CN116851729A - Rotary automatic casting device - Google Patents

Abstract

The utility model is suitable for the technical field of casting equipment, and provides a rotary automatic casting device which comprises a main base, wherein a casting assembly is arranged at the central position of the top of the main base, rotary assemblies are arranged around the casting assembly, and a plurality of shaping assemblies are arranged at the top of the rotary assemblies; in the process that the rotating base drives the die base to rotate under the control of the driving motor, the first electric push rod drives the sealing plate to continuously move rightwards along the first moving groove to enter the third limiting groove until the trigger button is touched to stop the driving motor, at the moment, the rotating base stops rotating, the liquid outlet pipe stops above the forming cavity, the liquid outlet channel of the liquid outlet pipe is opened, the metal solution enters the forming cavity, and the metal solution can accurately enter the forming cavity when the die base stops, so that waste is avoided; after the metal solution in the molding cavity is molded, the second electric push rod can push the bottom plate to move upwards to push the molded product out of the molding cavity, so that a worker can clamp the molded product quickly.

Description

Rotary automatic casting device

Technical Field

The utility model belongs to the technical field of casting equipment, and particularly relates to a rotary automatic casting device.

Background

The casting method is to melt gold and silver into liquid state, and to cast the alloy into a device by using a die casting method, which is one of the earliest gold and silver processing methods. The casting is a process frequently adopted in industrial manufacturing, and the casting is adopted to manufacture products, so that the method has the characteristics of simple process, high safety and suitability for mass production.

The utility model of China with the publication number of CN203541502U discloses a rotary casting device, which comprises a base, wherein a rotary support is fixed on the base, a casting material cylinder is fixed at the top end of the rotary support, a cover body is hinged at the opening of the casting material cylinder, a storage inner container is formed in the casting material cylinder, a funnel-shaped discharge port is formed at the bottom of the storage inner container, a casting pipe is fixedly welded at the bottom of the funnel-shaped discharge port, the casting pipe extends out of the outer wall of the casting material cylinder, a semicircular mold seat is arranged below the extending end of the casting pipe, a pushing handle is fixedly welded on the extending end of the casting pipe, a plurality of mold grooves are uniformly formed in the semicircular mold seat along the circular arc direction, and a casting forming mold is arranged in the mold grooves. The utility model adopts rotary lead casting, the casting cylinder is additionally provided with the cover body and the heat insulation layer, casting quality is ensured, casting molds with different specifications can be replaced on the mold device, materials are saved, and working space is more effectively utilized.

However, the above utility model still has some disadvantages:

1. in the using process of the utility model, the casting pipe is driven to rotate in the horizontal direction by the rotary support, the metal solution in the storage liner is drained into the casting forming die by the casting pipe to realize casting, and the liquid outlet of the casting pipe is not provided with a blocking structure, so that the metal solution can drop between the two casting forming dies, namely the top of the semicircular die seat, when the casting pipe is driven to rotate by the rotary support, the casting cost is increased, and the cooled metal solution is difficult to clean;

2. in the use process, the casting pipe is driven to rotate in the horizontal direction by the rotary support, the metal solution in the storage liner is drained into the casting forming die by the casting pipe to realize casting, and the rotary support or the casting pipe is not provided with a positioning mechanism, so that the rotary support needs to monitor manually when driving the casting pipe to rotate, the liquid outlet of the casting pipe is aligned with the casting forming die when the rotary support drives the casting pipe to rotate and stop, the metal solution is ensured to accurately enter the casting forming die, the waste of the metal solution caused by dislocation is avoided, and even high-temperature safety accidents are caused;

3. in the using process of the utility model, the casting pipe is driven to rotate in the horizontal direction by the rotary support, the metal solution in the storage liner is drained into the casting forming die by the casting pipe to realize casting, the finished product can be taken out after the metal solution enters the casting forming die to finish shaping, and the ejection mechanism is not arranged in the casting forming die, so that the finished product is required to be manually taken out from the casting forming die after shaping, and time and labor are wasted when workers clamp the finished product by using tools.

