CN117020155B - Die casting forming machine is used in production of balanced heavy production that can high-efficient fashioned - Google Patents

Abstract

The invention relates to the technical field of die casting and forming for counterweight production, and provides a die casting and forming machine for counterweight production, which can be used for efficiently forming, and comprises a horizontal cold-pressing chamber die casting machine and a first fixing frame, wherein the horizontal cold-pressing chamber die casting machine comprises a fixed half die and a movable half die, the horizontal cold-pressing chamber die casting machine is arranged on the first fixing frame and also comprises a second fixing frame and a liquid inlet component, the second fixing frame is arranged on the first fixing frame, and a quantitative liquid outlet component is arranged on the second fixing frame.

Description

Die casting forming machine is used in production of balanced heavy production that can high-efficient fashioned

Technical Field

The invention relates to the technical field of die-casting molding for counterweight production, in particular to a die-casting molding machine for counterweight production, which can be used for high-efficiency molding.

Background

The pressing forming machine is divided into a hot-pressing chamber type and a cold-pressing chamber type, the hot-pressing chamber type die casting machine is mainly used for die casting alloys with lower melting points such as zinc, tin and the like, and the cold-pressing chamber die casting machine can be used for die casting metals with higher melting points, wherein the cold-pressing chamber die casting machine can be further divided into a vertical cold-pressing chamber die casting machine and a horizontal cold-pressing chamber die casting machine.

When parts with large mass are produced, the horizontal cold-pressing chamber die-casting machine is generally used for die-casting forming, an operator is required to take out quantitative metal liquid from a smelting furnace, the quantitative metal liquid is poured into a compression chamber, and the metal liquid is hydraulically poured into a casting machine for cooling forming by a compression piston.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a die-casting forming machine for producing balancing weights, which can be used for efficiently forming, so as to solve the problems that in the prior art, when feeding, the extracted molten metal can generate certain errors, incomplete parts are produced, and the molten metal can leak from a liquid-taking container due to careless operation of an operator, so that waste is caused.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The die-casting forming machine comprises a horizontal cold-pressing chamber die-casting machine and a first fixing frame, wherein the horizontal cold-pressing chamber die-casting machine is arranged on the first fixing frame and comprises a fixed half die and a movable half die, a liquid injection pipe is arranged on the side wall of the fixed half die, a compression piston is arranged beside the liquid injection pipe, a driver is arranged on the side wall of the movable half die, a part discharger is also arranged on the side wall of the movable half die, the die-casting forming machine further comprises a second fixing frame and a liquid inlet component, the second fixing frame is arranged on the first fixing frame, a quantitative liquid outlet component is arranged on the second fixing frame and used for discharging metal liquid required by quantitative parts, and the liquid inlet component is arranged on the second fixing frame and used for pouring the discharged quantitative metal liquid into the liquid injection pipe;

unfolding the quantitative liquid outlet component and the quantitative liquid inlet component, wherein the quantitative liquid outlet component comprises:

the third fixing frame is arranged at the top end of the second fixing frame;

The melting furnace is arranged on the third fixing frame;

The first liquid outlet pipe is fixedly arranged at a discharge hole at the bottom end of the melting furnace, and a first electric stop valve is further arranged on the first liquid outlet pipe;

the fixing plate is arranged on the upright post of the second fixing frame, and a pressure sensor is further arranged on the side wall of the top end of the fixing plate;

the molten metal pre-storing component is arranged on the pressure sensor of the fixed plate;

wherein, the molten metal pre-stores the subassembly and includes:

the high-temperature resistant container is provided with a liquid inlet at the top end and a liquid outlet at the bottom end;

The second liquid outlet pipe is fixedly arranged at the liquid outlet of the high-temperature resistant container, and a second electric stop valve is further arranged on the second liquid outlet pipe;

Wherein, the feed liquor subassembly includes:

The first electric moving seat is arranged in the limiting moving groove of the second fixing frame;

the first air cylinder is fixedly arranged at the top end of the first electric movable seat, and a fixed seat is arranged on a telescopic rod of the first air cylinder;

the double-end air cylinder is installed on the fixing base, and the telescopic links of the double-end air cylinder are all provided with first clamping plates.

