring 75 can be reset to reset the rotating plate 74, when the top pillar 72 rotates to the temporarily stop contacting with the rotating plate 86, the second torsion spring 87 can be reset to enable the rotating plate 86 to rotate on the connecting pipe 85, at this time, the rotating plate 86 can block the connecting pipe 85, at this time, the molten metal in the liquid containing barrel 3 can temporarily stop flowing into the liquid containing box 52, so the device can control the molten metal flowing amount in the liquid containing barrel 3 according to the use requirements of workers, and the molten metal is wasted.

Still including locking mechanical system 9, locking mechanical system 9 is including rectangular board 91, the connection frame 92, insert nail group 93, pole frame 94 and reset spring 95, long board 91 has all been welded to the flourishing diaphragm capsule 52 top left and right sides, be connected with connection frame 92 between two limiting plate 81 upper portions, the equal slidingtype of the connection frame 92 left and right sides is equipped with inserts nail group 93, the nail group 93 top of inserting of the left and right sides all is equipped with pole frame 94, pole frame 94 and the cooperation of rectangular board 91 contact, all the cover is equipped with reset spring 95 on the nail group 93 of inserting of the left and right sides, reset spring 95's both ends are connected respectively on inserting nail group 93 and connection frame 92.

In order to prevent the worker from rebounding when the worker rotates the long rotating plate 54 and the short rotating plate 55, the die case 52, therefore, when the mold box 52 moves backward, the mold box 52 will make the long plate 91 move backward, the long plate 91 will temporarily stop moving backward to open the round bar frame 94 outward, the pin group 93 will slide inward in the connecting frame 92 due to the reset of the reset spring 95, when the pin group 93 slides inward to contact with the mold box 52, the pin group 93 will clamp the mold box 52, when the mold box 52 moves forward, the mold box 52 will make the long plate 91 move forward, the long plate 91 will expand the rod frame 94 outward again when moving forward, the return spring 95 will be stretched, further, the insert pin set 93 slides outward in the connecting frame 92, and when the insert pin set 93 slides outward and stops contacting the die box 52 temporarily, the insert pin set 93 can temporarily stop clamping the mold box 52, so that the device effectively avoids the condition that the mold box 52 rebounds.

The material receiving mechanism 10 comprises connecting columns 101, a frame 102, drawers 103 and handles 104, the connecting columns 101 are symmetrically welded to the rear side of the bottom of the workbench 2, the frame 102 is connected between the bottom ends of the connecting columns 101 on the left side and the right side, the drawers 103 are arranged in the frame 102 in a sliding mode, and the handles 104 are welded to the rear side of the drawers 103.

The worker directly takes out the die-cast high-end equipment metal directly and collects the high-end equipment metal uniformly, so that great labor is consumed, after the long rotating plate 54 and the short rotating plate 55 are opened, the high-end equipment metal in the die containing box 52 falls into the drawer 103 to be collected in a concentrated mode, when the high-end equipment metal in the drawer 103 is full, the worker can enable the handle 104 to move towards the rear side, the handle 104 moves towards the rear side to enable the drawer 103 to slide backwards in the frame 102, then the worker can manually pour the high-end equipment metal in the drawer 103 to a specified position, the worker can push the drawer 103 towards the front side through the handle 104 to return to the frame 102, and at the moment, the drawer 103 can continue to collect the high-end equipment metal, and therefore the labor intensity of collecting the high-end equipment metal by the worker is effectively relieved.

It should be understood that this example is only for illustrating the present invention and is not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims

1. The utility model provides a high-end equipment is made with preliminary die-casting forming device of metal, including support frame (1), workstation (2), ladle (3), reinforce post (4) and moving mechanism (5), be connected with workstation (2) between support frame (1) top, be connected with between support frame (1) and strengthen post (4), be equipped with moving mechanism (5), characterized by on workstation (2): the liquid container is characterized by further comprising a rotating mechanism (6) and a sealing mechanism (7), wherein the rotating mechanism (6) is installed at the top of the workbench (2), the liquid containing barrel (3) is installed on the rotating mechanism (6), and the sealing mechanism (7) is rotationally arranged on the front side of the inner wall of the liquid containing barrel (3).

2. A metal preliminary die-casting forming device for manufacturing high-end equipment, according to claim 1, wherein: the moving mechanism (5) comprises an air cylinder (51), a containing mold box (52), a stop block (53), a long rotating plate (54), a short rotating plate (55) and fixing nails (56), the air cylinder (51) is installed on the front side of the bottom of the workbench (2), the containing mold box (52) is slidably arranged on the workbench (2), the stop block (53) is symmetrically welded to the top of the containing mold box (52), the long rotating plate (54) is rotatably arranged on the front side of the lower portion of the containing mold box (52), the short rotating plate (55) is rotatably arranged on the rear side of the lower portion of the containing mold box (52), the front end of the short rotating plate (55) is in contact fit with the rear end of the long rotating plate (54), the fixing nails (56) are fixedly connected to the lower portions of the left side and the right side of the containing mold box (52), the number of the fixing nails (56) is four, and the four fixing nails (56) are in sliding fit with the corresponding long rotating plate (54) and the short rotating plate (55).

