KR20180037825A - Vibratingly stirring apparatus for casting - Google Patents

Abstract

The present invention provides a vibration stirring apparatus for casting, which comprises: a vibration plate in which a mold is mounted on an upper surface in the shape of a plate; a vibration means coupled to a lower portion of the vibration plate, and generating vibration in an intermediate frequency or high frequency vibration band range for intermediate frequency vibration or high frequency vibration to be transmitted to the vibration plate and the mold; and a housing connected to the vibration plate on an upper surface thereof to upwardly support the vibration plate, and accommodating the vibration means therein to package the vibration means. The vibration means comprises a cylindrical magnetic bobbin, a coil wound on an outer circumferential surface of the magnetic bobbin, a vibrator having a buffer unit coupled to the magnetic bobbin, and a circuit unit connected to the vibrator. As stated above, a mold of a wear resistance component is vibrated with intermediate and high frequency in a coagulation process to enable nonmetallic inclusion having small specific gravity to float on a surface. Therefore, an internal defect can be prevented, and the nonmetallic inclusion is reduced to improve cleanliness of the mold.

Description

VIBRATINGLY STIRRING APPARATUS FOR CASTING [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vibrating stirring apparatus for casting, and more particularly, to a casting vibrating stirring apparatus capable of improving physical properties of a casting and improving the physical properties of the casting material to prolong its service life.

In general, a metal is soluble and dissolves when heated to a high temperature. A product obtained by casting the molten metal into a prepared mold and molding it into a predetermined shape and shape is called a casting.

This casting technology is the most fundamental of the metal forming technology and can play a role in the development of the metal industry by mass-producing the products. In a conventional casting process, a plurality of castings are arranged on a conveyor at regular intervals to inject molten metal into the casting mold while moving the casting mold along the conveyor.

Recently, die casting, which is a continuous casting method through a die, has become popular, but the demand for a general casting method which is economical to manufacture a medium and large-sized product is also continuously maintained. The casting method of the syntactic casting is to determine the casting method such as the injection speed and the injection amount, and then to make the model by using wood, metal, or resin as the material, and then to prepare the crumbs by proper mixing of sand, The process of making the mold by the molding process, the mechanical molding process or the automatic molding process is performed. In addition, materials used to make molds may be made of materials such as metals, resins, etc., as well as sand.

In recent years, it is required to develop the base technology of the casting process to improve the quality of the cast parts of the cast iron-cast steel and to improve the performance thereof. As a result, it is required to minimize the nonmetallic inclusions during coagulation of the wear- It is required to improve the physical properties of the casting through the refinement of the crystal grains of the structure. By improving the cleanness of the casting through the reduction of the nonmetallic mixture and improving the strength of the casting by fineness of the crystal structure, do.

Accordingly, there has been developed a method of improving the physical properties of the wear resistant material by developing a coagulation and microstructure control technique that can be artificially improved during the steps of melting, casting, solidifying, and fixing microstructure , And the object of the present invention is to develop a technique of vibrating and stirring a mold using a vibrating agitator with such a technique.

However, in the conventional vibrating stirring apparatus for casting, there is a problem that it is difficult to stably support the oscillation element as the weight of the oscillation element is large. In order to obtain the effect of reducing nonmetallic inclusions for improving the grain refinement and improving the cleanliness of the molten metal during solidification of the casting mold, There is a problem in that it is difficult to manufacture a robust packaged equipment capable of vibrating the casting molten metal, and there is a problem in that a technique for selecting the most effective frequency band in the hot environment of the casting molten metal and a vibration technique for mechanical vibration are lacking.

Korean Patent Publication No. 10-2016-0056623 (published on May 20, 2016)

The present invention provides a vibrating stirring device for casting capable of stably supporting a heavy-weight oscillation element, as well as a package structure capable of oscillating a mold, and an effective mechanical vibration by selecting an effective vibration frequency band .

The present invention relates to a vibration plate having a plate shape and an upper surface on which a mold is placed, a vibration plate coupled to a lower portion of the vibration plate and generating vibration in a mid-frequency range (1 to several tens kHz) or high frequency (several tens to several hundreds kHz) And a housing connected to the diaphragm on an upper surface to support the diaphragm upwardly and to house the vibrating means and to package the vibrating means, The means includes a cylindrical magnetic bobbin, a coil wound around the outer periphery of the magnetic bobbin, a vibrator including a cushion coupled with the magnetic bobbin, a power circuit connected to the vibrator, The present invention also provides a casting vibration stirring device comprising:

On the other hand, the description of the technology disclosed herein is merely an example for structural or functional explanation, and the scope of the right of the disclosed technology should not be construed as being limited by the embodiments described in the text. That is, the embodiments are to be construed as being variously embodied and having various forms, so that the scope of the disclosed technology should be understood to include equivalents capable of realizing technical ideas. Also, the purpose or effect of the disclosed technology should not be construed as being limited thereby, as it does not mean that a particular embodiment must include all such effects or merely include such effects.

