CN115194100B - Environment-friendly molding machine for casting and molding method thereof - Google Patents

Abstract

The invention relates to the technical field of casting equipment and provides an environment-friendly casting molding machine and a molding method thereof, wherein the environment-friendly casting molding machine comprises a frame, a mold, a front mold and a rear mold, wherein the mold is arranged on the frame and is provided with a front mold and a rear mold, the front mold and the rear mold form a cavity, the cavity is used for sand injection molding, the front mold is rotatably arranged on the frame, and the rear mold is movably arranged on the frame; the split assembly is arranged on the frame and positioned at the downstream of the die, and is used for splitting the transmitted single-row models into at least two rows; the pushing component is arranged on the splitting component and used for pushing the split model; the split assembly comprises a bearing plate which is movably arranged on the frame, a sliding groove is formed in the frame, and the bearing plate is inserted in the sliding groove; the driving piece is arranged on the frame and used for driving the bearing plate to convey the model to two sides. Through the technical scheme, the effect of being convenient for model stacking is achieved.

Description

Environment-friendly molding machine for casting and molding method thereof

Technical Field

The invention relates to the technical field of casting equipment, in particular to an environment-friendly molding machine for casting and a molding method thereof.

Background

Casting is used as the most common mechanical production process in the production of various parts. A foundry uses an automated matchplate molding machine to form sand molds; the central link of sand casting is molding, the core of a molding machine is a solid sand mechanism, and a compacting molding machine is a low-speed solid sand mechanism which is applied to production for decades.

The molding machine is an apparatus for manufacturing sand molds, and has a main function of compacting sand filled in a sand box to provide necessary strength to the sand mold during handling, pouring, and the like. The formed sand mold is then filled with molten metal material, cooled, and then split to release the metal casting.

In the use process of the existing molding machine, after sand injection molding, when the mold is pushed to a downstream link, the mold can be pushed only along a single line, so that a conveying table for pushing and stacking needs to be longer for facilitating stacking of the mold, the whole equipment is larger, the requirement on the production field of molding equipment is higher, and the large-area open field is needed for smooth production, so that the practicability of the molding machine is affected.

Disclosure of Invention

In order to facilitate model stacking, the application provides an environment-friendly molding machine for casting and a molding method thereof.

The technical scheme of the invention is as follows: an environment-friendly molding machine for casting, comprising

The machine frame is provided with a machine frame,

The die is arranged on the frame and is provided with a front die and a rear die, the front die and the rear die form a cavity, the cavity is used for sand injection molding, the front die is rotatably arranged on the frame, and the rear die is movably arranged on the frame;

The split assembly is arranged on the frame and positioned at the downstream of the die, and is used for splitting the transmitted single-row models into at least two rows;

the pushing component is arranged on the splitting component and used for pushing the split model;

the flow dividing assembly comprises

The bearing plate is movably arranged on the rack, a sliding groove is formed in the rack, and the bearing plate is inserted into the sliding groove;

The driving piece is arranged on the frame and used for driving the bearing plate to convey the model to two sides.

As a further technical solution, the driving member includes

The telescopic piece is vertically arranged on the frame,

The rotating wheel is rotatably arranged on the telescopic piece,

The rotating piece is rotatably arranged on the frame and is positioned on the upper side of the rotating wheel; the rotating axis of the rotating piece is consistent with the rotating axis of the rotating wheel in direction;

the adsorption plates are arranged on the rack, at least two adsorption plates are arranged on two sides of the bearing plate respectively and are connected with the bearing plate through magnetic adsorption;

The sliding parts are at least provided with two groups, one ends of the two groups of sliding parts are movably arranged on the rotating part, and the two sliding parts are respectively arranged on two sides of the gravity center of the rotating part; the other end of the sliding piece is rotatably arranged at the bottom of the adsorption plate and drives the adsorption plate to slide towards two ends.

As a further technical scheme, the telescopic piece comprises

One end of the telescopic sleeve is arranged on the frame,

A connecting plate arranged at the other end of the telescopic sleeve,

And the elastic piece is sleeved on the telescopic sleeve, one end of the elastic piece is connected with the frame, and the other end of the elastic piece is connected with the bottom of the connecting plate.

