CN219310042U - Die casting die convenient for taking parts - Google Patents

Abstract

The utility model belongs to the technical field of die casting dies, and particularly relates to a die casting die convenient for taking a part. The beneficial effects of the utility model are as follows: through the structure, after the workpiece is cooled and molded, the workpiece and the gap of the cavity die are rapidly filled in a gas filling mode, the workpiece is jacked loose by utilizing the impact force generated during air filling, the acting area of the air is wider and more uniform, the air jacks the workpiece to a small extent, the workpiece is not deformed, and then the workpiece can be jacked and demolded smoothly by pushing the ejector rod, so that the operation is simple, and the demolding is convenient.

Description

Die casting die convenient for taking parts

Technical Field

The utility model belongs to the technical field of die casting dies, and particularly relates to a die casting die convenient for taking a part.

Background

The metal die casting process comprises the following steps: the molten metal is filled into the cavity of a mould, the mould is provided with a movable cavity surface, and the mould is pressed and forged along with the cooling process of the molten metal, so that not only the shrinkage cavity shrinkage porosity defect of a blank is eliminated, but also the internal structure of the blank reaches the crushed grains in a forged state. The existing die casting die is inconvenient to take out a workpiece after cooling and forming, and although a push rod is added at the bottom of a cavity of the existing die casting die, the workpiece is ejected in a manual or hydraulic mode, when the push rod ejects the workpiece aiming at the workpiece with a thinner part, the workpiece is subjected to resistance of the rest part, and the workpiece can be bent and deformed.

Disclosure of Invention

In view of the above problems, an object of the present utility model is to: the utility model provides a conveniently get die casting die of piece, solves current die casting die and is inconvenient for taking out the work piece after the cooling shaping, and although there is partial die casting die can add the ejector pin in the bottom of die cavity now, when the work piece to the part is thinner, receives the resistance of other part when the ejector pin is ejecting the work piece, and the work piece can have the phenomenon problem of bending deformation.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides a conveniently get die casting die of piece, includes the horizontal pole, the downside symmetry formula fixedly connected with first hydraulic means of horizontal pole, the lower extreme fixedly connected with moulding-die of first hydraulic means, the downside of moulding-die is pegged graft there is the die cavity mould, the liquid filling mouth has been seted up at the upside middle part of moulding-die, the liquid filling mouth link up to the die cavity mould downside, the circular slot has been seted up to the bottom inside wall symmetry formula of die cavity mould, the through-hole has all been seted up to the bottom of circular slot, peg graft in the inside of circular slot has the kicking block, the venthole has all been seted up to the side of kicking block, the downside fixedly connected with through-hole of kicking block, the downside fixedly connected with drain pan of die cavity mould, the die cavity mould is through-hole and drain pan intercommunication, peg graft in the inboard of through-hole, the lower extreme of push rod runs through to the drain pan in, the downside of push rod is provided with second hydraulic means, fixedly connected with air duct between second hydraulic means and the drain pan, the middle part of push rod is connected with air duct, the other end fixedly connected with air duct, air duct's the other end fixedly connected with bottom shell, air pump side and drain pan fixedly connected with side pump, air pump side fixed connection.

The beneficial effects of the utility model are as follows: through the structure, after the workpiece is cooled and molded, the workpiece and the gap of the cavity die are rapidly filled in a gas filling mode, the workpiece is jacked loose by utilizing the impact force generated during air filling, the acting area of the air is wider and more uniform, the air jacks the workpiece to a small extent, the workpiece is not deformed, and then the workpiece can be jacked and demolded smoothly by pushing the ejector rod, so that the operation is simple, and the demolding is convenient.

To promote air propagation, demolding is promoted;

as a further improvement of the above technical scheme: the lower end of the ejector rod is fixedly connected with a vibrating device, and the lower side of the vibrating device is fixedly connected with a second hydraulic device.