Also, the meaning of the terms described in the present invention should be understood as follows. The terms " first ", " second ", and the like are intended to distinguish one element from another, and the scope of the right should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly, the second component may be referred to as a first component.

Further, when an element is referred to as being "connected" to another element, it should be understood that other elements may also be present in the middle, although it may be directly connected to the other element. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that there are no other elements in between. On the other hand, other expressions describing the relationship between components, such as "between", "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

It should be understood that the singular " include " or " have " are to be construed as including a stated feature, number, step, operation, component, It is to be understood that the combination is intended to specify that it does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

The casting vibration stirring apparatus according to the present invention provides the following effects.

First, the mold of the wear-resistant part is vibrated by the used frequency in the solidification process, and the non-metallic inclusions having a small specific gravity float on the surface, thereby preventing the internal defects and improving the cleanliness of the casting due to the reduction of non-metallic inclusions.

Secondly, during the solidification process, the crystal grains of the metal matrix are refined to increase the tensile strength and hardness, thereby improving not only the physical properties of the casting but also the toughness for improving the cleanness. Thereby providing an effect of extending the service life in the field.

Third, it can be easily used in a casting site using a sand casting mold, and the stirring efficiency can be improved by generating vibration in a frequency band with good stirring efficiency.

Fourth, a compact structure can be achieved through a housing with a packing, and casting molds having various shapes can be applied interchangeably. Castings and molds having a weight of several tens to several hundreds of kilograms can also be vibrated.

Fifth, manufacturing is easy and productivity can be improved.

Sixth, the mechanical vibration of the effective frequency band can be generated through the vibration means comprising the magnetic bobbin and the coil.

1 is a perspective view showing a basic unit module of a vibration and stirring apparatus for casting according to an embodiment of the present invention.
Fig. 2 is a plan view showing another embodiment of the casting vibration stirring apparatus of Fig. 1, and is a perspective view in which modules are assembled so that a required size can be assembled.
3 is a front view showing a state in which a vibration table is placed on the casting vibration stirring apparatus of FIG.
Figs. 4 and 5 are photographs showing a comparison of the texture of the casting when the casting vibration stirring apparatus of Fig. 1 is applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1, a casting vibration stirring apparatus according to an embodiment of the present invention includes a diaphragm 100, a vibration means 200, and a housing 300, .

The diaphragm 100 has a plate shape and a mold 10 (see FIG. 3) is mounted on the upper surface. The diaphragm 100 can be formed in a plate shape to mount a plurality of the molds 10, Applicable.

The vibrating means 200 is coupled to a lower portion of the diaphragm 100 and vibrates in a mid-frequency or high frequency range to transmit the mid-frequency vibration or high-frequency vibration to the diaphragm 100 and the mold 10 .

The vibration unit 200 includes a generator unit, a magnetic bobbin, a coil, a magnetic bobbin, and a motor. The vibration unit 200 includes a generator unit, a magnetic bobbin, A vibrator including a cushioning portion to be coupled therewith, and a circuit portion connected to the vibrator.

The generator unit includes a cylindrical generator and a generator bracket coupled to the generator to generate a magnetic force. The generator unit is preferably configured to have a power input of 200 to 500 W from the power source unit, but does not exclude the use of a different range of power source to the extent that the same purpose and function can be achieved.

The magnetic bobbin is inserted into the generator part in the form of a circular tube, and the coil is wound on the outer circumferential surface so that the magnetic bobbin vibrates up and down between the generator part and the magnetic bobbin.

Here, the magnetic bobbin may have a diameter of 200 to 400 mm and a height of 200 to 300 mm, but the present invention is not limited thereto. The resistance of the coil is preferably 5 to 10 OMEGA but does not exclude the use of other vibration intensities within a range that can achieve the same purpose and function.

Here, the vibrating means 200 is provided with a bearing portion between the generator portion and the magnetic bobbin.

The buffer part includes a coil spring and a spring shaft axially coupled to the coil spring, and serves to support the micro bobbin.

The vibration unit 200 includes a magnetic bobbin, a bobbin bracket coupled to the magnetic bobbin, and a magnetic generator. The vibration unit 200 includes a vibration motor guide, a vibration motor spring, Bearing. Further, as described above, the vibration means 200 can be applied not only to a magnetic bobbin, but also to a coil configuration for generating various strengths of vibrations by using a coil. In addition, a ferroelectric component The present invention can be applied to the purpose and concept of winding the diaphragm 100.

The circuit unit includes a PCB circuit board and an amplifier, and includes a controller for controlling the vibration unit 200.

The oscillation means 200 preferably oscillates in a variable frequency oscillation band range in the range of 1 to 150 Hz, but does not exclude the use of other oscillation band ranges within the scope of achieving the same purpose and function.

