CN215544795U - Die-casting forming device for processing metal parts - Google Patents

Abstract

The utility model belongs to the technical field of metal part machining, and particularly relates to a die-casting forming device for metal part machining. The die can be rapidly conveyed, positioned, fixed and disassembled, and the die-casting effect can be improved by the mutual matching of the pressing plate and the top plate; the application range is wider than that of the traditional die-casting device, and when the processing requirement is changed, the pressing plate and the grinding tool can be replaced; the device is easy to maintain, is convenient for operators to use, has low use cost, and can reduce the processing cost of metal parts.

Description

Die-casting forming device for processing metal parts

Technical Field

The utility model belongs to the technical field of metal part machining, and particularly relates to a die-casting forming device for metal part machining.

Background

Die casting is a metal casting process and is characterized in that high pressure is applied to molten metal by utilizing an inner cavity of a die. The molds are typically formed from higher strength alloys, a process somewhat similar to injection molding, and most die cast parts are non-ferrous, such as zinc, copper, aluminum, magnesium, lead, tin, and lead-tin alloys and their alloys, requiring either a cold or hot chamber die casting machine depending on the type of die casting.

Die casting is particularly suitable for manufacturing a large number of small and medium-sized castings, so die casting is the most widely used one of various casting processes, and compared with other casting technologies, the die casting surface is smoother and has higher size consistency.

But the die-casting forming device of metal parts processing on the existing market does not set up the structure of being convenient for change and removing the mould, when processing requirement changes, often needs frequently to change the mould, easily causes the increase of the mould change degree of difficulty, and the die-casting efficiency of metal parts reduces, causes the application range of device to have the limitation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a die-casting forming device for processing metal parts.

The technical scheme adopted by the utility model is as follows:

a die-casting forming device for processing metal parts comprises a die-casting table, wherein die-casting table supporting legs are arranged below the die-casting table, a die groove is formed in the die-casting table, a die-casting table baffle is arranged above the die-casting table, a cushion pad is arranged behind the die-casting table baffle, die-casting table supporting plates are arranged in the die-casting table supporting legs, a connecting plate is arranged behind the die-casting table, a connecting seat is arranged below the connecting plate, a lower conveyor base is arranged behind the connecting seat, an upper conveyor base is arranged above the lower conveyor base, a conveyor protecting plate is arranged above the upper conveyor base, a driving roller is arranged between the lower conveyor base and the upper conveyor base, nine groups of driven rollers are arranged in front of the driving roller, the driven rollers are arranged between the lower conveyor base and the upper conveyor base, and the conveyor supporting plates are arranged in the conveyor base, a driving motor is arranged above the supporting plate of the conveyor, a belt pulley is arranged at the output end of the driving motor, a transmission belt is arranged between the belt pulley and the driving roller, a conveyor belt is arranged outside the driving roller and the driven roller, a side supporting plate is arranged at one side of the die-casting table, side supporting plate supporting legs are arranged below the side supporting plate, a first hydraulic cylinder is arranged above the side supporting plate, four groups of supporting columns are arranged above the die-casting table, a supporting plate is arranged above the supporting columns, a second hydraulic cylinder is arranged below the supporting plate, a pressing plate connecting sleeve is arranged at the telescopic end of the second hydraulic cylinder, a pressing plate is arranged below the pressing plate connecting sleeve, a die cavity is arranged below the pressing plate, four die cavity sliding rods are arranged at the front and rear part of the die cavity, a first connecting rod frame is arranged below the die cavity sliding rod at one side of the die cavity far away from the side supporting plate supporting legs, the die cavity is close to one side of collateral branch board landing leg the below of die cavity slide bar is provided with the second link frame, first link frame below is provided with the third pneumatic cylinder, the below of second link frame is provided with the fourth pneumatic cylinder, the third pneumatic cylinder with be provided with the fifth pneumatic cylinder between the fourth pneumatic cylinder, the flexible end of fifth pneumatic cylinder is provided with the roof adapter sleeve, roof adapter sleeve top is provided with the roof.

Preferably: the die-casting platform with the welding of die-casting platform landing leg, the die-casting platform with mould groove integrated into one piece, the die-casting platform with die-casting platform baffle welding, die-casting platform baffle with the blotter bonds, die-casting platform landing leg with die-casting platform extension board welding, the die-casting platform with the connecting plate welding, the connecting plate with the connecting seat welding.