In order to improve the discharging efficiency of the formed part, as a further optional technical scheme of the application, the application further comprises a discharging assembly, wherein the discharging assembly comprises:

The fourth fixing frame is arranged on the first fixing frame, and a limiting chute is formed in the fourth fixing frame;

The second electric moving seat is arranged in the limiting chute of the fourth fixing frame;

The second air cylinder is fixedly arranged at the top end of the second electric moving seat, and a telescopic rod of the second air cylinder penetrates through the second electric moving seat;

The fifth fixing frame is arranged on the telescopic rod of the second cylinder;

And the third air cylinder is arranged on the side wall of the fifth fixing frame, and a second clamping plate is fixedly arranged on the telescopic rod of the third air cylinder.

In order to prevent the second clamping plate from leaving marks of extrusion and scraping on the molded part, as a still further alternative aspect of the present application, an elastic fixing assembly is further included, the elastic fixing assembly including:

the fixing rod is provided with a through hole, and the fixing rod is slidably arranged in the through hole of the second clamping plate;

the friction cushion is fixedly arranged on the fixed rod;

The plug is fixedly arranged at one end, far away from the friction cushion, of the fixing rod;

And a spring mounted on the fixing rod and located between the friction pad and the second clamping plate.

In order to further improve the ejection of compact efficiency of shaping part, on the basis of the aforesaid scheme, still include conveyor, conveyor includes:

The support column is arranged below the part discharge hole of the first fixing frame;

The driving motor is arranged on the side wall of the support column;

The driving rotating roller is arranged on an output shaft of the driving motor;

the auxiliary rotating roller is slidably arranged on the side wall of the support column;

and the belt is arranged on the outer walls of the driving rotating roller and the auxiliary rotating roller.

Compared with the prior art, the invention provides a die-casting molding machine for producing balancing weights, which can be molded efficiently, and has the following beneficial effects:

1. According to the invention, a metal raw material is heated into metal liquid in a smelting furnace, flows into a high-temperature resistant container through a first liquid outlet pipe, is matched with a pressure sensor to detect the high-temperature resistant container and the metal liquid in the high-temperature resistant container in real time, when the high-temperature resistant container and the metal liquid in the high-temperature resistant container reach a certain weight, the metal liquid is stopped from being injected into the high-temperature resistant container to obtain quantitative metal liquid required by a production part, then the high-temperature resistant container filled with the metal liquid is driven by a liquid inlet component to move to a liquid injection hole of a liquid injection pipe, and the metal liquid in the high-temperature resistant container is poured into the liquid injection pipe through a second liquid outlet pipe.

2. According to the invention, the formed part is driven to move through the discharging component, so that the formed part stably moves to the belt through the part discharging hole of the first fixing frame, the driving roller is driven to rotate by the driving motor, the belt is rotated by the driving roller and the auxiliary roller, and the formed part on the belt is discharged efficiently;

3. According to the invention, when the third cylinder drives the second clamping plate to fix the molded part, the second clamping plate is prevented from leaving pits or scratches on the molded part due to extrusion by the elastic fixing assembly, so that the quality of the molded part is influenced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

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

FIG. 2 is a schematic view of the structure of the first fixture of the present invention in partial cross section with a horizontal cold-press chamber die casting machine;

FIG. 3 is a schematic view of a partial cross-sectional structure of the liquid outlet assembly, the liquid metal pre-storing assembly and the liquid inlet assembly of the present invention;

FIG. 4 is a schematic view of a partially cut-away configuration of the outfeed assembly of the present invention;

FIG. 5 is a schematic view of a part of the elastic fixing assembly of the present invention;

Fig. 6 is a schematic partial structure of the conveying apparatus of the present invention.