As a further technical solution, the rotating member includes

The rotating roller is rotatably arranged on the frame,

The guide plates are arranged in two, the two guide plates are respectively arranged on two sides of the rotating roller, and the two guide plates are symmetrically arranged.

As a further technical solution, the sliding member includes

A sliding plate arranged on the rotating roller and provided with a sliding groove,

The sliding blocks are arranged at two sides of the gravity center of the sliding plate respectively, and are inserted into the sliding grooves;

One end of the rotating rod is rotatably arranged on the sliding block, and the other end of the rotating rod is rotatably arranged on the adsorption plate.

As a further technical scheme, a gap is formed between the adsorption plate and the bearing plate, and the adsorption plate is connected with the bearing plate through electromagnetic connection.

As a further technical scheme, the sliding block comprises

One end of the telescopic cylinder is arranged on the sliding block,

And the buffer piece is sleeved on the telescopic cylinder, one end of the buffer piece is connected with the sliding block, and the other end of the buffer piece is connected with the bottom of the outer cylinder of the telescopic cylinder.

As a further technical scheme, the pushing assembly is provided with two groups which are respectively positioned at two sides of the frame;

The pushing assembly comprises

The pushing cylinder is arranged on the frame,

The pushing plate is arranged on the pushing cylinder.

As a further technical scheme, the molding method of the environment-friendly molding machine for casting comprises the following steps of:

A: making a model; starting the mold, rotating the front mold to be parallel to the rear mold, and injecting sand into the cavity for molding;

B: pushing a model; after the model is manufactured, the front model is overturned, and the rear model pushes the model to one end of the frame;

c: model shunting; pushing the previous model onto the adsorption plate by stacking the models one by one, and electrifying to enable the side wall of the adsorption plate on one side to have magnetism so as to adsorb the adsorption plate onto the adsorption plate; the adsorption plate is overweight, the sliding plate turns over, and the sliding block drives the adsorption plate to slide to the rack on one side, so that the split flow is completed;

D: pushing a model; and starting the pushing cylinder, and pushing the pushing plate by the pushing cylinder to push the model forward so as to enable the model to enter a downstream production flow.

The working principle and the beneficial effects of the invention are as follows:

In the casting process, the molding becomes an indispensable link, when the molding machine in the technical scheme is used, an operator needs to start the mold, sand is injected into the cavity after the front mold and the rear mold are arranged in parallel to form the cavity, and after the sand injection is finished, the front mold and the rear mold are mutually extruded to finally form the mold.

After the shaping, the front mould overturns upwards, and the back mould pushes forward the model, and the model is transmitted to the one end that is close to the reposition of redundant personnel subassembly of frame, and after the model was transmitted to the joint board, start the driving piece, driving piece drive is accepted the joint board and is transmitted to the frame both sides, and after the model was transmitted in place, start push assembly, push assembly will shunt the model after, push forward, realized the reposition of redundant personnel of model, with original one row of transmission conversion to at least two at present reposition of redundant personnel transmissions, when producing the model of same batch, required production space reduces, also be convenient for the product stack, very big improvement the convenience of use of molding machine.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a part of a push assembly according to the present invention;

FIG. 3 is an enlarged view of a portion of the portion A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of a portion of a component structure showing a diverter assembly according to the present invention;

fig. 5 is a schematic view of part of a slider structure according to the present invention.

In the figure: 1. a frame; 2. a mold; 3. a front mold; 4. a rear mold; 7. a shunt assembly; 8. a pushing assembly; 10. a receiving plate; 11. a chute; 12. a driving member; 13. a telescoping member; 14. a rotating wheel; 15. a rotating member; 16. an adsorption plate; 17. a slider; 18. a telescoping sleeve; 19. a connecting plate; 20. an elastic member; 21. a rotating roller; 22. a guide plate; 23. a slide plate; 24. a sliding groove; 25. a slide block; 26. a rotating rod; 27. a gap; 28. a telescopic cylinder; 29. a buffer member; 30. a pushing cylinder; 31. pushing the plate.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 5, the embodiment provides an environment-friendly molding machine for casting, comprising

The machine frame 1 is provided with a plurality of machine frames,

The mould 2 is arranged on the frame 1, the mould 2 is provided with a front mould 3 and a rear mould 4, the front mould 3 and the rear mould 4 form a cavity, the cavity is used for sand injection molding, the front mould 3 is rotatably arranged on the frame 1, and the rear mould 4 is movably arranged on the frame 1;

