KR100989767B1 - A test apparatus for mold - Google Patents

Abstract

The present invention relates to a male model mold experiment apparatus capable of imparting vibration in a male model mold experiment simulating a similar experiment in a continuous casting facility.

Its configuration consists of a rectangular box-shaped main body having a space portion filled with water therein and an upper and lower lifted by elevating means to impart vibration to water filled in the space portion, the lower end of which is accommodated in the space portion of the main body. It is provided with a lifting box of the box shape, the upper and lower openings.

Accordingly, the present invention accurately simulates the experiment on the change of the surface of molten steel and the permeability of the mold powder by vibrating force in the actual playing process, and analyzes the vibration condition and the inflow of the mold powder on the surface of molten steel. It has a useful effect to improve the studyability.

Description

Male model mold tester {A TEST APPARATUS FOR MOLD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a male model mold experiment apparatus, and more particularly, to a male model mold experiment apparatus having an improved structure so that vibration can be generated to measure the injection of mold powder and a change in molten steel surface in an actual playing process.

In general, continuous casting equipment is for manufacturing molten steel into semi-finished products such as slabs, and is composed of a tundish, a mold, and a plurality of rolls of the machine, and after the molten steel passes through the mold to form a solidified layer, It has a manufacturing process for cooling the surface of the cast piece by spraying the cooling water as it passes between the rolls of players arranged on both sides of the dog.

In the continuous casting process for producing existing steel, the molten steel of the ladle is discharged into the tundish through the long nozzle, and the molten steel of the tundish is solidified while being supplied into the mold through the immersion nozzle.

And solidification of molten steel in the mold is made by the contact of the mold copper plate and molten steel, the quality of the cast steel depends on the uniformity of solidification, in particular, the surface quality of the cast steel only when the molten steel in the molten surface of the rapid solidification occurs Will be excellent.

Therefore, stabilizing the molten surface of the mold is a big problem in the playing process, and it is important to optimize the design of the immersion nozzle to stabilize the molten surface, but the control problem is to control the amount of molten steel flowing from the tundish uniformly. .

In addition, the mold powder is injected into the upper layer of the molten steel on the upper side of the molten steel, which not only has a lubrication action to assist the discharge of the molten steel in the mold and surface insulation of the molten steel, but also prevents reoxidation of the molten steel. Absorbs inclusions and has the ability to improve heat transfer performance

In such a conventional mold, a cooling water pipe for solidification is disposed, and an electromagnetic stirring device having a stirring function by applying vibration to molten steel in close proximity is disposed.

According to the vibration of the electromagnetic stirring device, the injection property of the mold powder is variable.

By the way, in the past, there is a water model experiment apparatus for simulating the continuous casting process, but this is simply a configuration in which the nozzle is arranged so that the water is filled in the main body of the mold form, the vibration that imparts vibration to the molten steel in the immersion nozzle and the actual playing process There is a disadvantage that there is no imparting means.

Since the mold and the coagulation shell are arranged independently in the conventional actual performance process, the vibration can be imparted to the mold side, whereas the existing male model experimental apparatus was not provided with only the main body of the mold type.

The present invention has been proposed in view of the above-mentioned problems, and an object thereof is to provide a male model mold experiment apparatus having an improved structure to impart vibration to a male model experiment apparatus for experimenting a playing process. There is.

The present invention for achieving the above object has a space portion filled with water therein and a main body having a supply pipe for supplying water therein,

A part is accommodated in the space portion of the main body, characterized in that it comprises a lifting box capable of lifting up and down by lifting means.

The elevating means is a fixed rod which is arranged to be fixed to each side wall of the elevating box,

A hydraulic cylinder having a rod connected to each of the fixed rods, and configured to elevate the rod according to supply and discharge of external hydraulic pressure;

It is provided with a control unit for variably adjusting the hydraulic pressure supplied / discharged to the hydraulic cylinder to control the lifting operation of the lifting box.

The elevating means is fixed to the fixed plate having a gear gear of the rack gear form and are disposed integrally on each side wall of the elevating box, respectively;

A lifting motor having a motor shaft engaged with a gear of the fixed plate and driven forward and reverse as an external electric signal is applied;

It is provided with a controller for controlling the forward and reverse rotation operation of the lifting motor by outputting a corresponding electrical signal to the lifting motor according to the vibration condition.

The lifting box is preferably formed to have a thicker thickness of the lower than the upper.

According to the present invention, it is possible to impart vibrations in a male model mold experiment that simulates a similar experiment in a continuous casting facility, and according to the present invention, the molten steel having a vibration force in the actual playing process and the permeability of mold powder By accurately simulating the experiments, it is useful to improve the studyability by experimental data by analyzing vibration conditions and mold powder inflow conditions on the molten steel surface level.

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

One embodiment of the male model mold experiment apparatus according to the present invention, when described with reference to Figures 1 and 2, the main body 10 of the rectangular box shape having a space portion filled with the inside is opened and the main body, The lower portion is accommodated in the space portion of the 10 and is provided by the elevating means to give the vibration to the water (H) filled in the space portion, the elevating box having a box-shaped elevating box (100) will be.

In more detail, the main body 10 includes a supply pipe 20 in which injection holes 25 are formed at both sides of the lower end such that water H is supplied therein.

The elevating means has a fixed rod 150 disposed to be fixed to both side walls of the elevating box 100, and rods connected to the fixed rods 150 on both sides, respectively, to supply hydraulic pressure using hydraulic pressure supplied from the outside. Hydraulic cylinder 210 for elevating the rod in accordance with the discharge, and the control unit for variablely adjusting the hydraulic pressure supplied / discharged to the hydraulic cylinder 210 to control the lifting operation of the lifting box (100).