Reference numerals in the drawings represent respectively:

100. a horizontal cold-pressing chamber die casting machine; 200. a liquid outlet component; 300. a molten metal pre-storing component; 400. a liquid inlet component; 500. a discharge assembly; 600. an elastic fixing component; 700. a conveying device;

1. A first fixing frame; 2. fixing a half mould; 3. moving the half mould; 4. a liquid injection pipe; 5. a compression piston; 6. a driver; 7. a part ejector; 8. the second fixing frame; 9. a third fixing frame; 10. a melting furnace; 11. a first liquid outlet pipe; 12. a first electric shut-off valve; 13. a fixing plate; 14. a pressure sensor; 15. a high temperature resistant container; 16. a second liquid outlet pipe; 17. a second electric shut-off valve; 18. a first electric moving seat; 19. a first cylinder; 20. a fixing seat; 21. a double-headed cylinder; 22. a first clamping plate; 23. a fourth fixing frame; 24. a second electric movable seat; 25. a second cylinder; 26. a fifth fixing frame; 27. a third cylinder; 28. a second clamping plate; 29. a fixed rod; 30. a friction cushion; 31. a plug; 32. a spring; 33. a support column; 34. a driving motor; 35. actively rotating the roller; 36. an auxiliary rotating roller; 37. a belt.

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.

Referring to fig. 1 to 3, a die casting molding machine for producing balancing weights capable of being molded efficiently comprises a horizontal cold-pressing chamber die casting machine 100 and a first fixing frame 1, wherein the horizontal cold-pressing chamber die casting machine 100 is installed on the first fixing frame 1, the horizontal cold-pressing chamber die casting machine 100 comprises a fixed half mold 2 and a movable half mold 3, a liquid injection pipe 4 is installed on the side wall of the fixed half mold 2, a compression piston 5 is arranged beside the liquid injection pipe 4, a driver 6 is installed on the side wall of the movable half mold 3, a part discharger 7 is also arranged on the side wall of the movable half mold 3, the die casting molding machine further comprises a second fixing frame 8 and a liquid inlet assembly 400, the second fixing frame 8 is installed on the first fixing frame 1, a quantitative liquid outlet assembly 200 is installed on the second fixing frame 8 and used for discharging quantitative metal liquid required by quantitative parts, and the liquid inlet assembly 400 is installed on the second fixing frame 8 and used for pouring the discharged quantitative metal liquid into the liquid injection pipe 4;

The quantitative liquid outlet assembly 200 and the liquid inlet assembly 400 are unfolded, wherein the quantitative liquid outlet assembly 200 comprises a third fixing frame 9, a melting furnace 10, a first liquid outlet pipe 11, a fixing plate 13 and a molten metal pre-storing assembly 300, the third fixing frame 9 is arranged at the top end of the second fixing frame 8, the melting furnace 10 is arranged on the third fixing frame 9, the first liquid outlet pipe 11 is fixedly arranged at a discharge hole at the bottom end of the melting furnace 10, a first electric stop valve 12 is further arranged on the first liquid outlet pipe 11, the fixing plate 13 is arranged on a stand column of the second fixing frame 8, a pressure sensor 14 is further arranged on the side wall of the top end of the fixing plate 13, and the molten metal pre-storing assembly 300 is arranged on the pressure sensor 14 of the fixing plate 13;

Heating a metal raw material through a furnace 10 to obtain molten metal, controlling the molten metal to flow into a first liquid outlet pipe 11 from the furnace 10 to be opened and closed through a first electric stop valve 12, enabling the molten metal to flow into a high-temperature resistant container 15 from the furnace 10 through the first liquid outlet pipe 11, supporting the high-temperature resistant container 15 through a fixed plate 13, and measuring the volume of the molten metal through a pressure sensor 14 to obtain quantitative molten metal;

