KR100889479B1 - Casting Apparatus - Google Patents

Abstract

The present invention relates to a direct injection rotary extrusion casting apparatus and a vehicle wheel using the same. More preferably, since the molten metal is gradually filled from the bottom surface of the mold when the molten metal is injected into the mold, directivity coagulation from the bottom surface to the injection port So that final solidification occurs on the side of the injection port so as to prevent shrinkage holes from being generated in the casting, thereby enhancing the strength.

The upper plate 10 has a front cup 10 on one side and a front cup 20 on which a tuyere system 21 is formed to store molten metal on the upper side of the body 100. The upper plate 10 A pair of hydraulic cylinders 30 in which a piston 31 is mounted on a fixed body 131 of an upper copper plate 130 which moves upward and downward from the rear surface of the body 100 to move the lower plate 10, An ejecting hydraulic cylinder 52 for vertically moving the ejection plate 50 formed with the ejection pins 51 for separating the cold-formed vehicle wheel 300 from the upper mold 40 fixed to the upper surface of the upper mold 40, A lower mold 11 mounted on a lower portion of the body 100 so as to face the plate 10 and a lower mold 41 mounted on the lower plate 11 and coupled with the upper mold 40, And is inserted into a through hole (101) formed at the center of the plate (11) to be formed in the center of the lower mold (41) A hydraulic cylinder 400 having a pressing portion 410 inserted into a hole 402 formed at the tip of a piston 411 and a lower plate 40 having an upper mold 40 of the upper plate 10 moving up and down, A connecting hole 72 which is an end of the piston 71 is coupled to the protruding pin 120 formed on both sides of the body 100 to rotate the body 100 formed to be coupled to the lower mold 41 of the body 100, A rotating hydraulic cylinder 70 fixed to both sides of the upper plate 10 so as to be inclined on both sides of the upper plate 10 and a rotary rack 82 mounted on both sides of the body 100 to rotate the upper plate 10 upward, And a hydraulic cylinder (80) for vertically moving the piston (83) equipped with the rotary shaft (81).

Casting, upper plate, lower plate, upper mold, lower mold, fore cup,

Description

Technical Field [0001] The present invention relates to a Casting Apparatus,

1 is a perspective view showing a direct injection type rotary pressing casting apparatus of the present invention.

FIG. 2 is a front view showing a state in which a hydraulic cylinder for vertically moving an upper mold mounted on the upper plate of the present invention is mounted on the back side. FIG.

FIG. 3 is a perspective view showing a state where a body coupled with an upper plate and a lower plate of the present invention is supported by a base and rotated by a hydraulic cylinder.

4 is a front view showing a state where a vehicle wheel formed in a mold of the present invention is attached to an upper mold.

5 is a cross-sectional view showing a state in which the eject pin of the eject plate is separated from the vehicle wheel attached to the upper mold of the present invention.

6 is a cross-sectional view showing a state where a molten metal solidified in the mold of the present invention is pressed at the center of the lower mold.

7 is a side view showing a state in which the upper plate equipped with the upper mold of the present invention is rotated upward.

DESCRIPTION OF REFERENCE NUMERALS

10. Top plate 11. Lower plate

20. Fore Cup 21. Tang

30. Hydraulic cylinder 40. Upper mold

41. Lower mold 50. Eject plate

51. Eject pin 70. Hydraulic cylinder for rotation

80. Hydraulic cylinder 100. Body

200. Expect 300. Wheel

The present invention relates to a casting method using a direct injection type rotary pressing casting apparatus and a vehicle wheel using the casting method. More particularly, the present invention relates to a casting method using a direct injection casting rotary pressing casting apparatus, And the presser mounted at the center of the lower mold presses the hub of the vehicle wheel in which the molten metal injected from the bottom surface of the mold is formed by being solidified to tightly maintain the structure so that the strength is raised.