Disclosure of Invention

The utility model provides a rotary automatic casting device, which aims to solve the problems that when a casting pipe is driven by a rotary support to rotate in the use process of the utility model in the background art, a metal solution can drop between two casting forming dies, and the casting pipe is not provided with a positioning mechanism, so that dislocation is easy to occur, and the metal solution is wasted.

The utility model is realized in such a way, the rotary automatic casting device comprises a main base, wherein a casting assembly is arranged at the central position of the top of the main base, a rotary assembly is arranged around the casting assembly, and a plurality of shaping assemblies are arranged at the top of the rotary assembly;

the irrigation assembly comprises a liquid storage tank, a liquid outlet at the bottom of the liquid storage tank is connected with a liquid outlet pipe, and a liquid outlet end of the liquid outlet pipe is provided with a positioning and sealing assembly;

the shaping assembly comprises a die base, wherein the die base is arranged at the top of the rotating assembly, and an electric push rod I is arranged in the die base;

the positioning sealing assembly comprises a positioning plate, the positioning plate is sleeved and installed on the side wall of a liquid outlet pipe, a through hole is formed in the positioning plate, a liquid outlet port of the liquid outlet pipe is inserted into the through hole, a second installation groove is formed in the right side of the through hole, a sealing plate is arranged below the liquid outlet pipe, the liquid outlet port of the liquid outlet pipe is tightly attached to the top of the sealing plate, a third limit groove is formed in the bottom of the sealing plate, the sealing plate is connected to the inner wall of the second installation groove through a limit spring, a trigger button is installed on the right wall of the second installation groove through a fixed rod, and the rotating assembly drives the die base to rotate so that the first electric push rod slides into the third limit groove and drives the sealing plate to shift so as to open the liquid outlet port of the liquid outlet pipe; in the scheme, the die base is driven to rotate through the rotating base, so that the second electric push rod drives the sealing plate to move rightwards to open the inlet and outlet channels of the through holes, and the metal solution can enter the forming cavity.

Preferably, a second limit groove is formed in the left side of the through hole, a magnetic strip is mounted on the side wall of the second limit groove, a first movable groove is formed below the second limit groove, an annular scraping plate is sleeved on the outer wall of the liquid outlet pipe, and the annular scraping plate is fixedly connected to the top walls of the second limit groove and the second mounting groove; in this scheme can adsorb the fixed drain chute to the sealing plate through the magnetic stripe and seal the drain chute of drain pipe.

Preferably, a second moving groove is formed above the second mounting groove, the top of the sealing plate is fixedly connected with a moving plate through a connecting rod, and the moving plate is clamped in the second moving groove.

Preferably, the central position of total base top department installs the support base, the liquid reserve tank pass through support piece install in the top of support base, the inlet is installed at the top of liquid reserve tank, the drain pipe pass through mounting fixed support in the top of support base.

Preferably, the rotating assembly comprises an annular rotating base, an annular limiting groove I is formed in the bottom of the rotating base, an annular limiting block is fixedly connected to the top of the total base, a plurality of balls are mounted on the top of the total base, and the rotating base is inserted into the limiting groove I through the annular limiting block and placed on the tops of the balls.

Preferably, a first mounting groove is formed in the top of the main base, a driving motor is mounted in the first mounting groove, a driving rod is connected to the output shaft end of the driving motor, a gear is sleeved on the side wall of the driving rod, a circle of teeth is fixedly connected to the inner side wall of the rotating base, and the gear is meshed with the teeth; in the scheme, the driving motor controls the gear to rotate, so that the gear drives the rotating base and the die base to rotate above the main base.

Preferably, a forming cavity is formed in the top of the die base, mounting grooves III are formed in two sides of the forming cavity, supporting motors are mounted in the mounting grooves III, output shaft ends of the supporting motors are connected with threaded rods, threaded cylinders are screwed on the side walls of the threaded rods, top plates are fixedly connected to the tops of the threaded cylinders, and upper dies are fixedly connected to the bottoms of the top plates; in this scheme, support motor control threaded rod rotates for screw thread section of thick bamboo drives roof and last mould and removes in vertical direction, in order to finalize the design the metal solution in the shaping chamber.