The molten metal pre-storing assembly 300 comprises a high temperature resistant container 15 and a second liquid outlet pipe 16, wherein a liquid inlet is formed in the top end of the high temperature resistant container 15, a liquid outlet is formed in the bottom end of the high temperature resistant container 15, the second liquid outlet pipe 16 is fixedly arranged at the liquid outlet of the high temperature resistant container 15, and a second electric stop valve 17 is further arranged on the second liquid outlet pipe 16;

the molten metal flows into the liquid injection pipe 4 from the high-temperature resistant container 15 through the second liquid outlet pipe 16, and the opening and closing of the molten metal flow are controlled through the second electric stop valve 17;

the liquid inlet assembly 400 comprises a first electric moving seat 18, a first air cylinder 19 and a double-head air cylinder 21, wherein a limiting moving groove is formed in the second fixing frame 8, the first electric moving seat 18 is installed in the limiting moving groove of the second fixing frame 8, the first air cylinder 19 is fixedly installed at the top end of the first electric moving seat 18, a fixed seat 20 is installed on a telescopic rod of the first air cylinder 19, the double-head air cylinder 21 is installed on the fixed seat 20, and a first clamping plate 22 is installed on the telescopic rod of the double-head air cylinder 21;

The first clamping plate 22 is driven to move through the double-head air cylinder 21, the first clamping plate 22 is used for fixing the high-temperature-resistant container 15, the high-temperature-resistant container 15 is driven to move in the limiting moving groove of the second fixing frame 8 through the first electric moving seat 18, and the high-temperature-resistant container 15 is driven to move up and down through the first air cylinder 19.

Referring to fig. 4, in order to improve the discharging efficiency of the molded part, the discharging assembly 500 further includes a discharging assembly 500, where the discharging assembly 500 includes a fourth fixing frame 23, a second electric moving seat 24, a second air cylinder 25, a fifth fixing frame 26, and a third air cylinder 27, the fourth fixing frame 23 is installed on the first fixing frame 1, a limiting chute is formed on the fourth fixing frame 23, the second electric moving seat 24 is installed in the limiting chute of the fourth fixing frame 23, the second air cylinder 25 is fixedly installed at the top end of the second electric moving seat 24, and a telescopic rod of the second air cylinder 25 penetrates through the second electric moving seat 24, the fifth fixing frame 26 is installed on a telescopic rod of the second air cylinder 25, the third air cylinder 27 is installed on a side wall of the fifth fixing frame 26, and a second clamping plate 28 is fixedly installed on a telescopic rod of the third air cylinder 27;

The second air cylinder 25 is driven to move in the limiting sliding groove of the fourth fixing frame 23 through the second electric moving seat 24, the second clamping plate 28 is driven to fix the formed part through the third air cylinder 27, and the formed part is driven to move downwards through the cooperation of the second air cylinder 25, so that the formed part moves onto the belt 37 through the part discharging hole of the first fixing frame 1.

Referring to fig. 5, in order to prevent the second clamping plate 28 from leaving a trace of pressing and scraping on the molded part, the elastic fixing assembly 600 further comprises a fixing rod 29, a friction soft pad 30, a plug 31 and a spring 32, wherein the second clamping plate 28 is provided with a through hole, the fixing rod 29 is slidably mounted in the through hole of the second clamping plate 28, the friction soft pad 30 is fixedly mounted on the fixing rod 29, the plug 31 is fixedly mounted at one end of the fixing rod 29 away from the friction soft pad 30, the spring 32 is mounted on the fixing rod 29, and the spring 32 is positioned between the friction soft pad 30 and the second clamping plate 28;

The friction soft cushion 30 is extruded on the outer wall of the forming part to fix the forming part, the friction soft cushion 30 drives the fixing rod 29 to move to one side far away from the forming part, the friction soft cushion 30 is matched with the spring 32 to elastically contract, and the second clamping plate 28 is prevented from leaving pits or scratches on the forming part due to extrusion, so that the quality of the forming part is affected.