Generally, the structure of an automobile tire is maintained by a disk wheel composed of a metal rim of reduced type and a metal plate attached to the hub. Tires are used only after the air is inserted into the disk wheel. The forces acting on the tires are transmitted to the vehicle body through the disk wheels. In recent years, the importance of disc wheels has been recognized, and disc wheels made of a light metal alloy such as aluminum or magnesium, which are light in weight, have been widely used.

These automotive parts are applied to various manufacturing methods such as low pressure casting, high pressure casting, forging, vacuum casting and die casting. Among the automobile parts manufactured by various methods as described above, the automotive disk wheel is manufactured by low-pressure casting. This low-pressure casting is a technique of slowly injecting molten metal from a lower part of a mold to a lower pressure and solidifying it, unlike high-pressure casting such as die casting. The low-pressure casting includes a step of injecting molten metal into a mold which is formed into a shape of a wheel for a vehicle, cooling the formed mold after the injection, and then separating the molded product from the mold.

However, in the case of the light metal alloy forming the oxide film such as aluminum, the air trapping phenomenon due to the turbulence generation is increased due to the light weight, and it has been difficult to control the incorporation of the oxide film due to the surface turbulence inside the casting.

In addition, when the molten aluminum is injected into the lower mold, a predetermined temperature is applied to the plurality of side molds located in the periphery of the lower mold. At this time, the temperature applied to the side mold does not act uniformly, And this has led to a problem of causing molding defects in the casting of a vehicle wheel.

Further, since the molten aluminum is injected into the lower mold, the hub of the vehicle wheel can not be pressurized, so that the structure is not compact and the strength can not be increased.

The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method for producing a molten metal, which is stable and continuously injected into a mold while keeping the molten metal level with the ground, The system is designed to control the rate of injection of molten metal by adjusting the rotation speed and the rotation angle with a simple tanggu system without the design of the passage system. Therefore, turbulence in the hot water flow can be suppressed as much as possible.

In addition, since the molten metal is injected into one side of the upper mold, the molten metal injected into the mold is progressively filled from the bottom surface of the lower mold, so that the directional solidification from the bottom surface of the mold to the injection port can be induced When the molten metal injected into the mold gradually coagulates from the bottom to reach the anticoagulated state, the hydraulic cylinder, which penetrates the center of the lower plate and is mounted at the center of the lower mold, So as to increase the strength while pressing the hub of the vehicle wheel.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects and features of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings, in which: FIG.

As shown in FIG. 1, an upper plate 10 is mounted on a front side of a body 100, and a fore cup 20 is formed on the upper side of the body 100 to store molten metal.

A pair of hydraulic cylinders 30 having a piston 31 mounted on a fixed body 131 of an upper copper plate 130 which moves up and down on the back surface of the body 100 to vertically move the upper plate 10, ,

An ejecting plate 50 having an ejection pin 51 for separating the cooling-molded vehicle wheel 300 from the upper mold 40 fixed to the lower surface of the upper plate 10, A cylinder 52,

A lower plate 11 mounted on a lower portion of the body 100 so as to face the upper plate 10,

 A lower mold 41 mounted on the lower plate 11 and coupled with the upper mold 40,

The pressing portion 410 inserted into the through hole 101 formed at the center of the lower plate 11 and inserted into the insertion hole 402 formed at the center of the lower mold 41 is formed at the tip of the piston 411 A hydraulic cylinder 400,

The body 100 formed to be coupled to the lower mold 41 of the lower plate 11 while vertically moving the upper mold 40 of the upper plate 10 may be formed on both sides of the body 100 A rotary hydraulic cylinder 70 fixed to both sides of the base 200 by engaging the connecting hole 72 which is the end of the piston 71 with the projecting pin 120,

A hydraulic cylinder 80 for vertically moving a piston 83 having a pinion 81 mounted on a rotary rack 82 mounted on both sides of the body 100 so as to rotate the upper plate 10 upward, The present invention provides a direct injection type rotary pressing die casting machine comprising:

In addition, in the present invention, the pressing portion 410 inserted into the insertion hole 402 formed at the center of the lower mold 41 has a structure in which the hydraulic cylinder rises and the hub of the vehicle wheel And is pressurized at a lower portion thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order to facilitate a person skilled in the art to which the present invention pertains.