The beneficial effects of this improvement are: the vibration device drives the ejector block to vibrate through the ejector rod, the ejector block drives the workpiece to vibrate, and air is facilitated to rapidly spread on the lower side of the workpiece when the workpiece vibrates, so that the workpiece is promoted to loosen.

To promote the filling effect;

as the technical proposal further improvements of (2): the upper side of the pressing die is inserted with a liquid filling pipe through a liquid filling port, the upper side of the liquid filling pipe is fixedly connected with a buffer pipe, the side surface of the buffer pipe is fixedly connected with a liquid inlet hopper, the liquid inlet hopper is communicated with the buffer pipe, the upper side of the inner side of the buffer pipe is slidingly connected with a punching plug, the upper end of the punching plug is fixedly connected with a third hydraulic device, and the upper side of the third hydraulic device is fixedly connected with a cross rod.

The beneficial effects of this improvement are: the fluidity of the molten metal is poor, the natural pouring and filling effects are poor, partial areas are easy to be filled incompletely, and the molten metal can be quickly filled by utilizing instant stamping through the structure.

To provide buffering;

as a further improvement of the above technical scheme: the buffer tube has a diameter greater than the diameter of the liquid filled tube.

The beneficial effects of this improvement are: the buffer tube is greater than the liquid filling tube, can provide the buffering for the molten metal, is convenient for empty the molten metal, can improve the pressure when the molten metal spouts from the liquid filling tube in addition when punching press, increases the type effect of filling.

To increase the effect of vibration;

as a further improvement of the above technical scheme: the diameter of the circular groove is larger than that of the through hole, and the diameter of the ejector rod is smaller than that of the through hole.

The beneficial effects of this improvement are: the diameter of the circular groove is larger than that of the through hole, so that resistance can be increased during mold filling, excessive molten metal infiltration is avoided, the diameter of the ejector rod is smaller than that of the through hole, the contact between the surface ejector rod and the through hole is avoided, and a great amount of vibration effect is lost.

To facilitate the formation of molten metal;

as a further improvement of the above technical scheme: the heat exchange cavity is formed in the lower side of the inner side of the cavity die, the liquid outlet pipe is connected to the side face of the heat exchange cavity and penetrates through the cavity die to the outer side, the liquid guide pipe is connected to the lower side of the heat exchange cavity, the water pump is fixedly connected to the lower end of the liquid guide pipe and is arranged on the inner side of the bottom shell, the liquid inlet pipe is fixedly connected to the side face of the water pump, and the liquid inlet pipe penetrates through the outer side of the bottom shell.

The beneficial effects of this improvement are: the cooling water rapidly absorbs the heat of the molten metal, and the molten metal is rapidly cooled and molded after heat dissipation.

None of the parts of the device are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a partial cross-sectional view of the structure of the present utility model;

FIG. 2 is a schematic diagram of the structure of the present utility model;

FIG. 3 is an enlarged view of the portion A of FIG. 1 in accordance with the present utility model;

FIG. 4 is a cross-sectional view showing the connecting structure of the cavity mold according to the present utility model;

FIG. 5 is a side elevational view in cross-section of a ram tube of the present utility model;

in the figure: 1. a cross bar; 2. a first hydraulic device; 3. pressing; 4. a liquid filling port; 5. a cavity mold; 6. a circular groove; 7. a through hole; 8. a top block; 9. a push rod; 10. a vibration device; 11. a second hydraulic device; 12. a connecting pipe; 13. an air duct; 14. an air pump; 15. an exhaust pipe; 16. a bottom case; 17. a fixing rack rod; 18. a water pump; 19. a liquid inlet pipe; 20. a heat exchange cavity; 21. a liquid filling pipe; 22. a buffer tube; 23. a liquid inlet hopper; 24. stamping a plug; 25. and a third hydraulic device.

Detailed Description

In order that those skilled in the art may better understand the technical solutions of the present utility model, the following detailed description of the present utility model with reference to the accompanying drawings is provided for exemplary and explanatory purposes only and should not be construed as limiting the scope of the present utility model.