The variable frequency oscillation band range of the oscillating means is a frequency band in which the stirring efficiency is the best, and the crystal grains of the metal matrix are refined during the solidification process to increase the tensile strength and hardness to improve the physical properties of the casting, It is a frequency band that can effectively increase other toughness to improve cleanness, but it is not necessarily inevitable.

Meanwhile, the vibrating means 200 can be variously manufactured in a small size or a large size by varying the number of the vibrating means 200 according to the design. Referring to FIG. 2, the vibrating agitating device is arranged on the lower side of the diaphragm 100a so that the vibrating means 200 is spaced apart from the vibrating plate 100a. As described above, the vibration stirring apparatus can be variously modified by a simple design change of the vibration means 200 and the vibration plates 100 and 100a.

The housing 300 is cup-shaped and is connected to the diaphragm 100 in an upper surface to support the diaphragm 100 in an upward direction and accommodates the vibrating means 200 in a receiving space therein, Packaging. The housing 300 can not support the heavy weight of the conventional stirrer, but can also vibrate the casting having the loading weight of the mold 10 of about 500 kg. It is needless to say that it is not excluded that the usable weight can be changed by changing the components and circuits of the diaphragm according to the weight of the desired casting.

The vibrating agitating device can actually vibrate the mold 10 even at the casting site of several tens to several hundred kg utilizing the medium frequency induction melting furnace and can reduce the inclusion of nonmetal inclusions .

The vibrating agitating device is formed of a rigid package that can be used for a long time at the casting site. The vibrating agitating device is used in a frequency band of several tens of kHz to 150 kHz, which is the most effective frequency band in the hot environment of casting molten metal, Which may be compared with the fact that the above object can not be achieved in a very high frequency band like an ultrasonic wave.

3, the vibrating stirring apparatus for casting has a bottom mounted on the upper surface of the diaphragm 100 and an upper surface secured to the upper surface of the vibration plate 100 to transmit the vibration of the vibration plate 100 to the mold 10. [ And a vibration plate 400 for fixing the position of the diaphragm 100 and the mold 10. The vibration table 400 has a structure capable of minimizing heat transfer for preventing a failure, and serves to stably support and fix the mold 10 and the transmission means for transmission of a vibration effect and prevention of falling due to vibration. In addition, the vibration table 400 is made of a minimum weight design for the usable weight of the vibration means 200 so that the surface of the vibration table 400 does not melt at the temperature of the casting.

According to the above description, it is possible to prevent the internal defects by causing the non-metallic inclusions having a small specific gravity to float on the surface by vibrating the mold 10 at the frequency of the used frequency band. Also, the cleanliness of the casting due to the reduction of non-metallic inclusions can be improved, And it is possible to improve physical properties capable of simultaneously improving tensile strength, toughness, impact strength and the like. This can be confirmed in FIG. 4 and FIG. FIG. 4 is a microstructure photograph showing an effect of grain refinement through a vibrating agitator. FIG. 4 is a microstructure photograph showing the effect of crystal grain refinement through a vibrating agitator. In the case of applying vibration agitation as compared with the structure (a) It can be confirmed that the well-ordered crystal grains are arrayed. FIG. 5 shows a photograph of the structure showing the reduction of non-metallic inclusions. It can be confirmed that the non-metallic inclusions are decreased in the case of applying the vibration stirring as compared with the comparative example (a) in which the vibration stirring is not applied .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It will be possible to do so.

100,100a: diaphragm 200: vibration means
300: housing 400: vibration plate

Claims (5)

A vibration plate on which a mold is seated on an upper surface in a plate shape;
Vibration means coupled to a lower portion of the diaphragm to generate vibrations in a mid-frequency range or a high-frequency frequency band to transmit the mid-frequency vibration or high-frequency vibration to the diaphragm and the mold; And
And a housing connected to the diaphragm on an upper surface thereof to support the diaphragm upward and to house the vibrating means and to package the vibrating means,
Wherein the vibration means comprises:
A vibrator including a generator part, a cylindrical magnetic bobbin, a coil wound around the outer surface of the magnetic bobbin, and a buffer part coupled with the magnetic bobbin, and a circuit part connected to the vibrator. The method according to claim 1,
Wherein the vibration means comprises:
A vibratory stirring apparatus for casting which oscillates in a variable frequency oscillation band range of several tens to several hundreds of Hz. The method according to claim 1,
The buffering portion
A bearing coupled to the bobbin; and a coil spring coupled with the bobbin. The method according to claim 1,
Wherein the vibration means comprises:
Wherein a plurality of vibrating plates are arranged on the lower side surface of the vibration plate so as to be spaced apart from each other. 5. The method according to any one of claims 1 to 4,
And a vibration plate placed on an upper surface of the diaphragm to receive vibration of the diaphragm and to fix the position of the diaphragm and the mold.

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