As shown in Fig. 1, a direct injection type rotary casting machine for casting a vehicle wheel 300 has a base 200 formed on both sides so as to be seated on a lower floor. The inside of the base 200 supports the spacing supports 220 so that the base 200 of each side is erected.

And a lower plate 11 is mounted on the inside of the upper part of the base 200. Therefore, the base 200 is stably fixed on the ground. In addition, a support 210 on which bearings are mounted is fastened to the upper surface of the base 200 on both sides by a fastener 211.

In addition, a lower mold 41 is mounted on the upper portion of the lower plate 11.

A through hole 101 is formed at the center of the lower plate 11 and a piston 411 is inserted into the through hole 101 so as to be inserted into the insertion hole 402 formed at the center of the lower mold 41, A hydraulic cylinder 400 having a pressing portion 410 mounted thereon is formed. Accordingly, the pressing portion 410 presses the vehicle wheel 300 formed at the lower portion.

The shaft 100 formed on both sides of the body 100 is inserted into the support 210 so that the body 100 is upright and the hydraulic cylinder 70 for rotation is inclined forwardly of the base 200 And a connecting hole 72 formed at the end of the piston 71 of the rotary hydraulic cylinder 70 is engaged with the projecting pin 120 protruding from both sides of the body 100.

5, an upper plate 10 is mounted on an upper surface of the body 100, an eject plate 50 having an eject pin 51 formed between the body 100 and the upper plate 10, A hydraulic cylinder 52 for ejecting is vertically mounted on an upper portion of the upper plate 10.

The eject pin 51 connected to the ejection plate 50 is inserted into the upper mold 40 to separate the vehicle wheel 300 formed in the upper mold.

As shown in Figs. 1 and 6, a fore cup 20 capable of storing molten aluminum for molding the vehicle wheel 300 is provided in front of one side of the upper plate 10, A tuyere system 21 is attached to the inside of the cup 20 so as to be connected to an injection port 401 formed on the outer side of the upper mold 40.

7, a pinion 81 is coupled to a rack 82 formed to protrude from both sides of the upper portion of the body 100, and the pinion 81 is connected to the piston 83 of the hydraulic cylinder 80, So that the upper plate 10 is rotationally moved forward and backward.

2, a pair of upper and lower molds 40 and 40 for vertically moving the upper mold 40 mounted on the upper plate 10 to be coupled with the lower mold 41 are provided at the rear of the body 100, The piston 31 of the hydraulic cylinder 30 is fixedly mounted on the fixed body 131 of the upper and lower copper plates 130. [

A description will be made of an embodiment in which a vehicle wheel is cast with the direct-type rotary casting machine of the present invention as described above.

As shown in FIGS. 1 and 3, in order to operate the direct-rotary casting machine of the present invention, a power source (not shown) is connected to operate the rotary casting machine. The upper mold 40 formed on the lower portion of the upper plate 10 of the body 100 and the lower mold 41 formed on the upper portion of the lower plate 11 are coupled to each other. That is, a pair of hydraulic cylinders 30 mounted on the back surface of the body 100 are operated to pull the piston 31. Then, the piston 31 is mounted on the back surface of the body 100 and pulls the fixed body 131 of the upper and lower copper plates 130, which move up and down, to move downward. The upper mold 40 integrally coupled to the upper copper plate 130 is moved downward and is coupled to the lower mold 41 mounted on the upper portion of the lower plate 11. The upper and lower copper plates 130, which are supported by the body 100 and move up and down, are integrally formed with the upper plate 10 and the upper mold 40 and are moved up and down.

When the upper mold 40 and the lower mold 41 are coupled to each other as described above, it is possible to inject the molten metal into the molds 40 and 41 in order to mold the automobile wheel 300, Similarly, rotates the rotatable body 100 separately from the base 200. At this time, the upper and lower copper plates 130 and 40 of the body 100 are integrally formed and operate integrally.