Example 1:

as shown in fig. 1-4: the utility model provides a conveniently get die casting die of piece, includes horizontal pole 1, the first hydraulic means 2 of downside symmetry formula fixedly connected with of horizontal pole 1, the downside fixedly connected with moulding-die 3 of first hydraulic means 2, the downside grafting of moulding-die 3 has die cavity mould 5, liquid filling port 4 has been seted up at the upside middle part of moulding-die 3, liquid filling port 4 link up die cavity mould 5 downside, circular slot 6 has been seted up to the bottom inside wall symmetry formula of die cavity mould 5, through-hole 7 has all been seted up to the bottom of circular slot 6, the inside grafting of circular slot 6 has kicking block 8, the side of kicking block 8 has all been seted up the venthole, the downside fixedly connected with through-hole 7 of kicking block 8, the downside fixedly connected with drain pan 16 of die cavity mould 5, die cavity mould 5 is through- hole 7 and 16 intercommunication, the inboard grafting of through-hole 7 has ejector pin 9, the lower extreme of ejector pin 9 runs through to drain pan 16, the downside of ejector pin 9 is provided with second hydraulic means 11, second drain pan 11 and drain pan 16, air duct 13 and drain pan 16 are connected with air pump 13, drain pan 16 fixedly connected with air pump 13, drain pan 13 and air duct 13, drain pan 13 are connected with air pump 13, drain pipe 13.

Example 2:

as shown in fig. 1-4, as a further optimization of the above embodiment, a die casting mold convenient for taking a part comprises a cross rod 1, wherein the lower side of the cross rod 1 is symmetrically and fixedly connected with a first hydraulic device 2, the lower end of the first hydraulic device 2 is fixedly connected with a pressing mold 3, the lower side of the pressing mold 3 is inserted with a cavity mold 5, the middle part of the upper side of the pressing mold 3 is provided with a liquid filling port 4, the liquid filling port 4 penetrates to the lower side of the cavity mold 5, the inner side wall of the bottom of the cavity mold 5 is symmetrically provided with a round groove 6, the bottom of the round groove 6 is provided with a through hole 7, the inside of the round groove 6 is inserted with a top block 8, the side surface of the top block 8 is provided with an air outlet hole, the lower side of the top block 8 is fixedly connected with a through hole 7, the lower side of the cavity mold 5 is fixedly connected with a bottom shell 16, the cavity mold 5 is communicated with the bottom shell 16 through the through hole 7, the inner side of the through hole 7 is inserted with a push rod 9, the lower end of the push rod 9 penetrates into the bottom shell 16, a second hydraulic device 11 is arranged on the lower side of the push rod 9, the second hydraulic device 11 is fixedly connected with the bottom shell 16, a connecting pipe 12 is fixedly connected between the push rods 9, the middle part of the connecting pipe 12 is connected with an air duct 13, the other end of the air duct 13 is fixedly connected with an air pump 14, the air pump 14 is arranged in the bottom shell 16, the side surface of the air pump 14 is fixedly connected with an exhaust pipe 15, the exhaust pipe 15 penetrates through the bottom shell 16 to the outer side, a fixing rack rod 17 is symmetrically and fixedly connected with the two sides of the bottom shell 16, the upper side of the fixing rack rod 17 is fixedly connected with the cross rod 1, the lower end of the push rod 9 is fixedly connected with a vibrating device 10, and the lower side of the vibrating device 10 is fixedly connected with the second hydraulic device 11.