Referring to fig. 6, in order to further improve the discharging efficiency of the formed parts, the conveying device 700 further comprises a conveying device 700, wherein the conveying device 700 comprises a support column 33, a driving motor 34, a driving roller 35, an auxiliary roller 36 and a belt 37, the first fixing frame 1 is provided with a part discharging hole, the support column 33 is arranged below the part discharging hole of the first fixing frame 1, the driving motor 34 is mounted on the side wall of the support column 33, the driving roller 35 is mounted on the output shaft of the driving motor 34, the auxiliary roller 36 is slidably mounted on the side wall of the support column 33, and the belt 37 is mounted on the outer walls of the driving roller 35 and the auxiliary roller 36;

the driving roller 35 is driven to rotate by the driving motor 34, the belt 37 is driven to rotate by the auxiliary roller 36, and further the formed part on the belt 37 is driven to move, so that efficient part discharging is completed.

In summary, the working principle of the die-casting molding machine for producing the balancing weight capable of being molded efficiently is as follows: firstly, putting metal raw materials into a furnace 10, starting the furnace 10, heating the metal raw materials through the furnace 10 to obtain metal liquid, then starting a first electric stop valve 12, enabling the metal liquid to flow into a high-temperature resistant container 15 from the furnace 10 through a first liquid outlet pipe 11, gradually increasing the pressure of the high-temperature resistant container 15 along with the gradual increase of the metal liquid, closing the first electric stop valve 12 after reaching a specified value, stopping pouring the metal liquid into the high-temperature resistant container 15, starting a first electric movable seat 18, moving in a limit movement groove of a second fixing frame 8 through the first electric movable seat 18, enabling a first air cylinder 19 to reach the upper side of the high-temperature resistant container 15, driving a first clamping plate 22 to move through a double-head air cylinder 21, enabling the first clamping plate 22 to fix the high-temperature resistant container 15, and then starting the first electric movable seat 18 again, the high temperature resistant container 15 is moved to the position right above the liquid injection hole of the liquid injection pipe 4 through the first electric moving seat 18 in the limit moving groove of the second fixing frame 8, then the first air cylinder 19 is started, the high temperature resistant container 15 is driven to move downwards through the first air cylinder 19, the second liquid outlet pipe 16 of the high temperature resistant container 15 is inserted into the liquid injection hole of the liquid injection pipe 4, then the second electric stop valve 17 is started, molten metal flows into the liquid injection pipe 4 from the high temperature resistant container 15, then the horizontal cold pressing chamber die casting machine 100 is started to perform die casting forming on the molten metal, after a formed part is obtained, the second electric moving seat 24 is started, the second air cylinder 25 is driven to move in the limit sliding groove of the fourth fixing frame 23 through the second electric moving seat 24, the second air cylinder 25 is driven to move to the position right above the formed part, the second clamping plate 28 is driven to fix the formed part through the third air cylinder 27, the second cylinder 25 is matched to drive the forming part to move downwards, so that the forming part moves onto the belt 37 through the part discharging hole of the first fixing frame 1, the driving motor 34 is started, the forming part is driven to move through the belt 37, and efficient part discharging is completed.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. But high-efficient fashioned balanced heavy die casting molding machine for production, including horizontal cold pressing room die casting machine (100) and first mount (1), horizontal cold pressing room die casting machine (100) are installed on first mount (1), horizontal cold pressing room die casting machine (100) are including fixed half mould (2) and removal half mould (3), install notes liquid pipe (4) on the lateral wall of fixed half mould (2), and annotate the other compression piston (5) that is provided with of liquid pipe (4), install driver (6) on the lateral wall of removal half mould (3), and still be provided with part ejector (7) on the lateral wall of removal half mould (3), its characterized in that still includes:

the second fixing frame (8), the second fixing frame (8) is installed on the first fixing frame (1), and the second fixing frame (8) is provided with a quantitative liquid outlet component (200) for discharging quantitative metal liquid required by parts;

The liquid inlet assembly (400) is arranged on the second fixing frame (8) and is used for pouring discharged quantitative molten metal into the liquid injection pipe (4);

The liquid inlet assembly (400) comprises:

The first electric moving seat (18) is provided with a limiting moving groove, and the first electric moving seat (18) is arranged in the limiting moving groove of the second fixed frame (8);