The body 100 rotates the body 100 forward by pulling the piston 71 inward while operating the rotary hydraulic cylinder 70 slantly mounted on the front of the base 200.

When the body 100 is rotated forward as described above, the lower mold 41 coupled with the upper mold 40 mounted on the lower portion of the upper plate 10 mounted on the body 100, as well as the lower mold 41 The lower plate 11 on which the lower plate 11 is mounted is also rotated simultaneously. That is, since the upper plate 10 and the upper mold 40, the lower plate 11, and the lower mold 41 are integrally coupled to each other, the body 100 is rotated at the same time. At this time, since the shafts 110 formed on both sides of the body 100 are inserted into the support 210 mounted on both sides of the base 200 by the fasteners 211, do.

Since the connecting pin 72 connected to the piston 71 of the rotary hydraulic cylinder 70 is mounted on the protruding pin 120 of the body 100 to the upper portion of the support 210, It can be turned back and forth.

When the body 100 rotates forward, the molten metal is stored in the fore-cup 20 mounted on the front of the upper plate 10. At this time, the molten metal stored in the fore-cup 20 can be stored manually, but it can be stored automatically.

After the molten metal is charged in the fore-cup 20, the rotary hydraulic cylinder 70, which is inclined forward and backward in the forward direction of the base 200, is operated again to pull out the piston 71 inside the cylinder 100, The body 100 is rotated in the reverse direction.

At this time, the fore cup 20 storing the molten metal in front of the upper plate 10 is inclined at the same time as the inclination of the body 100 to rotate reversely, 401 and gradually injected from the bottom of the lower mold 41 to the injection port 401 of the upper mold 40. That is, since the molten metal is injected stably and continuously through the upper mold 40 and the lower mold 41 along the trench system 21, the injection rate and the injection angle can be easily controlled.

Therefore, no turbulence is generated in the molten metal flow, and injection is performed from the lower part to the upper part, so that shrinkage holes are not generated in the molds 40 and 41.

After the molten metal is injected into the upper mold 40 and the lower mold 41, the molten metal slowly solidifies inside the mold and solidifies to form the vehicle wheel 300. In this case, The hydraulic cylinder 400 operates so that the piston 411 moves up and down to the center of the lower plate 11. [ Accordingly, the piston 411 moves upward along the insertion hole 402 formed in the lower mold 41, and at the same time, presses the hub of the vehicle wheel 300 which has been reacted to increase the strength of the hub.

After the molten metal is injected into the molds 40 and 41 and cooled, the pair of hydraulic pressures (not shown) which fix the piston 31 to the fixed body 131 of the rear upper and lower movable plates 130 of the body 100, The cylinder 30 is operated to move the piston 31 upward to move the upper copper plate 130 upward and to separate the upper mold 40 from the lower mold 41. [ At this time, a vehicle wheel 300, which is a molded product, is attached to the outer peripheral surface of the upper mold 40.

The piston 83 of the hydraulic cylinder 80 mounted on both sides of the body 100 is operated to pull the pinion 81 mounted on the end of the body 100, And rotates the upper plate 10 integrally mounted with the rack 82 upward.

The ejection hydraulic cylinder 52 formed on the upper portion of the upper plate 10 is lowered to lower the ejection plate 50 to remove the vehicle wheel 300 attached to the upper mold 40 The mounted eject pin 51 pushes the vehicle wheel 300 attached to the upper mold 40 and separates the vehicle wheel 300 from the upper mold 40. At the same time, the separating device 600 draws the vehicle wheel 300 separated from the upper mold 40 and moves to the temporary storage.

The above-described operation is repeated so that the vehicle wheel can be formed by continuous operation.