So set up, guarantee the overall structure stability of this device, be convenient for arrange the installation and connect other parts.

Preferably: the connecting seat with the base passes through bolted connection on the conveyer, the base passes through bolted connection under the conveyer with the base passes through bolted connection on the conveyer, the base with conveyer backplate welding on the conveyer, base and conveyer on base and the drive roll pass through the bearing and connect under the conveyer with the driven voller passes through the bearing and connects, the base with the conveyer extension board welding under the conveyer, the conveyer extension board with driving motor passes through bolted connection, the driving motor output with the belt pulley welding, the belt pulley with the drive roll with drive belt frictional connection, the belt pulley with the drive roll passes through drive belt connects, the drive roll with the driven voller with conveyer belt frictional connection.

Due to the arrangement, an operator can conveniently place the mold on the conveyor belt, and the mold is conveyed into the mold groove through the connecting plate after the conveyor belt is driven to rotate by the driving motor.

Preferably: the die-casting platform with the collateral branch board welding, the side extension board with the collateral branch board landing leg welding, the side extension board with first pneumatic cylinder passes through bolted connection.

By the arrangement, an operator can move the die conveyed into the die groove by the conveyor belt through the first hydraulic cylinder conveniently.

Preferably: the die-casting platform with the support column passes through bolted connection, the support column with the backup pad passes through bolted connection, the backup pad with the second pneumatic cylinder passes through bolted connection, the flexible end of second pneumatic cylinder with the clamp plate adapter sleeve passes through threaded connection, the clamp plate adapter sleeve with the clamp plate welding.

So set up, be convenient for the die cavity fills the metal that melts of accomplishing and carries out die-casting.

Preferably: the die cavity slide bar with die-casting platform sliding connection, the die cavity slide bar with first link frame sliding connection, the die cavity slide bar with second link frame sliding connection, first link frame with the flexible end sliding connection of third pneumatic cylinder, the second link frame with the flexible end sliding connection of fourth pneumatic cylinder.

So set up, the die-casting quick separation of mould and die cavity after accomplishing to and the quick replacement of mould is installed with the high-speed joint of die cavity of being convenient for.

Preferably: the fifth hydraulic cylinder is connected with the die-casting table through a bolt, the telescopic end of the fifth hydraulic cylinder is connected with the top plate connecting sleeve through threads, and the top plate connecting sleeve is welded with the top plate.

So set up, fix a position, fix and dismantle the mould when being convenient for change the mould, when being convenient for die-casting the roof with the clamp plate combined action accelerates the process of die-casting work.

The utility model has the beneficial effects that:

1. the die can be quickly conveyed, positioned, fixed and disassembled, and the die-casting effect can be improved by the mutual matching of the pressing plate and the top plate;

2. the application range is wider than that of the traditional die-casting device, and when the processing requirement is changed, the pressing plate and the grinding tool can be replaced;

3. the device is easy to maintain, is convenient for operators to use, has low use cost, and can reduce the processing cost of metal parts.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic isometric view of a die-casting forming device for processing metal parts according to the present invention;

FIG. 2 is a schematic front view of a die-casting device for processing metal parts according to the present invention;

FIG. 3 is a schematic left-side view of a die-casting device for processing metal parts according to the present invention;

fig. 4 is a schematic top view of the die-casting device for processing metal parts according to the present invention.

The reference numerals are explained below:

101. die-casting platform; 102. a mold slot; 103. a die-casting table baffle; 104. a cushion pad; 105. a die-casting table support plate; 106. a connecting plate; 107. a connecting seat; 108. a die-casting table support leg; 201. a conveyor lower base; 202. a conveyor upper base; 203. a conveyor apron; 204. a drive roll; 205. a driven roller; 206. a conveyor support plate; 207. a drive motor; 208. a belt pulley; 209. a drive belt; 210. a conveyor belt; 301. a side support plate; 302. side support plate legs; 303. a first hydraulic cylinder; 401. a support pillar; 402. a support plate; 403. a second hydraulic cylinder; 404. a pressure plate connecting sleeve; 405. pressing a plate; 501. a mold cavity; 502. a die cavity slide bar; 503. a first link frame; 504. a third hydraulic cylinder; 505. a second link frame; 506. a fourth hydraulic cylinder; 601. a fifth hydraulic cylinder; 602. a top plate connecting sleeve; 603. a top plate.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings.