The split assembly 7 is arranged on the frame 1, the split assembly 7 is positioned at the downstream of the die 2, and the split assembly 7 is used for splitting the transferred single-row models into at least two rows;

The pushing component 8 is arranged on the splitting component 7 and is used for pushing the split model;

The flow dividing assembly 7 comprises

The bearing plate 10 is movably arranged on the frame 1, the frame 1 is provided with a chute 11, and the bearing plate 10 is inserted into the chute 11;

And a driving member 12 provided on the frame 1, the driving member 12 being for driving the receiving plate 10 to convey the mold to both sides.

In this embodiment, during the casting process, the molding becomes an indispensable link, when using the molding machine in this technical scheme, an operator needs to start the mold 2, after the front mold 3 and the rear mold 4 are arranged in parallel to form a cavity, sand is injected into the cavity, after the sand injection is finished, the front mold 3 and the rear mold 4 are mutually extruded, and finally the mold is formed.

After the molding, the front mold 3 is turned upwards, the rear mold 4 pushes the mold forwards, the mold is conveyed to one end of the frame 1, which is close to the split component 7, after the mold is conveyed to the bearing plate 10, the driving piece 12 is started, the driving piece 12 drives the bearing plate 10 to be conveyed to two sides of the frame 1, after the mold is conveyed in place, the push component 8 is started, the push component 8 pushes the split mold forwards, the split of the mold is realized, the original one-row conveying is converted to the current at least two-row split conveying, the required production space is reduced when the molds of the same batch are produced, the stacking of products is facilitated, and the use convenience of the molding machine is greatly improved.

Further, the driving member 12 includes

A telescopic piece 13, which is vertically arranged on the frame 1,

A rotating wheel 14 rotatably arranged on the telescopic member 13,

The rotating piece 15 is rotatably arranged on the frame 1, and the rotating piece 15 is positioned on the upper side of the rotating wheel 14; the rotation axis of the rotating piece 15 is consistent with the rotation axis of the rotating wheel 14;

The adsorption plates 16 are arranged on the frame 1, at least two adsorption plates 16 are respectively positioned on two sides of the bearing plate 10 and are connected with the bearing plate 10 through magnetic adsorption;

The sliding parts 17 are at least provided with two groups, one ends of the two groups of sliding parts 17 are movably arranged on the rotating part 15, and the two sliding parts 17 are respectively arranged on two sides of the gravity center of the rotating part 15; the other end of the sliding piece 17 is rotatably arranged at the bottom of the adsorption plate 16, and drives the adsorption plate 16 to slide towards two ends.

Further, the telescopic member 13 includes

A telescopic sleeve 18, one end of which is arranged on the frame 1,

A connecting plate 19 provided on the other end of the telescopic sleeve 18,

The elastic piece 20 is sleeved on the telescopic sleeve 18, one end of the elastic piece 20 is connected with the frame 1, and the other end of the elastic piece 20 is connected with the bottom of the connecting plate 19.

Further, the rotary member 15 includes

A rotating roller 21 rotatably provided on the frame 1,

The guide plates 22 are provided in two, and the two guide plates 22 are provided on both sides of the rotating roller 21, respectively, and the two guide plates 22 are symmetrically provided.

Further, the slider 17 includes

A sliding plate 23 provided on the rotating roller 21, and the sliding plate 23 has a sliding groove 24 thereon,

The two sliding blocks 25 are arranged on two sides of the gravity center of the sliding plate 23 respectively, and the two sliding blocks 25 are inserted into the sliding groove 24;

the rotating rod 26 is rotatably provided at one end on the slider 25 and at the other end on the adsorption plate 16.

Further, a gap 27 is provided between the suction plate 16 and the receiving plate 10, and the suction plate 16 and the receiving plate 10 are connected by electromagnetic means.

Further, the slider 25 includes

A telescopic cylinder 28, one end of which is arranged on the slide block 25,

The buffer member 29 is sleeved on the telescopic cylinder 28, one end of the buffer member 29 is connected with the sliding block 25, and the other end of the buffer member 29 is connected with the bottom of the outer cylinder of the telescopic cylinder 28.