Although not shown in the drawings, when two supports are mounted on the front of the upper plate with the parts not described, when the upper mold is moved downward, the both side supports are seated on the seat mounted on both sides of the lower plate, As shown in Fig.
A casting method using a direct injection type rotary pressing die casting apparatus according to the present invention comprises:
(A) An upper plate (10) having a fork cup (20) formed on a front side thereof with a tuyere system (21) for storing molten metal is provided on the upper part of the body (100)
A pair of hydraulic cylinders 30 having a piston 31 mounted on a fixed body 131 of an upper copper plate 130 which moves up and down on the back surface of the body 100 to vertically move the upper plate 10, ,
An ejection hydraulic cylinder 52 for transferring the ejection plate 50 formed with the ejection pins 51 up and down to separate the cold-formed vehicle wheel from the upper mold 40 fixed to the lower surface of the upper plate 10 )Wow,
A lower plate 11 mounted on a lower portion of the body 100 so as to face the upper plate 10,
A lower mold 41 mounted on the lower plate 11 and coupled with the upper mold,
The pressing portion 410 inserted into the through hole 101 formed at the center of the lower plate 11 and inserted into the insertion hole 402 formed at the center of the lower mold 41 is formed at the tip of the piston 411 A hydraulic cylinder 400,
The body 100 formed to be coupled to the lower mold 41 of the lower plate 11 while vertically moving the upper mold 40 of the upper plate 10 may be formed on both sides of the body 100 A rotary hydraulic cylinder 70 fixed to both sides of the base 200 by engaging the connecting hole 72 which is the end of the piston 71 with the projecting pin 120,
A hydraulic cylinder 80 for vertically moving a piston 83 having a pinion 81 mounted on a rotary rack 82 mounted on both sides of the body 100 so as to rotate the upper plate 10 upward, The method comprising the steps of: providing a direct injection rotary pressing die casting apparatus comprising:
A pair of hydraulic cylinders 30 mounted on the back surface of the body 100 are operated to pull the piston 31 to move the fixing body 131 of the upper copper plate 130, Thereby moving the upper copper plate 130 to the lower portion so as to move the upper metal mold 40 integrally coupled with the upper copper plate 130 to the lower portion to be mounted on the upper portion of the upper metal mold 40 and the lower plate 11 (41) to form a cavity for casting;
The connection pin 72 connected to the piston 71 is pulled by the projecting pin 120 of the body 100 by operating the hydraulic cylinder 70 for rotating the upper copper mold 130, the upper mold 40, Rotating the body 100 coupled with the lower mold 41 and the lower plate 11 about the axis 110 inserted in the support 210;
(D) storing aluminum melt in the forer cup (20);
(F) A rotary hydraulic cylinder 70 inclined to both sides in front of the base 200 is actuated to pull out the piston 71 in the cylinder, thereby pushing the body 100 to slowly rotate the body 100 in the reverse direction The method comprising:
By the forward movement of the body 100,
The fore cup 20 is lowered in the gravity direction than the original initial position thereof and the cavity generated by the combination of the upper mold 40 and the lower mold 41 is moved in a direction opposite to the gravity direction Higher;
The front cup 20 is gradually restored to its initial position in the opposite direction of the gravity direction by the reverse rotation of the body 100 and the upper mold 40 and the lower mold 41, The cavity produced by the combination of the two is gradually restored to its initial position in the gravitational direction,
The molten metal from the forespheres 20 is stably transferred to the cavity formed by the upper mold 40 and the lower mold 41 along the trench system 21 by the gravity in the restoration process by the reverse rotation of the body 100. [ And is continuously injected,
The pressing portion 410 inserted into the insertion hole 402 formed at the center of the lower mold 41 presses the hub of the vehicle wheel which is formed inside the mold with the hydraulic cylinder rising in a state in which the molten metal is reacted, .

As described above, according to the present invention, when a molten metal is injected into a mold for molding a vehicle wheel, a fore cup is mounted in front of the upper mold so as to be injected from the upper side to the lower side, Therefore, the injection angle and the injection speed can be controlled. Therefore, it is possible to form a product having high strength because the turbulence is generated and the shrinkage cavity is not formed in the casting.