3. The apparatus of claim 2, wherein the metal die-casting device comprises: the rotary mechanism (6) comprises limiting columns (61), racks (62), full gears (63) and baffle plates (64), the limiting columns (61) are symmetrically welded to the front side of the top of the workbench (2), the liquid containing barrel (3) is arranged between the upper portions of the two limiting columns (61) in a rotating mode, the racks (62) are welded to the left side and the right side of the top of the liquid containing box (52), the full gears (63) are installed at the left end and the right end of the liquid containing barrel (3), the full gears (63) are in contact fit with the racks (62), the baffle plates (64) are welded to the left side and the right side of the liquid containing barrel (3), and the baffle plates (64) are in contact fit with the limiting columns (61).

4. A metal preliminary die-casting forming device for manufacturing high-end equipment according to claim 3, wherein: sealing mechanism (7) is including closing plate (71), fore-set (72), connecting block (73), rotor plate (74) and first torsion spring (75), flourishing liquid bucket (3) top rigid coupling has closing plate (71), closing plate (71) top symmetric welding has fore-set (72), closing plate (71) bottom symmetry is equipped with connecting block (73), the rotary type is equipped with rotor plate (74) between two connecting blocks (73), rotor plate (74) and closing plate (71) sliding type cooperation, the cover is equipped with first torsion spring (75) on rotor plate (74), the quantity of first torsion spring (75) is two, the both ends of first torsion spring (75) are connected respectively on rotor plate (74) and connecting block (73).

5. A metal preliminary die-casting forming device for manufacturing high-end equipment, according to claim 4, wherein: the automatic die filling machine further comprises an auxiliary discharging mechanism (8), wherein the auxiliary discharging mechanism (8) comprises a limiting plate (81), a hollow frame (82), limiting rods (83), extension springs (84), connecting pipes (85), a rotating plate (86) and second torsion springs (87), the limiting plates (81) are symmetrically welded on the rear side of the top of the workbench (2), the hollow frame (82) is connected between the two limiting blocks (53), the hollow frame (82) is connected with the top of the die holding box (52), the limiting rods (83) are arranged in the two limiting plates (81) in a sliding mode, the number of the limiting rods (83) is four, the front ends of the four limiting rods (83) are connected with the two sides of the outer wall of the hollow frame (82), the extension springs (84) are sleeved on the four limiting rods (83), the two ends of the extension springs (84) are respectively connected to the limiting plates (81) and the limiting rods (83), the connecting pipes (85) are installed in the hollow frame (82), the bottom end of the connecting pipe (85) penetrates through the die holding box (52), the connecting pipe (85) is in contact fit with the rotating plate (74), the rotating plate (86) is arranged in the connecting pipe (85) in a rotating mode, a second torsion spring (87) is sleeved on the rotating plate (86), and two ends of the second torsion spring (87) are connected to the rotating plate (86) and the connecting pipe (85) respectively.

6. The apparatus of claim 5, wherein the metal die-casting device comprises: still including locking mechanical system (9), locking mechanical system (9) are including long board (91), connecting frame (92), insert nail group (93), round bar frame (94) and reset spring (95), long board (91) have all been welded to both sides about flourishing diaphragm capsule (52) top, be connected with connecting frame (92) between two limiting plate (81) upper portions, the equal slidingtype in connecting frame (92) left and right sides is equipped with inserts nail group (93), the nail group (93) top of inserting of the left and right sides all is equipped with round bar frame (94), round bar frame (94) and long board (91) contact cooperation, all overlap reset spring (95) on the nail group (93) of inserting of the left and right sides, the both ends of reset spring (95) are connected respectively on inserting nail group (93) and connecting frame (92).

7. A metal preliminary die-casting forming device for manufacturing high-end equipment, according to claim 6, wherein: the material receiving mechanism (10) comprises connecting columns (101), square frames (102), drawers (103) and handles (104), the connecting columns (101) are symmetrically welded to the rear side of the bottom of the workbench (2), the square frames (102) are connected between the bottom ends of the connecting columns (101) on the left side and the right side, the drawers (103) are arranged in the square frames (102) in an inward sliding mode, and the handles (104) are welded to the rear side of the drawers (103).

8. A metal preliminary die-casting forming device for manufacturing high-end equipment, according to claim 4, wherein: the top pillar (72) is in the shape of a long strip.