As shown in fig. 1-4, a die-casting forming device for processing metal parts comprises a die-casting table 101, die-casting table legs 108 are arranged below the die-casting table 101, a die slot 102 is arranged in the die-casting table 101, a die-casting table baffle 103 is arranged above the die-casting table 101, a cushion pad 104 is arranged behind the die-casting table baffle 103, die-casting table support plates 105 are arranged in the die-casting table legs 108, a connecting plate 106 is arranged behind the die-casting table 101, a connecting seat 107 is arranged below the connecting plate 106, a conveyor lower base 201 is arranged behind the connecting seat 107, a conveyor upper base 202 is arranged above the conveyor lower base 201, a conveyor guard plate 203 is arranged above the conveyor upper base 202, a driving roller 204 is arranged between the conveyor lower base 201 and the conveyor upper base 202, nine sets of driven rollers 205 are arranged in front of the driving roller 204, the driven rollers 205 are arranged between the conveyor lower base 201 and the conveyor upper base 202, a conveyor support plate 206 is arranged in a conveyor lower base 201, a driving motor 207 is arranged above the conveyor support plate 206, a belt pulley 208 is arranged at the output end of the driving motor 207, a transmission belt 209 is arranged between the belt pulley 208 and a driving roller 204, a conveyor belt 210 is arranged outside the driving roller 204 and a driven roller 205, a side support plate 301 is arranged at one side of a die-casting table 101, a side support plate support leg 302 is arranged below the side support plate 301, a first hydraulic cylinder 303 is arranged above the side support plate 301, four groups of support columns 401 are arranged above the die-casting table 101, a support plate 402 is arranged above the support columns 401, a second hydraulic cylinder 403 is arranged below the support plate 402, a press plate connecting sleeve 404 is arranged at the telescopic end of the second hydraulic cylinder 403, a press plate 405 is arranged below the press plate connecting sleeve 404, a die cavity 501 is arranged below the press plate 405, four die cavity slide bars 502 are arranged at the front and back of the die cavity 501, a first connecting rod frame 503 is arranged below the die cavity slide bar 502 at one side of the die cavity 501 far away from the side support leg 302, a second link frame 505 is arranged below a cavity slide rod 502 at one side of the cavity 501 close to the side support leg 302 of the side support plate, a third hydraulic cylinder 504 is arranged below the first link frame 503, a fourth hydraulic cylinder 506 is arranged below the second link frame 505, a fifth hydraulic cylinder 601 is arranged between the third hydraulic cylinder 504 and the fourth hydraulic cylinder 506, a top plate connecting sleeve 602 is arranged at the telescopic end of the fifth hydraulic cylinder 601, and a top plate 603 is arranged above the top plate connecting sleeve 602.

Preferably: the die-casting table 101 is welded with the die-casting table supporting legs 108, the die-casting table 101 and the die groove 102 are integrally formed, the die-casting table 101 is welded with the die-casting table baffle plate 103, the die-casting table baffle plate 103 is bonded with the cushion pad 104, the die-casting table supporting legs 108 are welded with the die-casting table supporting plate 105, the die-casting table 101 is welded with the connecting plate 106, and the connecting plate 106 is welded with the connecting seat 107; the connecting seat 107 is connected with the upper conveyor base 202 through a bolt, the lower conveyor base 201 is connected with the upper conveyor base 202 through a bolt, the upper conveyor base 202 is welded with the conveyor guard plate 203, the lower conveyor base 201 and the upper conveyor base 202 are connected with the driving roller 204 through a bearing, the lower conveyor base 201 and the upper conveyor base 202 are connected with the driven roller 205 through a bearing, the lower conveyor base 201 is welded with the conveyor support plate 206, the conveyor support plate 206 is connected with the driving motor 207 through a bolt, the output end of the driving motor 207 is welded with the belt pulley 208, the belt pulley 208 and the driving roller 204 are in friction connection with the driving belt 209, the belt pulley 208 and the driving roller 204 are connected with the driving roller 209 through the driving belt 209, and the driving roller 204 and the driven roller 205 are in friction connection with the conveying belt 210; the die-casting table 101 is welded with a side support plate 301, the side support plate 301 is welded with a side support plate supporting leg 302, and the side support plate 301 is connected with a first hydraulic cylinder 303 through a bolt; the die-casting table 101 is connected with a supporting column 401 through a bolt, the supporting column 401 is connected with a supporting plate 402 through a bolt, the supporting plate 402 is connected with a second hydraulic cylinder 403 through a bolt, the telescopic end of the second hydraulic cylinder 403 is connected with a pressure plate connecting sleeve 404 through a thread, and the pressure plate connecting sleeve 404 is welded with a pressure plate 405; the die cavity slide bar 502 is connected with the die-casting table 101 in a sliding manner, the die cavity slide bar 502 is connected with the first connecting rod frame 503 in a sliding manner, the die cavity slide bar 502 is connected with the second connecting rod frame 505 in a sliding manner, the first connecting rod frame 503 is connected with the telescopic end of the third hydraulic cylinder 504 in a sliding manner, and the second connecting rod frame 505 is connected with the telescopic end of the fourth hydraulic cylinder 506 in a sliding manner; the fifth hydraulic cylinder 601 is connected with the die-casting table 101 through bolts, the telescopic end of the fifth hydraulic cylinder 601 is connected with a top plate connecting sleeve 602 through threads, and the top plate connecting sleeve 602 is welded with a top plate 603.