In addition, according to the present invention, when the molten metal in the mold gradually coagulates and solidifies in accordance with the shape of the mold, the hydraulic cylinder mounted on the lower plate is operated to move up the pressurized portion inserted into the center of the lower mold, The hub is pressed at the lower portion to increase the strength.

Claims (3)

(A) An upper plate (10) having a fork cup (20) formed on a front side thereof with a tuyere system (21) for storing molten metal is provided on the upper part of the body (100) A pair of hydraulic cylinders 30 having a piston 31 mounted on a fixed body 131 of an upper copper plate 130 which moves up and down on the back surface of the body 100 to vertically move the upper plate 10, , An ejection hydraulic cylinder 52 for transferring the ejection plate 50 formed with the ejection pins 51 up and down to separate the cold-formed vehicle wheel from the upper mold 40 fixed to the lower surface of the upper plate 10 )Wow, A lower plate 11 mounted on a lower portion of the body 100 so as to face the upper plate 10, A lower mold 41 mounted on the lower plate 11 and coupled with the upper mold, The pressing portion 410 inserted into the through hole 101 formed at the center of the lower plate 11 and inserted into the insertion hole 402 formed at the center of the lower mold 41 is formed at the tip of the piston 411 A hydraulic cylinder 400, The body 100 formed to be coupled to the lower mold 41 of the lower plate 11 while vertically moving the upper mold 40 of the upper plate 10 may be formed on both sides of the body 100 A rotary hydraulic cylinder 70 fixed to both sides of the base 200 by engaging the connecting hole 72 which is the end of the piston 71 with the projecting pin 120, A hydraulic cylinder 80 for vertically moving a piston 83 having a pinion 81 mounted on a rotary rack 82 mounted on both sides of the body 100 so as to rotate the upper plate 10 upward, The method comprising the steps of: providing a direct injection rotary pressing die casting apparatus comprising: A pair of hydraulic cylinders 30 mounted on the back surface of the body 100 are operated to pull the piston 31 to move the fixing body 131 of the upper copper plate 130, Thereby moving the upper copper plate 130 to the lower portion so as to move the upper metal mold 40 integrally coupled with the upper copper plate 130 to the lower portion to be mounted on the upper portion of the upper metal mold 40 and the lower plate 11 (41) to form a cavity for casting; The connection pin 72 connected to the piston 71 is pulled by the projecting pin 120 of the body 100 by operating the hydraulic cylinder 70 for rotating the upper copper mold 130, the upper mold 40, Rotating the body 100 coupled with the lower mold 41 and the lower plate 11 about the axis 110 inserted in the support 210; (D) storing aluminum melt in the forer cup (20); (F) A rotary hydraulic cylinder 70 inclined to both sides in front of the base 200 is actuated to pull out the piston 71 in the cylinder, thereby pushing the body 100 to slowly rotate the body 100 in the reverse direction The method comprising: By the forward movement of the body 100, The fore cup 20 is lowered in the gravity direction than the original initial position thereof and the cavity generated by the combination of the upper mold 40 and the lower mold 41 is moved in the direction opposite to the gravity direction Higher; The front cup 20 is gradually restored to its initial position in the opposite direction of the gravity direction by the reverse rotation of the body 100 and the upper mold 40 and the lower mold 41, The cavity produced by the combination of the two is gradually restored to its initial position in the gravitational direction, The molten metal from the forespheres 20 is stably transferred to the cavity formed by the upper mold 40 and the lower mold 41 along the trench system 21 by the gravity in the restoration process by the reverse rotation of the body 100. [ And is continuously injected, The pressing portion 410 inserted into the insertion hole 402 formed at the center of the lower mold 41 presses the hub of the vehicle wheel which is formed inside the mold with the hydraulic cylinder rising in a state in which the molten metal is reacted, Wherein the casting is carried out by a direct injection type rotary pressing die casting apparatus. delete delete

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