Example 3:

as shown in fig. 1-4, as a further optimization of the above embodiment, a die casting mold convenient for taking a part comprises a cross rod 1, a first hydraulic device 2 is symmetrically and fixedly connected to the lower side of the cross rod 1, a pressing mold 3 is fixedly and fixedly connected to the lower side of the first hydraulic device 2, a cavity mold 5 is inserted into the lower side of the pressing mold 3, a liquid filling port 4 is formed in the middle of the upper side of the pressing mold 3, the liquid filling port 4 penetrates into the lower side of the cavity mold 5, a round groove 6 is symmetrically formed in the inner side wall of the bottom of the cavity mold 5, through holes 7 are formed in the bottom of the round groove 6, a top block 8 is inserted into the inside of the round groove 6, air outlet holes are formed in the side surfaces of the top block 8, the lower side of the top block 8 is fixedly connected with the through holes 7, a bottom shell 16 is fixedly connected to the lower side of the cavity mold 5, the cavity mold 5 is communicated with the bottom shell 16 through the through holes 7, a push rod 9 is inserted into the inner side of the through hole 7, the lower end of the ejector rod 9 penetrates into the bottom shell 16, a second hydraulic device 11 is arranged at the lower side of the ejector rod 9, the second hydraulic device 11 is fixedly connected with the bottom shell 16, a connecting pipe 12 is fixedly connected between the ejector rods 9, an air duct 13 is connected at the middle part of the connecting pipe 12, an air pump 14 is fixedly connected at the other end of the air duct 13, the air pump 14 is arranged in the bottom shell 16, an air exhaust pipe 15 is fixedly connected at the side surface of the air pump 14, the air exhaust pipe 15 penetrates through the bottom shell 16 to the outer side, fixing rack bars 17 are symmetrically and fixedly connected at the two sides of the bottom shell 16, the upper side of the fixing rack bars 17 is fixedly connected with a cross bar 1, a liquid filling pipe 21 is inserted at the upper side of the pressing die 3 through a liquid filling opening 4, a buffer pipe 22 is fixedly connected at the upper side of the liquid filling pipe 21, a liquid inlet hopper 23 is fixedly connected at the side surface of the buffer pipe 22, the liquid inlet hopper 23 is communicated with the buffer tube 22, a punching plug 24 is slidingly connected to the upper side of the inner side of the buffer tube 22, a third hydraulic device 25 is fixedly connected to the upper end of the punching plug 24, and the upper side of the third hydraulic device 25 is fixedly connected with the cross rod 1.

Example 4:

as shown in fig. 1-4, as a further optimization of the above embodiment, a die casting mold convenient for taking a part comprises a cross rod 1, a first hydraulic device 2 is symmetrically and fixedly connected to the lower side of the cross rod 1, a pressing mold 3 is fixedly and fixedly connected to the lower side of the first hydraulic device 2, a cavity mold 5 is inserted into the lower side of the pressing mold 3, a liquid filling port 4 is formed in the middle of the upper side of the pressing mold 3, the liquid filling port 4 penetrates into the lower side of the cavity mold 5, a round groove 6 is symmetrically formed in the inner side wall of the bottom of the cavity mold 5, through holes 7 are formed in the bottom of the round groove 6, a top block 8 is inserted into the inside of the round groove 6, air outlet holes are formed in the side surfaces of the top block 8, the lower side of the top block 8 is fixedly connected with the through holes 7, a bottom shell 16 is fixedly connected to the lower side of the cavity mold 5, the cavity mold 5 is communicated with the bottom shell 16 through the through holes 7, a push rod 9 is inserted into the inner side of the through hole 7, the lower end of the ejector rod 9 penetrates into the bottom shell 16, a second hydraulic device 11 is arranged at the lower side of the ejector rod 9, the second hydraulic device 11 is fixedly connected with the bottom shell 16, a connecting pipe 12 is fixedly connected between the ejector rods 9, an air duct 13 is connected at the middle part of the connecting pipe 12, an air pump 14 is fixedly connected at the other end of the air duct 13, the air pump 14 is arranged in the bottom shell 16, an air exhaust pipe 15 is fixedly connected at the side surface of the air pump 14, the air exhaust pipe 15 penetrates through the bottom shell 16 to the outer side, fixing rack bars 17 are symmetrically and fixedly connected at the two sides of the bottom shell 16, the upper side of the fixing rack bars 17 is fixedly connected with a cross bar 1, a liquid filling pipe 21 is inserted at the upper side of the pressing die 3 through a liquid filling opening 4, a buffer pipe 22 is fixedly connected at the upper side of the liquid filling pipe 21, a liquid inlet hopper 23 is fixedly connected at the side surface of the buffer pipe 22, the liquid inlet hopper 23 is communicated with the buffer tube 22, a punching plug 24 is slidingly connected to the upper side of the inner side of the buffer tube 22, a third hydraulic device 25 is fixedly connected to the upper end of the punching plug 24, the upper side of the third hydraulic device 25 is fixedly connected with the cross rod 1, and the diameter of the buffer tube 22 is larger than that of the liquid filling tube 21.

