CN117358904A - Accurate casting device for metal products - Google Patents

Abstract

The invention discloses an accurate casting device for metal products, which relates to the technical field of metal casting and comprises a bottom plate, a shell, a split flow component, a split mold component, a moving component and a mold closing component, wherein the split flow component is arranged to divide molten metal into identical equal parts for injection, so that the problem of product quality caused by uneven casting feeding is avoided; the die-separating assembly and the die-closing assembly are arranged, so that the casting can be quickly separated to be taken out, the die can be quickly and thoroughly cleaned, the product quality is ensured, and the efficiency is improved; through setting up and transferring the subassembly, can use the mould in turn, avoid using single mould for a long time, increase the mould life-span.

Description

Accurate casting device for metal products

Technical Field

The invention relates to the technical field of metal casting, in particular to a precise casting device for metal products.

Background

The precise metal product casting device is one special equipment for high precision metal casting. It combines advanced casting technology, accurate control system and accurate mould, and can be used for producing high-quality metal products with complex shape.

The chinese patent publication No. CN109396366B discloses a casting forming device for aluminum strip, in which a tensioned die-casting belt is mounted on a driving wheel, the die-casting belt can rotate at a constant speed along with the driving wheel, a die-casting mechanism is disposed between two adjacent driving wheels, and the die-casting belt is wound around the die-casting mechanism in a staggered manner, the die-casting mechanism is connected with a cooling water circulation mechanism, a crystallization wheel provided with an annular die-casting groove is mounted on a frame and rotatable, the die-casting belt is tightly connected with the die-casting groove on the crystallization wheel, and the cooling water circulation mechanism cools the aluminum in the die-casting groove and forms an aluminum strip corresponding to the thickness of the die-casting groove.

The defects of the prior art scheme are that: the prior art cannot quickly demould after casting, so that the processing efficiency is lower, and the device cannot quickly add quantitative metal liquid into a die, so that the quality problem of a processed product is easy to occur; the inability to switch molds tends to shorten the life of the molds.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the precise metal product casting device comprises a bottom plate, a shell, a flow distribution assembly, a die distribution assembly, a moving assembly and a die closing assembly, wherein the flow distribution assembly is fixedly arranged on the bottom plate; the die assembly comprises a die-separating shell fixedly arranged on a movable main sliding frame I, a die-separating die is fixedly arranged on the die-separating shell, a die-separating baffle is fixedly arranged on the die-separating shell, a die-separating sliding rod is arranged on the die-separating baffle in a sliding mode, a die-separating spring is arranged between the die-separating sliding rod and the die-separating baffle, the die-separating sliding rod is in sliding fit with a die-separating clamping rod, the die-separating clamping rod is rotationally arranged on a die-separating rotating disc, the die-separating rotating disc is rotationally provided with a die-separating rotating rod, the die-separating rotating rod is slidingly arranged in a die-separating fixing block, the die-separating fixing block is fixedly arranged on an output shaft of a die-separating cylinder, a die-separating reset spring is arranged between the die-separating rotating disc and the die-separating shell, and the die-separating sliding rod is in sliding fit with the die-clamping shell.

Further, the die assembly comprises a die assembly shell fixedly arranged on the bottom plate, a die assembly die is arranged on the die assembly shell, a die assembly main fixing plate is fixedly arranged on the die assembly shell, a die assembly sliding rod is slidably arranged on the die assembly main fixing plate and is in sliding fit with the die assembly shell, and the die assembly sliding rod is in sliding fit with a die assembly clamping rod which is rotatably arranged on the die assembly rotating ring.

Further, a die clamping spring is arranged between the die clamping sliding rod and the die clamping main fixing plate, the die clamping rotating ring is rotatably arranged on the die clamping main fixing plate, the die clamping rotating ring is rotatably provided with a die clamping rotating rod, the die clamping rotating rod is slidably arranged in the die clamping fixing plate, the die clamping fixing plate is fixedly arranged on an output shaft of the die clamping air cylinder, the die clamping air cylinder is fixedly arranged on the die clamping shell, and a die clamping reset spring is arranged between the die clamping rotating ring and the die clamping shell.

Further, the moving assembly comprises a first moving connecting rod and a second moving connecting rod which are rotatably arranged on the bottom plate, a moving fixing rod is rotatably arranged between the first moving connecting rod and the second moving connecting rod, the moving fixing rod is fixedly arranged on a moving rotating column, the moving rotating column is rotatably arranged on the moving column, and the first moving connecting rod is fixedly arranged on an output shaft of the moving motor.

