KR100489532B1 - device for making fireproof precast block & method of the same - Google Patents

Abstract

The present invention relates to an apparatus for manufacturing precast blocks of amorphous refractory materials, and a method of manufacturing the same. More particularly, the present invention relates to large and moldable refractory bricks, which cannot be formed by a press die. It is an object of the present invention to provide an apparatus and method for manufacturing a precast block that can be molded to have quality characteristics such as a compact refractory brick formed by a dense structure.

 The present invention provides a sealed space and a vacuum chamber in which a molding mold and a castable mixture are mounted, a plurality of vibrators attached to a lower portion of the vacuum chamber to generate vibration force on the castable mixture, and a bottom surface of the vacuum chamber. A plurality of fixed supports, a double spring installed between the support and the bottom surface and elastically supporting the support to transfer the vibration force of the vibrator to the castable kneaded material only; one side is connected to the vacuum chamber and the opposite side is Connected to the vacuum pump to discharge the air in the vacuum chamber to the outside to create a vacuum state inside the vacuum chamber to maintain a reduced pressure state, and one side is connected to the vacuum chamber by introducing air into the vacuum chamber atmospheric pressure Apparatus and method for manufacturing a refractory precast block comprising a vacuum release hose for making a state As a result, it is possible to mold large and moldable refractory precast blocks, which cannot be formed in a press mold, to have quality characteristics comparable to products molded into a press mold.

Description

Apparatus for manufacturing fireproof precast block and its manufacturing method {device for making fireproof precast block & method of the same}

The present invention relates to an apparatus for manufacturing precast blocks of amorphous refractory materials, and a method of manufacturing the same. More particularly, the present invention relates to large and moldable refractory bricks, which cannot be formed by a press die. It is an object of the present invention to provide an apparatus and method for producing a precast block which can be molded to have quality characteristics such as a structured refractory brick of a dense structure formed by the present invention.

Precast block is a type of dry irregular refractory that is formed by injecting and molding powdery amorphous refractory material into a mold of a predetermined shape. The trend is increasing.

In order to manufacture the precast block as described above, as shown in FIG. 1, a castable mixed well with various refractory aggregates and raw materials is introduced into a kneader, and then, by adding appropriate moisture, a castable kneaded product 1 is made. By operating the vibrator rod 4 while the castable kneaded product is put into the mold 2 of a predetermined mold to remove bubbles of the kneaded material, the kneaded mixture is evenly distributed in the molding mold so that the molding can be performed. Then, when the molded body 3 in the molding mold 2 was cured and cured, the molded body 3 was demolded from the molding mold and dried to obtain a finished product.

Also, as shown in FIG. 2, the molding mold 2 into which the castable kneaded material 1 is put is placed on the tabletop vibrator 5, and the tabletop vibrator 5 is operated to remove bubbles of the kneaded material and to evenly distribute the kneaded product. How to do is also known.

However, when the precast block is manufactured by the conventional method as described above, since the vibration effect of the vibrating device such as the vibrator rod 4 or the tabletop vibrator 5 used to remove the bubbles of the kneaded material is insufficient, bubbles in the molded body are not generated. It is difficult to remove effectively.

In particular, when the vibrator rods 4 are used, the vibrator rods are inserted into the castable kneaded material to vibrate, and thus there is a fear that bubbles are generated inside the molded body rather than an experienced worker.

In order to improve the flowability of the castable so that the kneaded material is evenly distributed in the molding mold, a fine powder (small powder) is used or when the kneaded material is excessively vibrated for the even distribution of the kneaded material, Since the aggregate portion and the fine powder portion of the sable are separated, the molded body cannot exhibit the characteristics required.

Therefore, in the related art, the porosity of the precast block is increased and the strength is lowered due to various causes as described above, and thus, a desired quality precast block cannot be obtained.

An object of the present invention is to provide a method for producing a refractory precast block which can effectively remove bubbles of a castable kneaded product and obtain a compacted compact.

Still another object of the present invention is to provide an apparatus for producing a refractory precast block suitable for producing such a refractory precast block.

In accordance with an embodiment of the present invention for achieving the above object, a vacuum chamber forming a closed space and equipped with a molding mold and a castable mixture is attached to a lower portion of the vacuum chamber to generate vibration force in the castable mixture A plurality of vibrators to be fixed, a plurality of supports fixed to the bottom of the vacuum chamber, and installed between the support and the bottom surface and resiliently supporting the support to transfer the vibration force of the vibrator to the castable mixture One side is connected to the spring and the vacuum chamber and the other side is connected to the vacuum pump to discharge the air inside the vacuum chamber to the outside to create a vacuum state inside the vacuum chamber and to maintain a reduced pressure state, and one side to the vacuum chamber This connection is characterized by consisting of a vacuum release hose that makes the atmospheric pressure by introducing air into the vacuum chamber The manufacturing apparatus is provided for pre-cast refractory block with.

In addition, by placing a molding mold containing the castable mixture in the vacuum chamber to reduce the pressure inside the vacuum chamber, the castable mixture is vibrated by vibrating to disperse the castable mixture evenly and remove bubbles. A method of producing a refractory precast block is then provided, wherein the castable kneaded product is cured, cured, and demolded and dried by molding the molded body in the molding mold.

3 to 5 are diagrams illustrating an apparatus for manufacturing a fireproof precast block according to the present invention.