The first air cylinder (19), the first air cylinder (19) is fixedly arranged at the top end of the first electric movable seat (18), and a fixed seat (20) is arranged on a telescopic rod of the first air cylinder (19);

the double-head air cylinders (21), wherein the double-head air cylinders (21) are arranged on the fixing seat (20), and first clamping plates (22) are arranged on telescopic rods of the double-head air cylinders (21);

Further comprising an outfeed assembly (500), the outfeed assembly (500) comprising:

The fourth fixing frame (23), the fourth fixing frame (23) is installed on the first fixing frame (1), and a limiting chute is formed in the fourth fixing frame (23);

the second electric moving seat (24) is arranged in the limiting chute of the fourth fixing frame (23);

the second air cylinder (25), the said second air cylinder (25) is fixedly mounted on the top of the said second electric movable seat (24), and the telescopic link of the said second air cylinder (25) runs through the said second electric movable seat (24);

A fifth fixing frame (26), wherein the fifth fixing frame (26) is arranged on a telescopic rod of the second air cylinder (25);

The third air cylinder (27), the third air cylinder (27) is installed on the lateral wall of the fifth fixing frame (26), and a second clamping plate (28) is fixedly installed on the telescopic rod of the third air cylinder (27).

2. The die casting machine for producing balancing weights capable of being efficiently molded according to claim 1, wherein the quantitative liquid discharging assembly (200) comprises:

The third fixing frame (9), the said third fixing frame (9) is installed on top of the said second fixing frame (8);

A furnace (10), the furnace (10) being mounted on the third mount (9);

The first liquid outlet pipe (11), the first liquid outlet pipe (11) is fixedly arranged at a discharge hole at the bottom end of the smelting furnace (10), and a first electric stop valve (12) is also arranged on the first liquid outlet pipe (11);

The fixing plate (13), the fixing plate (13) is installed on the upright post of the second fixing frame (8), and the top side wall of the fixing plate (13) is also provided with a pressure sensor (14);

the molten metal pre-storing component (300), the molten metal pre-storing component (300) is arranged on the pressure sensor (14) of the fixed plate (13).

3. The die casting machine for producing balancing weights capable of being efficiently formed according to claim 2, wherein the molten metal pre-storing assembly (300) comprises:

The high-temperature resistant container (15), wherein the top end of the high-temperature resistant container (15) is provided with a liquid inlet, and the bottom end of the high-temperature resistant container (15) is provided with a liquid outlet;

the second liquid outlet pipe (16), second liquid outlet pipe (16) fixed mounting is in the liquid outlet department of high temperature resistant container (15) to still install second electronic stop valve (17) on second liquid outlet pipe (16).

4. A die casting machine for producing balancing weights capable of being efficiently molded according to claim 3, further comprising an elastic fixing assembly (600), the elastic fixing assembly (600) comprising:

The fixing rod (29) is provided with a through hole, and the fixing rod (29) is slidably arranged in the through hole of the second clamping plate (28);

a friction cushion (30), the friction cushion (30) being fixedly mounted on the fixing rod (29);

the plug (31) is fixedly arranged at one end, far away from the friction cushion (30), of the fixing rod (29);

-a spring (32), said spring (32) being mounted on said fixed bar (29) and said spring (32) being located between said friction pad (30) and said second clamping plate (28).

5. The die casting machine for producing balancing weights capable of being efficiently molded according to claim 4, further comprising a conveying device (700), wherein the conveying device (700) comprises:

The support column (33) is arranged on the first fixing frame (1) and provided with a part discharging hole, and the support column (33) is arranged below the part discharging hole of the first fixing frame (1);

A drive motor (34), the drive motor (34) being mounted on a side wall of the support column (33);

a driving roller (35), wherein the driving roller (35) is arranged on an output shaft of the driving motor (34);

An auxiliary rotating roller (36), the auxiliary rotating roller (36) being slidably mounted on a side wall of the support column (33);

And the belt (37) is arranged on the outer walls of the driving rotating roller (35) and the auxiliary rotating roller (36).