In this embodiment, after the sand injection molding is completed, the split flow is started. During shunting, an operator only needs to start the electromagnetism on one side of the bearing plate 10 and the electromagnetism of the adsorption plate 16 close to the side, then the bearing plate 10 is adsorbed onto the adsorption plate 16, the model moves along with the bearing plate 10, the total weight ratio on the side is heavier than that on the other side at the moment, the model is influenced by gravity and inertia, the bearing plate 10 presses the sliding block 25, the sliding block 25 drives the rotating rod 26 to slide along the sliding groove 24 towards one end of the sliding plate 23, the sliding plate 23 rotates to an inclined state under the driving of the rotating roller 21, the rotating rod 26 slides in the sliding groove 11, at the moment, the guide plate 22 rotates along the rotating roller 21, the rotating wheel 14 presses the connecting plate 19 when the guide plate 22 rotates, the connecting plate 19 presses the elastic piece 20 when the rotating wheel 14 rotates around the central shaft, after the elastic piece 19 presses the elastic piece 20 slides in place, the pushing component 8 pushes the model onto a downstream conveying table of the frame 1, after conveying is completed, the elastic piece 20 rebounds to drive the connecting plate 19 to slide upwards, the rotating wheel 14 slides upwards along the connecting plate 19, the side wall of the rotating wheel 14 pushes the guide plate 22, the guide plate 22 is reset, and the sliding plate 23 is driven by the sliding plate 25 along the sliding groove 24 when the sliding plate 23.

Subsequently, the slider 25 drives the bull stick 26, and bull stick 26 drives adsorption plate 16, and adsorption plate 16 drives and holds board 10 and resume to the normal position, accomplishes the reposition of redundant personnel of a model this moment, and the remaining model shunts one by one, has realized shortening the conveying volume of frame 1, and the stacking of the model of being convenient for has reduced the complete machine volume of molding machine, and then has improved the practicality and the use convenience of molding machine, and in-process, elastic component 20 has the cushioning effect for when the model was pulled, be difficult for loosely, saved the production raw and other materials, and then saved the production resource, thereby improved the environmental protection performance of molding machine.

Further, the pushing component 8 is provided with two groups, which are respectively positioned at two sides of the frame 1;

The pushing assembly 8 comprises

A pushing cylinder 30, which is arranged on the frame 1,

A pushing plate 31 provided on the pushing cylinder 30.

In this embodiment, after the pushing component 8 is started, the pushing cylinder 30 pushes the pushing plate 31, and the pushing plate 31 pushes the model to be transmitted forward, so that the convenience in use of the shunt component 7 is improved.

Further, a molding method of the molding machine for environment-friendly casting comprises the following steps:

A: making a model; starting the die 2, rotating the front die 3 to be parallel to the rear die 4, and injecting sand into the cavity for molding;

B: pushing a model; after the model is manufactured, the front model 3 is overturned, and the rear model 4 pushes the model to one end of the frame 1;

C: model shunting; pushing the previous model onto the receiving plate 10 by stacking one model after another, and electrifying to enable the side wall of the adsorption plate 16 on one side to have magnetism, so that the receiving plate 10 is adsorbed onto the adsorption plate 16; the adsorption plate 16 is overweight, the sliding plate 23 is turned over, and the sliding block 25 drives the adsorption plate 16 to slide to the frame 1 at one side, so that the diversion is completed;

d: pushing a model; the pushing cylinder 30 is started, and the pushing cylinder 30 pushes the pushing plate to push the model forward so that the model enters a downstream production flow.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (7)

1. An environment-friendly molding machine for casting, which is characterized by comprising

A frame (1),

The die (2) is arranged on the frame (1), the die (2) is provided with a front die (3) and a rear die (4), the front die (3) and the rear die (4) form a cavity, the cavity is used for sand injection molding, the front die (3) is rotationally arranged on the frame (1), and the rear die (4) is movably arranged on the frame (1);

A splitting assembly (7) arranged on the frame (1), wherein the splitting assembly (7) is positioned at the downstream of the die (2), and the splitting assembly (7) is used for splitting the transferred single-column models into at least two columns;