The apparatus of the present invention is fixed to a vacuum chamber 11 forming a closed space, a plurality of vibrators 15 attached to a lower portion of the vacuum chamber 11 to generate a vibration force, and a bottom surface of the vacuum chamber 11. A plurality of supports 12, a double spring installed between the support 12 and the bottom surface to support the vacuum chamber 11, and one side is connected to the vacuum chamber 11, the other side is a vacuum pump And a vacuum organic hose 16 for making the inside of the vacuum chamber 11 in a vacuum state, and a vacuum release hose 17 for returning the vacuum chamber 11 to atmospheric pressure.

The molding mold 2 in which the castable kneaded material 1 is contained is mounted in the central part inside the vacuum chamber 11.

The double spring consists of an upper spring 13 and a lower spring 14, and a support 12 is supported between the upper and lower springs.

A process of manufacturing a refractory precast block using the apparatus of the present invention as described above will be described.

First, when the molding mold 2 containing the castable kneaded material 1 is mounted in the vacuum chamber 11 and the vacuum pump is operated, the air in the vacuum chamber 11 is discharged through the vacuum organic hose 16. While discharged to the inside of the vacuum chamber 11 to make a vacuum state.

At this time, the inside of the vacuum chamber 11 is reduced to about 400 ~ 740mmHq, bubbles generated during the kneading of the castable are removed.

Next, when the vibrator 15 attached to the lower part of the vacuum chamber 11 is operated to vibrate, the castable kneaded material 1 contained in the molding mold 2 flows to the molding mold 1 as a whole. When the vibration is applied, the inside of the vacuum chamber 11 is kept at a reduced pressure, so that the bubbles of the kneaded material 2 in the molding mold 1 generated by the vibration are generated. You will get out and get a dense tissue.

The process in which vibration is applied to the castable kneaded material 1 by the operation of the vibrator 15 will be described in more detail.

The support 12 is fixed to the bottom of the vacuum chamber 11, and the support 12 is supported between the upper spring 14 and the lower spring 15 forming a double spring, so that the vacuum chamber 11 And the support 12 is in a state of floating in the air, that is, the vibration occurs in a state of zero gravity.

Therefore, if the spring force and the weight of the vacuum chamber 11 are set so that the spring force and resonance effect of the spring are optimal, the absorption or accumulation of energy is exhibited to the maximum, so that the vibration is hardly transmitted to the vacuum chamber 11, Vibration is applied only to the castable kneaded material 1 mounted in (11).

That is, when the vibrator 13 is operated, the vibration force is collected at the central portion of the molding mold 2 mounted on the inner central portion of the vacuum chamber 11 to maximize the vibration force only in the castable kneaded material 2. It is transmitted and its vibration direction becomes radial toward the edge of the vacuum chamber 11 and is refined at the edge.

  Then, when molding of the castable kneaded material 2 block is completed, air is introduced into the vacuum chamber 11 through the vacuum release hose 17 so that the molded product is taken out of the vacuum chamber 11. The interior is returned to atmospheric pressure. When the castable kneaded product kneaded by the above method is cured and cured, the molded product is demolded and dried to obtain a finished product.

According to the present invention, since the castable kneaded material is put in a vacuum chamber and subjected to vibration to form, bubbles generated by the vibration can be discharged out of the molding mold, thereby reducing the porosity compared to the precast block manufactured by the conventional method. Dense Precast Blocks are available.

In addition, it is possible to mold large and moldable refractory precast blocks, which cannot be formed by a press mold, to have quality characteristics comparable to those of products molded by a press mold.

1 is a schematic view showing an example of a method of manufacturing a conventional refractory precast block

Figure 2 is a schematic diagram showing another example of a method of manufacturing a conventional refractory precast block

3 is a front view showing an apparatus for manufacturing a fireproof precast block according to the present invention.

4 is an enlarged view of a part of FIG. 3;

5 is a schematic cross-sectional view of the apparatus of the present invention.

Explanation of symbols for main parts of the drawings

11: vacuum chamber 12: support

13: upper spring 14: lower spring

15: vibrator

Claims (3)

A vacuum chamber forming a sealed space and equipped with a molding mold and a castable mixture, A plurality of vibrators attached to a lower portion of the vacuum chamber to generate vibration force on the castable kneaded material; A plurality of supports fixed to the bottom of the vacuum chamber, A double spring installed between the support and the bottom surface and elastically supporting the support to transfer the vibration force of the vibrator to the castable kneaded material only; One side is connected to the vacuum chamber and the other side is connected to the vacuum pump to discharge the air in the vacuum chamber to the outside to create a vacuum state inside the vacuum chamber and to maintain a reduced pressure state, and One side of the vacuum chamber is connected to the manufacturing apparatus of the refractory precast block, characterized in that consisting of a vacuum release hose to make the atmospheric pressure by introducing air into the vacuum chamber. The method of claim 1, The double spring is composed of an upper spring and a lower spring and the support is a manufacturing device of the refractory precast block supported between the upper spring and the lower spring. The molding mold containing the castable kneaded material is mounted in the vacuum chamber to reduce the pressure inside the vacuum chamber, and then vibrates the castable kneaded material by vibrating to evenly disperse the castable kneaded material and remove bubbles. And then hardening and curing the castable kneaded product and demolding and drying the molded body formed in a molding mold.