Further, the movable column is rotatably arranged on the bottom plate, a movable rotary connecting rod III is fixedly arranged on the movable column, a movable sliding frame I and a movable sliding frame are arranged on the movable rotary connecting rod III in a sliding mode, the movable sliding frame I and the movable sliding frame I are arranged on the bottom plate in a sliding mode, and a movable sliding frame II is arranged on the movable sliding frame in a sliding mode and is in sliding fit with the arc-shaped groove on the bottom plate.

Further, the first movable main sliding frame is arranged on the first movable sliding frame in a sliding mode, and the first movable main sliding frame is in sliding fit with the arc-shaped groove on the bottom plate.

Further, the flow distribution assembly comprises a first flow distribution tank, a second flow distribution tank and a third flow distribution tank which are fixedly arranged on the bottom plate, the first flow distribution tank, the second flow distribution tank and the third flow distribution tank are connected to the flow distribution shell through a conduit, a flow distribution plate is rotationally arranged on the flow distribution shell, and the flow distribution plate is fixedly arranged on an output shaft of the flow distribution motor.

Further, a shunt output pipe is fixedly arranged on the shunt shell.

Compared with the prior art, the invention has the beneficial effects that: (1) By arranging the flow dividing assembly, the molten metal is divided into equal parts for injection, so that the problem of product quality caused by uneven casting feeding is avoided; (2) The die-separating assembly and the die-closing assembly are arranged, so that the casting can be quickly separated to be taken out, the die can be quickly and thoroughly cleaned, the product quality is ensured, and the efficiency is improved; (3) Through setting up and transferring the subassembly, can use the mould in turn, avoid using single mould for a long time, increase the mould life-span.

Drawings

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

FIG. 2 is a schematic diagram of the overall structure of the invention in front view;

FIG. 3 is a schematic side view of the overall structure of the present invention;

FIG. 4 is a schematic view of a partial structure of a flow splitting assembly according to the present invention;

FIG. 5 is a partial cross-sectional view of the flow splitting assembly of the present invention;

FIG. 6 is a schematic diagram of a part of a moving assembly according to the present invention;

FIG. 7 is a schematic diagram of a part of a moving assembly according to the present invention;

FIG. 8 is a schematic diagram of a part of a moving assembly according to the present invention;

FIG. 9 is a schematic view of a partial structure of a module assembly according to the present invention;

FIG. 10 is a schematic view of a mold clamping assembly according to the present invention;

FIG. 11 is a schematic view of a partial structure of a base plate according to the present invention.

Reference numerals: 1-a split assembly; 2-parting the mold assembly; 3-a moving assembly; 4-die assembly; 5-a bottom plate; 6-a housing; 101-a splitter plate; 102-splitting output pipe; 103-split-flow housing; 104-splitting tank I; 105-a second split-flow tank; 106-a third split-flow tank; 107-shunt motor; 201-a split baffle; 202-separating a mould slide bar; 203-split springs; 204, a mold separating cylinder; 205-dividing a die fixing block; 206-parting rotating rod; 207-split return spring; 208-a parting rotating disc; 209-parting clamping rod; 210-parting the mold; 211-parting shells; 301-a mobile motor; 302-moving the first connecting rod; 303-moving a fixed rod; 304-moving the second connecting rod; 305-moving the rotating column; 306-moving the column; 307-moving the rotating link three; 308-moving the first carriage; 309-moving the primary carriage one; 310-moving the second sliding frame; 311-moving the carriage; 401-closing a main fixing plate; 402-a clamp slide bar; 403-closing springs; 404-clamping rod of die assembly; 405-clamping a rotating ring; 406-a mold closing cylinder; 407-clamping a fixed disk; 408-closing a die return spring; 409-a clamp rotation lever; 410-closing the mold; 411-mold closing housing.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled 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 11, the precise casting device for the metal product comprises a bottom plate 5, a shell 6, a split assembly 1, a split assembly 2, a moving assembly 3 and a die assembly 4, wherein the split assembly 1 is fixedly arranged on the bottom plate 5, the bottom plate 5 is fixedly arranged in the shell 6, the die assembly 4 is fixedly arranged on the bottom plate 5, the split assembly 2 is fixedly arranged on the moving assembly 3, and the moving assembly 3 is rotatably arranged on the bottom plate 5; the parting module 2 comprises a parting shell 211 fixedly arranged on a first movable main sliding frame 309, a parting die 210 is fixedly arranged on the parting shell 211, a parting baffle 201 is fixedly arranged on the parting shell 211, a parting slide bar 202 is arranged on the parting baffle 201 in a sliding manner, a parting spring 203 is arranged between the parting slide bar 202 and the parting baffle 201, the parting slide bar 202 is in sliding fit with a parting clamping rod 209, the parting clamping rod 209 is rotatably arranged on a parting rotating disc 208, a parting rotating rod 206 is rotatably arranged on the parting rotating disc 208, the parting rotating rod 206 is slidably arranged in a parting fixed block 205, the parting fixed block 205 is fixedly arranged on an output shaft of a parting cylinder 204, a parting return spring 207 is arranged between the parting rotating disc 208 and the parting shell 211, the parting slide bar 202 is in sliding fit with a mold closing shell 411, and the parting rotating rod 206 is in sliding fit with a mold closing rotating ring 405.