The working principle is as follows: when the device is installed to complete the die-casting work of metal parts, the moving range of the die is limited through the die groove 102, the die is protected by the buffer pad 104, the die above the conveyor belt 210 is conveyed to the die-casting table 101 through the connecting plate 106, the lower base 201 of the conveyor is stably connected with the die-casting table 101 through the connecting seat 107, the rotation of the output end of the driving motor 207 is converted into the rotation of the conveyor belt 210 through the belt pulley 208, the driving belt 209 and the driving roller 204, so that the die placed on the conveyor belt 210 moves into the die-casting table 101 along with the conveyor belt 210, the die is pushed by the first hydraulic cylinder 303 to move above the top plate 603 before die-casting, the die is quickly separated from the die-casting table 101 after die-casting and demolding, the die-casting is realized through the second hydraulic cylinder 403, the pressure plate connecting sleeve 404 and the pressure plate 405, and an environment is provided for die-casting the metal parts through the die cavity 501, the third hydraulic cylinder 504 and the fourth hydraulic cylinder 506 can control the die cavity slide rod 502 to slide relative to the die-casting table 101 through the first connecting rod frame 503 and the second connecting rod frame 505, so that the clamp is convenient to assemble and disassemble, the die is positioned through the top plate 603, the top plate 603 is matched with the pressing plate 405 during die-casting to improve the die-casting effect, the time for the die to fall off from the die cavity 501 after the die-casting of the top plate 603 is completed can be reduced, and the production efficiency of metal parts can be greatly improved.

While the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (7)

1. The utility model provides a die-casting forming device is used in processing of metal parts which characterized in that: comprises a die-casting table (101), die-casting table supporting legs (108) are arranged below the die-casting table (101), a die groove (102) is arranged in the die-casting table (101), die-casting table baffles (103) are arranged above the die-casting table (101), a cushion pad (104) is arranged behind the die-casting table baffles (103), die-casting table supporting plates (105) are arranged in the die-casting table supporting legs (108), a connecting plate (106) is arranged behind the die-casting table (101), a connecting seat (107) is arranged below the connecting plate (106), a lower conveyer base (201) is arranged behind the connecting seat (107), an upper conveyer base (202) is arranged above the lower conveyer base (201), a conveyer guard plate (203) is arranged above the upper conveyer base (202), and a driving roller (204) is arranged between the lower conveyer base (201) and the upper conveyer base (202), nine groups of driven rollers (205) are arranged in front of the driving roller (204), the driven rollers (205) are arranged between the lower conveyor base (201) and the upper conveyor base (202), a conveyor support plate (206) is arranged in the lower conveyor base (201), a driving motor (207) is arranged above the conveyor support plate (206), a belt pulley (208) is arranged at the output end of the driving motor (207), a transmission belt (209) is arranged between the belt pulley (208) and the driving roller (204), a conveying belt (210) is arranged outside the driving roller (204) and the driven rollers (205), a side support plate (301) is arranged on one side of the die-casting table (101), side support plate support legs (302) are arranged below the side support plate (301), a first hydraulic cylinder (303) is arranged above the side support plate (301), four groups of support columns (401) are arranged above the die-casting table (101), a supporting plate (402) is arranged above the supporting column (401), a second hydraulic cylinder (403) is arranged below the supporting plate (402), a pressing plate connecting sleeve (404) is arranged at the telescopic end of the second hydraulic cylinder (403), a pressing plate (405) is arranged below the pressing plate connecting sleeve (404), a mold cavity (501) is arranged below the pressing plate (405), four mold cavity slide bars (502) are arranged at the front and back of the mold cavity (501), a first connecting rod frame (503) is arranged below the mold cavity slide bar (502) at one side of the mold cavity (501) far away from the side support plate supporting leg (302), a second connecting rod frame (505) is arranged below the mold cavity slide bar (502) at one side of the mold cavity (501) near the side support plate supporting leg (302), a third hydraulic cylinder (504) is arranged below the first connecting rod frame (503), and a fourth hydraulic cylinder (506) is arranged below the second connecting rod frame (505), a fifth hydraulic cylinder (601) is arranged between the third hydraulic cylinder (504) and the fourth hydraulic cylinder (506), a top plate connecting sleeve (602) is arranged at the telescopic end of the fifth hydraulic cylinder (601), and a top plate (603) is arranged above the top plate connecting sleeve (602).