The pushing component (8) is arranged on the splitting component (7) and is used for pushing the split model;

the flow dividing assembly (7) comprises

The bearing plate (10) is movably arranged on the frame (1), a sliding groove (11) is formed in the frame (1), and the bearing plate (10) is inserted into the sliding groove (11);

the driving piece (12) is arranged on the frame (1), and the driving piece (12) is used for driving the bearing plate (10) to convey the model to two sides;

The driving member (12) comprises

The telescopic piece (13) is vertically arranged on the frame (1),

A rotating wheel (14) rotatably arranged on the telescopic piece (13),

The rotating piece (15) is rotatably arranged on the frame (1), and the rotating piece (15) is positioned on the upper side of the rotating wheel (14); the rotation axis of the rotating piece (15) is consistent with the rotation axis of the rotating wheel (14);

The adsorption plates (16) are arranged on the frame (1), at least two adsorption plates (16) are respectively positioned at two sides of the bearing plate (10), and are connected with the bearing plate (10) through magnetic adsorption;

The sliding pieces (17) are at least provided with two groups, one ends of the two groups of sliding pieces (17) are movably arranged on the rotating piece (15), and the two sliding pieces (17) are respectively arranged on two sides of the gravity center of the rotating piece (15); the other end of the sliding piece (17) is rotatably arranged at the bottom of the adsorption plate (16) and drives the adsorption plate (16) to slide towards two ends;

The telescopic member (13) comprises

A telescopic sleeve (18) with one end arranged on the frame (1),

A connecting plate (19) arranged at the other end of the telescopic sleeve (18),

The elastic piece (20) is sleeved on the telescopic sleeve (18), one end of the elastic piece (20) is connected with the frame (1), and the other end of the elastic piece is connected with the bottom of the connecting plate (19).

2. An environment-friendly casting molding machine according to claim 1, wherein said rotary member (15) comprises

A rotating roller (21) rotatably arranged on the frame (1),

The guide plates (22) are arranged at two sides of the rotating roller (21), and the two guide plates (22) are symmetrically arranged.

3. An environment-friendly casting molding machine according to claim 2, wherein said slide (17) comprises

A sliding plate (23) arranged on the rotating roller (21), wherein the sliding plate (23) is provided with a sliding groove (24),

The sliding blocks (25) are two, the two sliding blocks (25) are respectively arranged on two sides of the gravity center of the sliding plate (23), and the two sliding blocks (25) are inserted into the sliding grooves (24);

And one end of the rotating rod (26) is rotatably arranged on the sliding block (25), and the other end of the rotating rod is rotatably arranged on the adsorption plate (16).

4. An environmentally friendly casting molding machine according to claim 3, wherein a gap (27) is provided between said suction plate (16) and said receiving plate (10), and said suction plate (16) and said receiving plate (10) are electromagnetically connected.

5. An environment-friendly casting molding machine according to claim 4, wherein said slide (25) comprises

A telescopic cylinder (28) with one end arranged on the sliding block (25),

And the buffer piece (29) is sleeved on the telescopic cylinder (28), one end of the buffer piece (29) is connected with the sliding block (25), and the other end of the buffer piece is connected with the bottom of the outer cylinder of the telescopic cylinder (28).

6. The environment-friendly casting molding machine according to claim 5, wherein the pushing assembly (8) is provided with two groups, which are respectively positioned at two sides of the frame (1);

the push assembly (8) comprises

A pushing cylinder (30) arranged on the frame (1),

And the pushing plate (31) is arranged on the pushing cylinder (30).

7. The molding method of an environment-friendly casting molding machine as claimed in claim 6, comprising the steps of:

A: making a model; starting the die (2), rotating the front die (3) to be parallel to the rear die (4), and injecting sand into the cavity for molding;

B: pushing a model; after the model is manufactured, the front mould (3) is overturned, and the rear mould (4) pushes the model to one end of the frame (1);

c: model shunting; pushing the previous model onto the receiving plate (10) one by one through stacking, and electrifying to enable the side wall of the adsorption plate (16) on one side to have magnetism, so that the receiving plate (10) is adsorbed onto the adsorption plate (16); the adsorption plate (16) is overweight, the sliding plate (23) is overturned, and the sliding block (25) drives the adsorption plate (16) to slide to the frame (1) at one side, so that the diversion is completed;

D: pushing a model; and starting the pushing cylinder (30), and pushing the pushing plate (31) by the pushing cylinder (30) to push the model forward so as to enter a downstream production flow.