The mold assembly 4 comprises a mold assembly housing 411 fixedly arranged on the bottom plate 5, a mold assembly 410 is arranged on the mold assembly housing 411, a mold assembly main fixing plate 401 is fixedly arranged on the mold assembly housing 411, a mold assembly sliding rod 402 is arranged on the mold assembly main fixing plate 401 in a sliding manner, the mold assembly sliding rod 402 is in sliding fit with the mold separation housing 211, and the mold assembly sliding rod 402 is in sliding fit with a mold assembly clamping rod 404 rotatably arranged on the mold assembly rotating ring 405. A mold clamping spring 403 is arranged between the mold clamping sliding rod 402 and the mold clamping main fixing plate 401, a mold clamping rotating ring 405 is rotatably arranged on the mold clamping main fixing plate 401, a mold clamping rotating rod 409 is rotatably arranged on the mold clamping rotating ring 405, the mold clamping rotating rod 409 is slidably arranged in a mold clamping fixing plate 407, the mold clamping fixing plate 407 is fixedly arranged on an output shaft of a mold clamping air cylinder 406, the mold clamping air cylinder 406 is fixedly arranged on a mold clamping shell 411, and a mold clamping reset spring 408 is arranged between the mold clamping rotating ring 405 and the mold clamping shell 411.

The moving assembly 3 comprises a first moving connecting rod 302 and a second moving connecting rod 304 which are rotatably arranged on the bottom plate 5, a moving fixing rod 303 is rotatably arranged between the first moving connecting rod 302 and the second moving connecting rod 304, the moving fixing rod 303 is fixedly arranged on a moving rotating column 305, the moving rotating column 305 is rotatably arranged on a moving column 306, and the first moving connecting rod 302 is fixedly arranged on an output shaft of the moving motor 301. The movable column 306 is rotatably arranged on the bottom plate 5, the movable rotary connecting rod three 307 is fixedly arranged on the movable column 306, the movable first sliding frame 308 and the movable sliding frame 311 are slidably arranged on the movable rotary connecting rod three 307, the movable sliding frame 311 and the movable first sliding frame 308 are slidably arranged on the bottom plate 5, the movable second sliding frame 310 is slidably arranged on the movable sliding frame 311, and the movable sliding frame second 310 is slidably matched with the arc-shaped groove on the bottom plate 5. The first movable main sliding frame 309 is slidably disposed on the first movable main sliding frame 308, the first movable main sliding frame 309 is slidably matched with the arc-shaped slot on the bottom plate 5, and the second movable sliding frame 310 has a length different from that of the first movable main sliding frame 309.

The shunt assembly 1 comprises a first shunt tank 104, a second shunt tank 105 and a third shunt tank 106 which are fixedly arranged on the bottom plate 5, the first shunt tank 104, the second shunt tank 105 and the third shunt tank 106 are connected to a shunt shell 103 through a conduit, a heat insulation layer for heat insulation is arranged outside the first shunt tank 104, the second shunt tank 105, the third shunt tank 106 and the conduit, a shunt plate 101 is rotatably arranged on the shunt shell 103, and the shunt plate 101 is fixedly arranged on an output shaft of a shunt motor 107; the split-flow output pipe 102 is fixedly arranged on the split-flow shell 103.

The invention discloses a precise casting device for metal products, which has the working principle that: molten metal liquid is injected into the third split tank 106, the split motor 107 drives the split plate 101 to rotate, so that the split plate 101 opens the channels of the third split tank 106 and the second split tank 105, simultaneously opens the channels of the first split tank 104 and the first split output pipe 102, at the moment, the metal liquid in the third split tank 106 flows into the second split tank 105, the liquid in the first split tank 104 flows out into the die assembly mold 410 through the first split output pipe 102, when the split plate 101 rotates again, the channels of the third split tank 106 and the first split tank 104 are opened, the channels of the second split tank 105 and the first split output pipe 102 are opened, at the moment, the liquid in the second split tank 105 flows into the die assembly mold 410 through the first split output pipe 102, and the liquid in the third split tank 106 flows into the first split tank 104 so as to be injected into the die again, and quantitative injection of the metal liquid is realized.