2. The die-casting molding apparatus for processing a metal part according to claim 1, wherein: die-casting platform (101) with die-casting platform landing leg (108) welding, die-casting platform (101) with mould groove (102) integrated into one piece, die-casting platform (101) with die-casting platform baffle (103) welding, die-casting platform baffle (103) with blotter (104) bond, die-casting platform landing leg (108) with die-casting platform extension board (105) welding, die-casting platform (101) with connecting plate (106) welding, connecting plate (106) with connecting seat (107) welding.

3. The die-casting molding apparatus for processing a metal part according to claim 1, wherein: the connecting seat (107) is connected with the upper conveyor base (202) through a bolt, the lower conveyor base (201) is connected with the upper conveyor base (202) through a bolt, the upper conveyor base (202) is welded with the conveyor guard plate (203), the lower conveyor base (201) and the upper conveyor base (202) are connected with the driving roller (204) through a bearing, the lower conveyor base (201) and the upper conveyor base (202) are connected with the driven roller (205) through a bearing, the lower conveyor base (201) is welded with the conveyor support plate (206), the conveyor support plate (206) is connected with the driving motor (207) through a bolt, the output end of the driving motor (207) is welded with the belt pulley (208), and the belt pulley (208) and the driving roller (204) are in friction connection with the driving belt (209), the belt pulley (208) is connected with the driving roller (204) through the transmission belt (209), and the driving roller (204) and the driven roller (205) are in friction connection with the transmission belt (210).

4. The die-casting molding apparatus for processing a metal part according to claim 1, wherein: the die-casting platform (101) is welded with the side support plate (301), the side support plate (301) is welded with the side support plate supporting leg (302), and the side support plate (301) is connected with the first hydraulic cylinder (303) through a bolt.

5. The die-casting molding apparatus for processing a metal part according to claim 1, wherein: die-casting platform (101) with support column (401) pass through bolted connection, support column (401) with backup pad (402) pass through bolted connection, backup pad (402) with second pneumatic cylinder (403) pass through bolted connection, the flexible end of second pneumatic cylinder (403) with clamp plate adapter sleeve (404) pass through threaded connection, clamp plate adapter sleeve (404) with clamp plate (405) welding.

6. The die-casting molding apparatus for processing a metal part according to claim 1, wherein: die cavity slide bar (502) with die-casting platform (101) sliding connection, die cavity slide bar (502) with first link frame (503) sliding connection, die cavity slide bar (502) with second link frame (505) sliding connection, first link frame (503) with the flexible end sliding connection of third pneumatic cylinder (504), second link frame (505) with the flexible end sliding connection of fourth pneumatic cylinder (506).

7. The die-casting molding apparatus for processing a metal part according to claim 1, wherein: with fifth pneumatic cylinder (601) with die-casting platform (101) pass through bolted connection, the flexible end of fifth pneumatic cylinder (601) with roof adapter sleeve (602) pass through threaded connection, roof adapter sleeve (602) with roof (603) welding.

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