Example 5:

as shown in fig. 1-4, as a further optimization of the above embodiment, a die casting mold convenient for taking a piece comprises a cross rod 1, a first hydraulic device 2 is symmetrically and fixedly connected to the lower side of the cross rod 1, a pressing die 3 is fixedly and fixedly connected to the lower side of the first hydraulic device 2, a cavity die 5 is inserted and connected to the lower side of the pressing die 3, a liquid filling port 4 is formed in the middle of the upper side of the pressing die 3, the liquid filling port 4 penetrates through the lower side of the cavity die 5, a circular groove 6 is symmetrically formed in the inner side wall of the bottom of the cavity die 5, a through hole 7 is formed in the bottom of the circular groove 6, a top block 8 is inserted and connected to the inner side of the circular groove 6, a hole is formed in the side surface of the top block 8, a through hole 7 is fixedly connected to the lower side of the top block 8, a bottom shell 16 is fixedly connected to the lower side of the cavity die 5, the cavity die 5 is communicated with the bottom shell 16 through the through hole 7, a top rod 9 is inserted and connected to the inner side of the bottom shell 9, the lower end of the top rod 9 penetrates through the bottom shell 16, a second air suction pipe 11 is arranged on the lower side of the bottom shell 9, a diameter of the bottom shell is smaller than the bottom shell 16 is fixedly connected to the air inlet pipe 16, the diameter of the bottom shell is fixedly connected to the bottom shell 16 is fixedly connected to the air inlet pipe 16, and the side of the bottom shell is fixedly connected to the bottom shell is fixedly connected with the bottom pipe 13, and the bottom pipe is fixedly connected with the bottom pipe 13.

Example 6:

as shown in fig. 1-4, as a further optimization of the above embodiment, a die casting mold convenient for taking a part comprises a cross rod 1, wherein the lower side of the cross rod 1 is symmetrically and fixedly connected with a first hydraulic device 2, the lower end of the first hydraulic device 2 is fixedly connected with a pressing mold 3, the lower side of the pressing mold 3 is inserted with a cavity mold 5, the middle part of the upper side of the pressing mold 3 is provided with a liquid filling port 4, the liquid filling port 4 penetrates to the lower side of the cavity mold 5, the inner side wall of the bottom of the cavity mold 5 is symmetrically provided with a round groove 6, the bottom of the round groove 6 is provided with a through hole 7, the inside of the round groove 6 is inserted with a top block 8, the side surface of the top block 8 is provided with an air outlet hole, the lower side of the top block 8 is fixedly connected with a through hole 7, the lower side of the cavity mold 5 is fixedly connected with a bottom shell 16, the cavity mold 5 is communicated with the bottom shell 16 through the through hole 7, the inner side of the through hole 7 is inserted with a push rod 9, the lower end of the push rod 9 penetrates into the bottom shell 16, the lower side of the push rod 9 is provided with a second hydraulic device 11, the second hydraulic device 11 is fixedly connected with the bottom shell 16, a connecting pipe 12 is fixedly connected between the push rods 9, the middle part of the connecting pipe 12 is connected with an air duct 13, the other end of the air duct 13 is fixedly connected with an air pump 14, the air pump 14 is arranged in the bottom shell 16, the side surface of the air pump 14 is fixedly connected with an exhaust pipe 15, the exhaust pipe 15 penetrates through the bottom shell 16 to the outer side, the two sides of the bottom shell 16 are fixedly connected with fixing rack bars 17, the upper side of the fixing rack bars 17 is fixedly connected with a cross bar 1, the lower side of the inner side of the cavity die 5 is provided with a heat exchange cavity 20, the side surface of the heat exchange cavity 20 is connected with a liquid outlet pipe, the liquid outlet pipe penetrates through the cavity die 5 to the outer side, the downside of heat transfer chamber 20 is connected with the catheter, the lower extreme fixedly connected with water pump 18 of catheter, water pump 18 sets up in the drain pan 16 inboard, the side fixedly connected with feed liquor pipe 19 of water pump 18, feed liquor pipe 19 runs through to the drain pan 16 outside.