The moving motor 301 drives the moving connecting rod one 302 to rotate, the moving connecting rod one 302 drives the moving fixing rod 303 and the moving connecting rod two 304 to enable the moving column 306 to reciprocate, the moving column 306 rotates to drive the moving rotating connecting rod three 307, the moving rotating connecting rod three 307 reciprocates to drive the moving sliding frame 311 and the moving sliding frame one 308 to slide, the moving sliding frame 311 and the moving sliding frame one 308 slide to drive the moving sliding frame two 310 and the moving main sliding frame one 309 to slide, the moving main sliding frame one 309 slides to drive the split mold assembly 2 to slide, and when the split mold assembly 2 slides to be close to the mold assembly 4 and contacts with the mold assembly 4, the split mold sliding rod 202 contacts with the mold clamping shell 411 at the moment, the split mold spring 203 is compressed, and the split mold sliding rod 202 is separated from contact with the split mold clamping rod 209; the mold clamping slide rod 402 contacts with the mold parting shell 211, the mold clamping spring 403 is compressed, the mold clamping slide rod 402 is separated from contact with the mold clamping rod 404, the mold parting rotating rod 206 contacts with the groove on the mold parting rotating disc 208, the mold clamping rotating rod 409 contacts with the groove on the mold parting rotating disc 208, the mold parting rotating disc 208 and the mold clamping rotating disc 405 rotate under the action of the mold parting return spring 207 and the mold clamping return spring 408, at the moment, the mold clamping rotating disc 405 clamps the mold parting rotating rod 206, the mold parting rotating disc 208 clamps the mold clamping rotating rod 409, and the mold parting assembly 2 and the mold clamping assembly 4 are locked, so that the mold clamping 410 is jointed and locked with the mold parting 210, and the closing of the casting mold is completed.

After the mold closing mold 410 and the mold dividing mold 210 are closed, a required casting mold is formed, at the moment, the flow dividing motor 107 controls the flow dividing plate 101 to inject the metal liquid in the flow dividing tank III 106 into the mold formed by the mold closing mold 410 and the mold dividing mold 210 for casting, and after casting is finished, the cooling system blows air through the surfaces of the mold closing mold 410 and the mold dividing mold 210 to accelerate the flow of gas on the surface of the casting to achieve the purpose of cooling, so that the casting is shaped; after cooling is completed, the mold clamping cylinder 406 pulls the mold clamping rotating rod 409 to enable the mold clamping rotating rod 409 to be separated from contact with the mold parting rotating disc 208, meanwhile, the mold clamping rotating ring 405 is rotated to be restored to the initial position, and the mold parting cylinder 204 pulls the mold parting rotating rod 206 to enable the mold parting rotating rod 206 to be separated from contact with the mold clamping rotating ring 405, and meanwhile, the mold parting rotating disc 208 is rotated to be restored to the initial position, so that the mold clamping assembly 4 and the mold parting assembly 2 are unlocked.

After the die assembly 4 and the die assembly 2 are unlocked, the moving motor 301 drives the moving connecting rod one 302 to rotate, the moving connecting rod one 302 drives the moving fixing rod 303 and the moving connecting rod two 304 to enable the moving column 306 to reciprocally rotate, the moving column 306 rotates to drive the moving rotating connecting rod three 307, the moving rotating connecting rod three 307 reciprocally rotates to drive the moving sliding frame 311 and the moving sliding frame one 308 to slide, the moving sliding frame 311 and the moving sliding frame one 308 slide to drive the moving sliding frame two 310 and the moving main sliding frame one 309 to slide, and the moving main sliding frame one 309 slides to drive the die assembly 2 to slide, so that the die assembly 2 is far away from the die assembly 4, and the die assembly 410 and the die assembly 210 are separated from contact at the moment; the cleaning device connected externally cleans the clamping mold 410 and the parting mold 210 by introducing high-pressure gas into the clamping mold 410 and the parting mold 210, and impurities are blown away by high-pressure air flow, so that the molten castings in the clamping mold 410 and the parting mold 210 fall into a collecting box arranged on the bottom plate 5, and the molten casting is completed.