Preferably, a mounting groove IV is formed in the bottom of the molding cavity, an electric push rod II is mounted in the mounting groove IV, a bottom plate is fixedly connected to the telescopic end of the electric push rod II, and the bottom plate is arranged in the molding cavity; in the scheme, the second electric push rod can push the bottom plate to move upwards to push the shaped product out of the shaping cavity, so that a worker can clamp the shaped product quickly.

Compared with the prior art, the utility model has the beneficial effects that:

1. in the process that the rotating base drives the die base to rotate under the control of the driving motor, the first electric push rod drives the sealing plate to continuously move rightwards along the first moving groove to enter the third limiting groove until the trigger button is touched to stop the driving motor, at the moment, the rotating base stops rotating, the liquid outlet pipe stops above the forming cavity, the liquid outlet channel of the liquid outlet pipe is opened, the metal solution enters the forming cavity, and the metal solution can accurately enter the forming cavity when the die base stops, so that waste is avoided;

2. after a fixed amount of metal solution is injected into the molding cavity, the electric push rod is retracted into the mold base, the sealing plate returns to the original position under the elastic force of the limiting spring after losing the limit and is adsorbed and fixed by the magnetic stripe so as to seal the liquid outlet channel of the liquid outlet pipe, so that the metal solution is prevented from being sprinkled at the place outside the molding cavity, and the waste is further avoided;

3. after the metal solution in the molding cavity is molded, the second electric push rod can push the bottom plate to move upwards to push the molded product out of the molding cavity, so that a worker can clamp the molded product quickly.

Drawings

FIG. 1 is a schematic top view of the present utility model (partial cross section of a mold base);

FIG. 2 is a schematic front view of the present utility model (partial cross-section of a swivel base);

FIG. 3 is a schematic right-side cross-sectional view of the locating plate of the present utility model;

FIG. 4 is a right side view of the connection of the irrigation assembly and the single styling assembly of the present utility model;

FIG. 5 is a schematic cross-sectional view of a single mold base of the present utility model;

in the figure:

1. a total base;

2. a rotating assembly; 21. a rotating base; 22. a ball; 23. teeth; 24. a first mounting groove; 25. a driving motor; 26. a driving rod; 27. a gear; 28. an annular limiting block; 29. a first limit groove;

3. a watering assembly; 31. a support base; 32. a liquid storage tank; 33. a liquid inlet; 34. a liquid outlet pipe;

4. positioning a sealing assembly; 41. a positioning plate; 42. a through hole; 43. a limiting groove II; 44. a magnetic stripe; 45. a first moving groove; 46. a second mounting groove; 47. sealing plate; 48. a limit groove III; 49. a limit spring; 410. a connecting rod; 411. a moving plate; 412. a second moving groove; 413. an annular scraping plate; 414. a fixed rod; 415. triggering a button;

5. shaping the assembly; 51. a mold base; 52. an electric push rod I; 53. a third mounting groove; 54. supporting a motor; 55. a threaded rod; 56. a thread cylinder; 57. a top plate; 58. an upper die; 59. a molding cavity; 510. a mounting groove IV; 511. an electric push rod II; 512. a bottom plate.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown.

The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model.

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1-5, the present utility model provides a technical solution: the rotary automatic casting device comprises a main base 1, wherein an irrigation component 3 is arranged at the central position of the top of the main base 1, a rotary component 2 is arranged around the irrigation component 3, eight shaping components 5 are arranged at the top of the rotary component 2, and the shaping components 5 are uniformly distributed around the irrigation component 3;

specifically, the pouring assembly 3 pours the metal solution into the shaping assembly 5, and the metal solution is shaped by the shaping assembly 5.