The working principle and the using flow of the utility model are as follows:

when the utility model is used, firstly, the release agent is sprayed on the inner side of the cavity die 5, the release agent is sprayed on the lower side of the pressing die 3, then the first hydraulic device 2 is started, the pressing die 3 is pushed by the first hydraulic device 2, the lower side of the pressing die 3 is embedded into the cavity die 5, then the metal liquid is poured into the buffer tube 22 through the liquid inlet hopper 23, the dosage of the metal liquid depends on the cavity size of the cavity die, after the metal liquid enters the buffer tube 22, the third hydraulic device 25 is started, the third hydraulic device 25 pushes the punching plug 24, the punching plug 24 moves downwards in the buffer tube 22, the metal liquid is quickly filled into the cavity die 5 after being quickly pushed into the liquid filling tube 21, the metal liquid is subjected to the action of the punching plug 24, the cavity die 5 is filled up, then the water pump 18 is started, the cooling water is pumped by the water pump 18 through the liquid inlet tube 19, and then the cooling water is sent into the heat exchange cavity 20 through the liquid guide tube, the cooling water rapidly absorbs the heat of the molten metal, the molten metal is rapidly cooled and molded after heat dissipation, the cooling and molding time depends on the process of the workpiece, after the cooling and molding, the first hydraulic device 2 is started, the first hydraulic device 2 drives the pressing die 3 to move upwards, then the air pump 14 is started, the air pump 14 pumps air through the air exhaust pipe 15, then air enters the connecting pipe 12 through the air guide pipe 13, then enters the ejector rod 9 through the connecting pipe 12, enters the ejector rod 9 into the ejector block 8 through the ejector rod 9, is ejected from the air outlet hole, then the air enters the cavity die 5 from the gap between the circular groove 6 and the ejector block 8, continuously spreads and fills the gap between the workpiece and the inner side wall at the bottom of the cavity die 5, the workpiece can be ejected and loosened through the impulsive force generated by the air spreading, then the second hydraulic device 11 and the vibrating device 10 are started, the vibrating device 10 drives the ejector block 8 to vibrate through the ejector rod 9, and the ejector block 8 drives the workpiece to vibrate, the air can be quickly spread under the workpiece during vibration of the workpiece, the workpiece is loosened, meanwhile, the second hydraulic device 11 upwards jacks the vibration device 10 and the ejector rod 9, the ejector rod 9 upwards jacks the ejector block 8, and the ejector block 8 upwards jacks the workpiece. Through the structure, after the workpiece is cooled and molded, the workpiece and the gap of the cavity die are rapidly filled in a gas filling mode, the workpiece is jacked loose by utilizing the impact force generated during air filling, the acting area of the air is wider and more uniform, the air jacks the workpiece to a small extent, the workpiece is not deformed, and then the workpiece can be jacked and demolded smoothly by pushing the ejector rod, so that the operation is simple, and the demolding is convenient.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. The foregoing is merely illustrative of the preferred embodiments of the utility model, and it is noted that there is virtually no limit to the specific structure which may be imposed by those skilled in the art without departing from the spirit of the utility model, and that modifications, adaptations, or variations of the foregoing features may be combined in a suitable manner; such modifications, variations and combinations, or the direct application of the inventive concepts and aspects to other applications without modification, are contemplated as falling within the scope of the present utility model.