Claims (8)

1. The utility model provides a metal product precision casting device, includes bottom plate (5), shell (6), its characterized in that: the automatic clamping device comprises a shell (6), and is characterized by further comprising a split component (1), a split component (2), a moving component (3) and a clamping component (4), wherein the split component (1) is fixedly arranged on the bottom plate (5), the bottom plate (5) is fixedly arranged in the shell (6), the clamping component (4) is fixedly arranged on the bottom plate (5), the split component (2) is fixedly arranged on the moving component (3), and the moving component (3) is rotatably arranged on the bottom plate (5); the die assembly (2) comprises a die-separating shell (211) fixedly arranged on a movable main sliding frame I (309), a die-separating die (210) is fixedly arranged on the die-separating shell (211), a die-separating baffle (201) is fixedly arranged on the die-separating shell (211), a die-separating sliding rod (202) is arranged on the die-separating baffle (201) in a sliding mode, a die-separating spring (203) is arranged between the die-separating sliding rod (202) and the die-separating baffle (201), the die-separating sliding rod (202) is in sliding fit with the die-separating clamping rod (209), the die-separating clamping rod (209) is rotatably arranged on a die-separating rotating disc (208), a die-separating rotating rod (206) is rotatably arranged on the die-separating rotating disc (208), the die-separating fixing block (205) is fixedly arranged on an output shaft of a die-separating cylinder (204), a die-separating reset spring (207) is arranged between the die-separating rotating disc (208) and the die-separating shell (211), and the die-separating sliding rod (202) is in sliding fit with the shell (411) and is in sliding fit with the die-separating ring (405).

2. The apparatus for precision casting of metal articles according to claim 1, wherein: the die assembly (4) comprises a die assembly shell (411) fixedly arranged on a bottom plate (5), a die assembly die (410) is arranged on the die assembly shell (411), a die assembly main fixing plate (401) is fixedly arranged on the die assembly shell (411), a die assembly sliding rod (402) is arranged on the die assembly main fixing plate (401) in a sliding mode, the die assembly sliding rod (402) is in sliding fit with the die separation shell (211), and the die assembly sliding rod (402) is in sliding fit with a die assembly clamping rod (404) arranged on a die assembly rotating ring (405) in a rotating mode.

3. The precision casting apparatus for metal products according to claim 2, wherein: a die clamping spring (403) is arranged between the die clamping sliding rod (402) and the die clamping main fixing plate (401), a die clamping rotating ring (405) is rotatably arranged on the die clamping main fixing plate (401), a die clamping rotating rod (409) is rotatably arranged on the die clamping rotating ring (405), the die clamping rotating rod (409) is slidably arranged in a die clamping fixing plate (407), the die clamping fixing plate (407) is fixedly arranged on an output shaft of a die clamping air cylinder (406), the die clamping air cylinder (406) is fixedly arranged on a die clamping shell (411), and a die clamping reset spring (408) is arranged between the die clamping rotating ring (405) and the die clamping shell (411).

4. A precision casting apparatus for metal products according to claim 3, wherein: the movable assembly (3) comprises a first movable connecting rod (302) and a second movable connecting rod (304) which are rotatably arranged on the bottom plate (5), a movable fixed rod (303) is rotatably arranged between the first movable connecting rod (302) and the second movable connecting rod (304), the movable fixed rod (303) is fixedly arranged on a movable rotary column (305), the movable rotary column (305) is rotatably arranged on a movable column (306), and the first movable connecting rod (302) is fixedly arranged on an output shaft of the movable motor (301).

5. The apparatus for precision casting of metal articles according to claim 4, wherein: the movable column (306) is rotatably arranged on the bottom plate (5), the movable column (306) is fixedly provided with a movable rotary connecting rod III (307), the movable rotary connecting rod III (307) is slidably provided with a movable sliding frame I (308) and a movable sliding frame 311, the movable sliding frame 311 and the movable sliding frame I (308) are slidably arranged on the bottom plate (5), the movable sliding frame II (310) is slidably arranged on the movable sliding frame 311, and the movable sliding frame II (310) is slidably matched with an arc-shaped groove on the bottom plate (5).

6. The apparatus for precision casting of metal articles according to claim 5, wherein: the first movable main sliding frame (309) is slidably arranged on the first movable sliding frame (308), and the first movable main sliding frame (309) is slidably matched with the arc-shaped groove on the bottom plate (5).

7. The apparatus for precision casting of metal articles according to claim 6, wherein: the split flow assembly (1) comprises a first split flow tank (104), a second split flow tank (105) and a third split flow tank (106) which are fixedly arranged on the bottom plate (5), the first split flow tank (104), the second split flow tank (105) and the third split flow tank (106) are connected to the split flow housing (103) through guide pipes, the split flow housing (103) is rotatably provided with a split flow plate (101), and the split flow plate (101) is fixedly arranged on an output shaft of the split flow motor (107).

8. The apparatus for precision casting of metal articles according to claim 7, wherein: the split-flow shell (103) is fixedly provided with a split-flow output pipe (102).