Further, the irrigation assembly 3 comprises a liquid storage tank 32, a liquid outlet at the bottom of the liquid storage tank 32 is connected with a liquid outlet pipe 34, and a liquid outlet end of the liquid outlet pipe 34 is provided with a positioning and sealing assembly 4.

Further, the shaping assembly 5 includes a mold base 51, the mold base 51 is mounted on the top of the rotating assembly 2, and an electric push rod 52 is mounted in the mold base 51.

Specifically, the rotating assembly 2 drives the shaping assembly 5 to rotate, and when the shaping assembly moves to the position where the positioning sealing assembly 4 is located, a liquid outlet channel of the liquid outlet pipe 34 can be opened through the first electric push rod 52, so that the pouring assembly 3 sends the metal solution into the shaping assembly 5 through the liquid outlet pipe 34 for shaping products;

the installation position of the first electric push rod 52 is determined according to the rotation direction of the rotation base 21, and it is required to ensure that the first electric push rod 52 can open the liquid outlet channel by means of a rotation force in the process of driving the first electric push rod 52 to rotate by the rotation base 21, if the rotation direction of the rotation base 21 is anticlockwise in the embodiment, the first electric push rod 52 is installed on the right side of the forming cavity 59 and is located on a rotation track capable of opening the liquid outlet channel.

Further, the positioning sealing assembly 4 comprises a positioning plate 41, the positioning plate 41 is sleeved and installed on the side wall of the liquid outlet pipe 34, a through hole 42 is formed in the positioning plate 41, a liquid outlet port of the liquid outlet pipe 34 is inserted into the through hole 42, a second mounting groove 46 is formed in the right side of the through hole 42, a sealing plate 47 is arranged below the liquid outlet pipe 34, the liquid outlet port of the liquid outlet pipe 34 is tightly attached to the top of the sealing plate 47, a third limiting groove 48 is formed in the bottom of the sealing plate 47, the sealing plate 47 is connected to the inner wall of the second mounting groove 46 through a limiting spring 49, a trigger button 415 is installed on the right wall of the second mounting groove 46 through a fixing rod 414, and the rotating assembly 2 drives a die base 51 to rotate so that a first electric push rod 52 slides into the third limiting groove 48 and drives the sealing plate 47 to shift so as to open the liquid outlet port of the liquid outlet pipe 34.

As shown in fig. 3, the left side of the third limit groove 48 is in butt joint with the first moving groove 45, so that when the rotating base 21 rotates, the first electric push rod 52 can enter the third limit groove 48 along the first moving groove 45 and continuously drive the sealing plate 47 to move to the right side so as to open a liquid outlet channel of the liquid outlet pipe 34; the width of the first moving groove 45 and the third limiting groove 48 are matched with the width of the telescopic end of the first electric push rod 52; the width of the second mounting groove 46 is matched with the width of the sealing plate 47;

two telescopic ends of the limiting spring 49 are fixedly connected to the side wall of the sealing plate 47, and the other telescopic end is fixedly connected to the inner wall of the second mounting groove 46; when the sealing plate 47 moves to the right under the drive of the first electric push rod 52 to open the liquid outlet channel, the limiting spring 49 is compressed, and when the sealing plate 47 loses the limitation of the first electric push rod 52, the sealing plate returns to the original position under the elastic force of the limiting spring 49 and is adsorbed and fixed by the magnetic strip 44; the trigger button 415 is connected with the driving motor 25 through a circuit, when the trigger button 415 is triggered and pressed by the first electric push rod 52, the driving motor 25 stops working, so that the rotating base 21 stops driving the die base 51 to rotate, at the moment, the liquid outlet channel is completely opened, the liquid outlet pipe 34 stays above the forming cavity 59, and the metal solution enters the forming cavity 59 until the first electric push rod 52 is retracted, so that the trigger button 415 returns to the original position.

Further, a second limit groove 43 is formed in the left side of the through hole 42, a magnetic strip 44 is mounted on the side wall of the second limit groove 43, a first moving groove 45 is formed below the second limit groove 43, an annular scraping plate 413 is sleeved on the outer wall of the liquid outlet pipe 34, and the annular scraping plate 413 is fixedly connected to the top walls of the second limit groove 43 and the second mounting groove 46.