Claims (6)

1. The utility model provides a die casting die who conveniently gets piece which characterized in that: including horizontal pole (1), the first hydraulic means (2) of downside symmetry formula fixedly connected with of horizontal pole (1), the lower extreme fixedly connected with moulding-die (3) of first hydraulic means (2), the downside of moulding-die (3) is pegged graft and is had die cavity mould (5), liquid filling mouth (4) have been seted up at the upside middle part of moulding-die (3), liquid filling mouth (4) link up to die cavity mould (5) downside, circular slot (6) have been seted up to the bottom inside wall symmetry of die cavity mould (5), through-hole (7) have all been seted up to the bottom of circular slot (6), peg graft in the inside of circular slot (6) has kicking block (8), the side of kicking block (8) all has and has seted up the venthole, the downside fixedly connected with through-hole (7) of kicking block (8), the downside fixedly connected with drain pan (16) of die cavity mould (5), liquid filling mouth (4) link up to drain pan (16) through-hole (7), the inboard of through-hole (7) has ejector pin (9), the inside of drain pan (9) has been seted up through-hole (16), the inside grafting of drain pan (9) has one side (16) to be connected with second hydraulic means (11), the middle part of connecting pipe (12) is connected with air duct (13), the other end fixedly connected with air pump (14) of air duct (13), air pump (14) set up in drain pan (16), the side fixedly connected with exhaust tube (15) of air pump (14), exhaust tube (15) run through drain pan (16) to the outside, the bilateral symmetry formula fixedly connected with fixing hack lever (17) of drain pan (16), the upside and horizontal pole (1) fixed connection of fixing hack lever (17).

2. The die casting die for conveniently taking out parts according to claim 1, wherein: the lower end of the ejector rod (9) is fixedly connected with a vibrating device (10), and the lower side of the vibrating device (10) is fixedly connected with a second hydraulic device (11).

3. The die casting die for conveniently taking out parts according to claim 1, wherein: the upper side of moulding-die (3) is pegged graft through liquid filling mouth (4) and is had liquid filling pipe (21), the upside fixedly connected with buffer tube (22) of liquid filling pipe (21), the side fixedly connected with feed liquor fill (23) of buffer tube (22), feed liquor fill (23) and buffer tube (22) intercommunication, the inboard upper side sliding connection of buffer tube (22) has ram plug (24), ram plug (24)'s upper end fixedly connected with third hydraulic means (25), the upside and horizontal pole (1) of third hydraulic means (25) are fixedly connected.

4. A die casting die for facilitating picking up a part according to claim 3, wherein: the buffer tube (22) has a diameter greater than the diameter of the liquid filling tube (21).

5. The die casting die for conveniently taking out parts according to claim 1, wherein: the diameter of the circular groove (6) is larger than that of the through hole (7), and the diameter of the ejector rod (9) is smaller than that of the through hole (7).

6. The die casting die for conveniently taking out parts according to claim 1, wherein: the heat exchange cavity (20) is formed in the lower side of the inner side of the cavity die (5), a liquid outlet pipe is connected to the side face of the heat exchange cavity (20), the liquid outlet pipe penetrates through the cavity die (5) to the outer side, a liquid guide pipe is connected to the lower side of the heat exchange cavity (20), a water pump (18) is fixedly connected to the lower end of the liquid guide pipe, the water pump (18) is arranged on the inner side of the bottom shell (16), a liquid inlet pipe (19) is fixedly connected to the side face of the water pump (18), and the liquid inlet pipe (19) penetrates through the outer side of the bottom shell (16).

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