The fixed rod 150 may be coupled to penetrate both side walls of the elevating box 100, or may be coupled to a structure extending integrally to both sides of the outer side wall.

The rod is disposed on the upper side of the fixing rod 150 and coupled to surround a part of the outer circumferential surface of the fixing rod 150 to have a structure connected to the lifting box 100 so as to be interlocked with each other, and supplied from the outside into the hydraulic cylinder 210. It is a known structure that is selectively elevated according to the supply / discharge position of the hydraulic pressure.

The control unit has a plurality of hydraulic flow paths 212 and 214 supplied to the hydraulic cylinder 210 and includes a control valve 220 for selectively opening and closing the flow path in response to a signal from the controller 230 to control the lifting operation of the rod.

The controller 230 has a function of controlling the opening and closing operation of the flow path of the control valve 220 to selectively give conditions such as vibration frequency and vibration width.

Reference numeral "O" indicates an oil formed in a band shape on the upper surface of the water (H), which is a medium to replace the mold powder of the actual performance process.

On the other hand, for the measurement equipment required for the experimental apparatus because it uses a known equipment, it will not be described here.

Referring to the operation of the embodiment of the present invention having such a configuration as follows.

In the male model mold experiment apparatus according to the exemplary embodiment of the present invention, the water is filled through the supply pipe 20 and the oil is supplied to form a layer on the surface of the water H, and then the lifting box 100. After arranging the lower part of the upper part of the main body 10 to be accommodated in the space of the main body 10 and inputting the vibration condition to the controller 230 of the elevating means, the controller 230 regulates an electrical signal corresponding to the vibration condition. Output to the (220) side, the control valve 220 determines the supply and discharge direction of the hydraulic pressure to selectively open and close the flow path to supply the hydraulic pressure to the hydraulic cylinder 210 side of both sides.

Subsequently, both side hydraulic cylinders 210 elevate the elevating box 100 by raising and lowering the fixed rod 150 connected to each rod by being elevated or lowered in the same direction.

As the lifting box 100 is repeatedly lifted and operated, vibration wavelengths are generated in the water filled in the space of the main body 10, and the surface level of the water H is changed, and the oil constituting the layer is lowered. Infiltrate into.

This is to simulate the situation in which the molten steel level of the molten steel is changed and the mold powder penetrates when the vibration is applied in the actual playing process.

That is, the male model mold experiment apparatus of the present invention raises and lowers the elevating box 100 having the upper and lower portions opened inside the space part of the main body 10 filled with water, thereby generating a vibration wavelength in the water H, The experimental results are similar to those that give vibration to molten steel in the playing process.

Figure 3 shows another example of the lifting means of the present invention, the lifting box 100 is not lifted by the lifting operation of the hydraulic cylinder 210 in the previous line embodiment, the lifting motor of the forward, reverse rotation operation ( The lifting box 100 is to be moved up and down by receiving the rotational force of 250).

To this end, the fixed plate 170 which is integrally disposed on both outer sides of the lifting box 100 and has a gear gear of a rack gear type, and the lifting shaft having a pinion gear type motor shaft corresponding to the gear of the fixed plate 170 is provided. It is composed of a motor (250).

In addition, the lifting means is provided with a controller 270 for controlling the forward and reverse rotation of the lifting motor 250 by outputting an electrical signal corresponding to the vibration condition input by the user.

4 is a view showing another embodiment of the present invention, and unlike the previous embodiments, the upper and lower thicknesses of the elevating box 100 are different from each other, and more specifically, the thickness of the lower portion is thicker than the upper portion. Formed.

This, in order to produce a situation similar to the actual situation by forming the thickness of the lifting box 100 becomes thicker to the lower side of the mold in consideration of the thickness of the solidification shell applied to the actual playing process.

1 is a schematic view showing the configuration of an embodiment of a male model mold apparatus according to the present invention.

Figure 2 is a perspective view of the lifting means of the present invention.

Figure 3 is a perspective view showing another example of the present invention lifting means.

Figure 4 is a cross-sectional view showing another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: main body 20: supply pipe

100: lifting box 150: fixed rod

170: fixed plate 210: hydraulic cylinder

220: control unit 230: control valve

250: lifting motor 270: controller

H: Water O: Oil

Claims (4)

The main body 10 having a supply pipe 20 for supplying water to the inside having a space portion filled with water (H) therein, The male model mold experiment apparatus, characterized in that it comprises a lifting box 100 which is accommodated in the space portion of the main body 10 and the lifting operation is possible by the lifting means. The method according to claim 1, The elevating means is a fixed rod (150) which is arranged to be fixed to both side walls of the elevating box 100, A hydraulic cylinder 210 having a rod connected to each of the fixed rods 150, and elevating the rod according to the supply and discharge of external hydraulic pressure; Male model mold experiment apparatus characterized in that it comprises a control unit for variably adjusting the hydraulic pressure supplied / discharged to the hydraulic cylinder 210 to control the lifting operation of the lifting box (100). The method according to claim 1, The elevating means is a fixed plate 170 which is disposed integrally on both side walls of the elevating box 100 and having a gear gear of a rack gear on one surface, A lifting motor 250 having a motor shaft engaged with a gear of the fixed plate 170 and driven forward and reverse as an external electric signal is applied; And a controller (270) for outputting an electric signal corresponding to the vibration condition to the lifting motor (250) to control forward and reverse rotational motions of the lifting motor (250). The method according to any one of claims 1 to 3, The elevating box 100 is a male model mold apparatus characterized in that the lower thickness is formed thicker than the upper.

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