Specifically, the left wall of the sealing plate 47 is made of iron sheet or an iron sheet is adhered to the left wall of the sealing plate to adsorb the sealing plate 47 through the magnetic stripe 44, so as to ensure that the liquid outlet channel of the liquid outlet pipe 34 is blocked through the sealing plate 47; in addition, the magnetic strip 44 is positioned at a certain distance from the through hole 42, so that the magnetic strip 44 is prevented from influencing the flow of the metal solution;

the annular scraping plate 413 is made of a high-temperature-resistant rubber material, is tightly attached to the top of the sealing plate 47, and ensures that the metal solution cannot flow out through a gap existing between the liquid outlet pipe 34 and the sealing plate 47, so that the waste of the metal solution is further avoided.

Further, a second moving slot 412 is formed above the second mounting slot 46, the top of the sealing plate 47 is fixedly connected with a moving plate 411 through a connecting rod 410, and the moving plate 411 is clamped in the second moving slot 412.

Specifically, the width of the second moving slot 412 is matched with the moving plate 411, and the moving plate 411 is engaged in the second moving slot 412 to support the sealing plate 47, so that the sealing plate 47 is prevented from being dislocated during the moving process.

Further, a supporting base 31 is installed at the central position of the top of the total base 1, a liquid storage tank 32 is installed at the top of the supporting base 31 through a supporting member, a liquid inlet 33 is installed at the top of the liquid storage tank 32, and a liquid outlet pipe 34 is fixedly supported at the top of the supporting base 31 through a fixing member.

Specifically, the inner wall of the liquid storage tank 32 is coated with heat-insulating paint to ensure that the metal solution is not solidified; the liquid inlet 33 is used for adding the metal solution.

Further, the rotating assembly 2 comprises an annular rotating base 21, an annular limiting groove I29 is formed in the bottom of the rotating base 21, an annular limiting block 28 is fixedly connected to the top of the total base 1, a plurality of balls 22 are mounted on the top of the total base 1, and the rotating base 21 is inserted into the limiting groove I29 through the annular limiting block 28 and is placed on the tops of the balls 22.

As shown in fig. 2, the annular limiting block 28 is inserted into the first limiting groove 29 to limit the horizontal movement of the rotating base 21; the ball 22 is provided to support the rotation base 21 and to reduce friction force applied to the rotation base 21 during rotation.

Further, a first mounting groove 24 is formed in the top of the total base 1, a driving motor 25 is mounted in the first mounting groove 24, a driving rod 26 is connected to the output shaft end of the driving motor 25, a gear 27 is sleeved on the side wall of the driving rod 26, a circle of teeth 23 is fixedly connected to the inner side wall of the rotating base 21, and the gear 27 is meshed with the teeth 23.

The driving motor 25 controls the driving rod 26 to drive the gear 27 to rotate, and the gear 23 drives the rotating base 21 to rotate anticlockwise in the horizontal direction.

Further, a molding cavity 59 is formed in the top of the mold base 51, mounting grooves III 53 are formed in two sides of the molding cavity 59, a supporting motor 54 is mounted in each mounting groove III 53, an output shaft end of the supporting motor 54 is connected with a threaded rod 55, a threaded cylinder 56 is screwed on the side wall of the threaded rod 55, a top plate 57 is fixedly connected to the top of the threaded cylinder 56, and an upper mold 58 is fixedly connected to the bottom of the top plate 57.

As shown in fig. 5, after the trigger button 415 is triggered, the driving motor 25 stops working, the metal solution enters the molding cavity 59 through the liquid outlet pipe 34, after a certain amount of metal solution is injected, the first electric push rod 52 is retracted into the mold base 51, the trigger button 415 loses restriction so that the driving motor 25 continues to control the rotation of the rotating base 21, meanwhile, the liquid outlet channel is closed by the sealing plate 47, and when the next trigger button 415 triggers, the mold base 51 filled with the metal solution can start product shaping;

the supporting motor 54 controls the threaded rod 55 to rotate, so that the threaded cylinder 56 drives the top plate 57 and the upper die 58 to move in the vertical direction, and the upper die 58 can be used for jacking the metal solution in the forming cavity 59.

Further, a fourth mounting groove 510 is formed in the bottom of the molding cavity 59, a second electric push rod 511 is mounted in the fourth mounting groove 510, a bottom plate 512 is fixedly connected to the telescopic end of the second electric push rod 511, and the bottom plate 512 is arranged in the molding cavity 59.

Specifically, after the shaping is completed, the second electric push rod 511 can control the bottom plate 512 to move in the vertical direction, so that the shaped product is pushed out of the shaping cavity 59, and a worker can conveniently and quickly take out the shaped product through the clamp.

The working principle and the using flow of the utility model are as follows: after the utility model is installed, the top plate 57 is in a jacked state in an initial state, the first electric push rod 52 extends out of the die base 51, the driving motor 25 controls the driving rod 26 to drive the gear 27 to rotate, and the gear 23 drives the rotating base 21 and the die base 51 to rotate anticlockwise;

in the rotating process, when the mold base 51 moves to the positioning plate 41, the first electric push rod 52 enters the third limit groove 48 along the first moving groove 45, and after contacting the side wall of the third limit groove 48, the sealing plate 47 is continuously driven to move to the right, at this time, the liquid outlet pipe 34 moves to the upper part of the forming cavity 59, meanwhile, the limit spring 49 is compressed, until the second electric push rod 415 touches the trigger button 511, the driving motor 25 stops working, namely, the rotating base 21 stops driving the mold base 51 to move, meanwhile, the liquid outlet channel of the liquid outlet pipe 34 is completely opened, and the metal solution is injected into the forming cavity 59, so that when the rotating base 21 stops rotating, the liquid outlet channel of the liquid outlet pipe 34 is positioned above the forming cavity 59;

after a certain amount of metal solution is injected, the first electric push rod 52 is retracted into the die base 51, the trigger button 415 is not pressed, at the moment, the driving motor 25 is operated again to drive the rotary base 21 and the die base 51 to move, the limit spring 49 is not limited by the first electric push rod 52, the sealing plate 47 is driven to return to the original position by elasticity and is adsorbed and fixed by the magnetic strip 44 to close a liquid outlet channel of the liquid outlet pipe 34, and therefore, when the rotary base 21 drives the die base 51 to rotate, the metal solution is prevented from being sprinkled outside the forming cavity 59, and waste is avoided;

when the next mold base 51 moves to the positioning plate 41, the trigger button 415 is pressed, and the supporting motor 54 in the mold base 51 filled with the metal solution in the molding cavity 59 controls the threaded rod 55 to rotate, so that the threaded cylinder 56 drives the top plate 57 to move downwards, and the upper mold 58 enters the molding cavity 59 for product shaping;

when the shaping is finished, the top plate 57 is supported again, the second electric push rod 511 controls the bottom plate 512 to move upwards to eject the shaped product into the shaping cavity 59, so that a worker can clamp the shaped product quickly;

in the shaping process of the product, the rotating base 21 continuously drives the die bases 51 to rotate, and the metal solution is injected into each subsequent die base 51 through the liquid outlet pipe 34, so that the waiting time for shaping is avoided, and the production efficiency of the product is improved.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. The utility model provides a rotation type automatic casting device, includes total base (1), its characterized in that: a pouring assembly (3) is arranged at the central position of the top of the total base (1), a rotating assembly (2) is arranged around the pouring assembly (3), and a plurality of shaping assemblies (5) are arranged at the top of the rotating assembly (2);

the irrigation assembly (3) comprises a liquid storage tank (32), a liquid outlet at the bottom of the liquid storage tank (32) is connected with a liquid outlet pipe (34), and a liquid outlet end of the liquid outlet pipe (34) is provided with a positioning sealing assembly (4);

the shaping assembly (5) comprises a die base (51), the die base (51) is arranged at the top of the rotating assembly (2), and an electric push rod I (52) is arranged in the die base (51);

the positioning sealing assembly (4) comprises a positioning plate (41), the positioning plate (41) is sleeved and installed on the side wall of the liquid outlet pipe (34), a through hole (42) is formed in the positioning plate (41), a liquid outlet port of the liquid outlet pipe (34) is inserted into the through hole (42), a second mounting groove (46) is formed in the right side of the through hole (42), a sealing plate (47) is arranged below the liquid outlet pipe (34), a liquid outlet port of the liquid outlet pipe (34) is tightly attached to the top of the sealing plate (47), a third limiting groove (48) is formed in the bottom of the sealing plate (47), the sealing plate (47) is connected to the inner wall of the second mounting groove (46) through a limiting spring (49), a trigger button (415) is installed on the right wall of the second mounting groove (46), and the rotary assembly (2) drives the die base (51) to rotate so that a first electric push rod (52) slides into the third limiting groove (48) and drives the third limiting groove to move to open the liquid outlet port (47).

2. A rotary automatic casting apparatus according to claim 1, wherein: the left side of through-hole (42) has seted up spacing groove two (43), install magnetic stripe (44) on the lateral wall of spacing groove two (43), just moving groove one (45) have been seted up to the below of spacing groove two (43), the cover is equipped with annular scraper blade (413) on the outer wall of drain pipe (34), annular scraper blade (413) fixed connection in on the roof of spacing groove two (43) with mounting groove two (46).

3. A rotary automatic casting apparatus according to claim 2, wherein: a second moving groove (412) is formed above the second mounting groove (46), the top of the sealing plate (47) is fixedly connected with a moving plate (411) through a connecting rod (410), and the moving plate (411) is clamped in the second moving groove (412).

4. A rotary automatic casting apparatus according to claim 1, wherein: the central position department at total base (1) top installs support base (31), liquid reserve tank (32) install through support piece in the top of support base (31), inlet (33) are installed at the top of liquid reserve tank (32), drain pipe (34) pass through the mounting fixed stay in the top of support base (31).

5. A rotary automatic casting apparatus according to claim 1, wherein: the rotating assembly (2) comprises an annular rotating base (21), an annular limiting groove I (29) is formed in the bottom of the rotating base (21), an annular limiting block (28) is fixedly connected to the top of the total base (1), a plurality of balls (22) are arranged on the top of the total base (1), and the rotating base (21) is inserted into the limiting groove I (29) through the annular limiting block (28) and is placed on the top of the balls (22).

6. A rotary automatic casting apparatus according to claim 5, wherein: the novel rotary base is characterized in that a first mounting groove (24) is formed in the top of the main base (1), a driving motor (25) is mounted in the first mounting groove (24), a driving rod (26) is connected to the output shaft end of the driving motor (25), a gear (27) is mounted on the side wall of the driving rod (26) in a sleeved mode, a circle of teeth (23) are fixedly connected to the inner side wall of the rotary base (21), and the gear (27) is meshed with the teeth (23).

7. A rotary automatic casting apparatus according to claim 1, wherein: the forming die comprises a die base (51), wherein a forming cavity (59) is formed in the top of the die base (51), mounting grooves (53) are formed in two sides of the forming cavity (59), supporting motors (54) are arranged in the mounting grooves (53), threaded rods (55) are connected to output shaft ends of the supporting motors (54), threaded cylinders (56) are screwed on the side walls of the threaded rods (55), top plates (57) are fixedly connected to the top of the threaded cylinders (56), and upper dies (58) are fixedly connected to the bottoms of the top plates (57).

8. A rotary automatic casting apparatus according to claim 7, wherein: the bottom of shaping chamber (59) has seted up mounting groove IV (510), install electric putter II (511) in mounting groove IV (510), the flexible end fixedly connected with bottom plate (512) of electric putter II (511), bottom plate (512) set up in shaping chamber (59).