Apparatus for and method of reclaiming molding sand

Information

  • Patent Grant
  • 6725899
  • Patent Number
    6,725,899
  • Date Filed
    Friday, October 25, 2002
    22 years ago
  • Date Issued
    Tuesday, April 27, 2004
    20 years ago
Abstract
Disclosed are an apparatus for and a method of reclaiming molding sand capable of increasing a recycling efficiency of used molding sand and of highly enhancing the purity of a reclaimed molding sand. By crushing a lump of molding sand segregated from a molding box, used molding sand can be formed. In order to remove coking agents sticking on a surface of the used molding sand, an impeller disposed in a rotatable grinding drum is rotated after charging the used molding sand into a casing in which the rotatable grinding drum is disposed. The coking agents sticking on the surface of the used molding sand are removed due to collision and a mutual frictional rolling contact between the used molding sand and the rotatable grinding drum with the aid of rotational force of the impeller after having accomplished charging the used molding sand toward the impeller. Fine powders of the coking agents segregated from the used molding sand are exhausted through a dust collecting port together with external air introduced into the casing through an inlet pipe of a rotational shaft disposed in operative association with a motor at the center of the casing.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




The present invention relates to an apparatus for and a method of reclaiming molding sand, and more particularly to an apparatus for and a method of reclaiming molding sand capable of increasing a recycling efficiency of used molding sand and of highly enhancing the purity of a reclaimed molding sand, which is capable of prevent the reclaimed molding sand from being damaged and of simplifying the total construction of the apparatus for reclaiming molding sand relative to the conventional molding sand recycling apparatus, by removing coking agents sticking on a surface of the used molding sand due to a collision and a mutual frictional rolling contact between the used molding sand and a rotatable grinding drum during rotation of an impeller in a casing after having accomplished charging the used molding sand toward the impeller in the casing, and thereafter by exhausting fine powders of coking agents, which are segregated from the used molding sand, through a dust collecting port together with external air introduced into the casing through an inlet pipe of a rotational shaft.




2. Description of the Prior Art




Casting process, which has been widely used for manufacturing a metal product, includes several steps of forming a molten metal by heating a metal at its melting point, pouring the molten metal into a molding box having a shape that is exactly the same as a desired metal product, cooling and solidifying the molten metal in the molding box.




In the conventional casting process as described above, the molding box used for molding a molten metal into a product is formed by using a molding sand composition, which comprises silica sand having an excellent refractoriness as main component. This molding sand composition combines sand having about 20 to 70 mesh size, about 4 to 8% of clay as a coking agent, and about 2 to 6% of moisture. The molding box is produced by pouring the molding sand composition as described above into a mold, in which a desired pattern is provided therein, and by continuously solidifying it therein.




However, when a cast-iron product is produced from the conventional molding box, the coking agent is sticking on the surface of molding sand due to high temperature of the molten metal. If this used molding sand having the coking agent sticking on the surface thereof is used for next casting of a product without performing any additional process for removing the coking agent, then a mutual combining force between molding sands is weaken and the ventilation between molding sands deteriorates, which always leads to a harm to a cast-iron product. In order to solve these problems, it always needs to remove the coking agent sticking on the surface of the used molding sand and continuously revive new molding sand having a desired purity.




There are many techniques and procedures well known in the art by which used molding sand is recycled. For example, the first type of recycling technique is that used molding sand is sprayed toward a grinding piece at a high speed. This recycling technique provides an excellent processing performance. However, a problem associated with this processing used molding sand into reclaimed molding sand is that the grinding piece is severely partially worn away, which always needs a frequently replacement of the grinding piece, and leads to an increased cost of reclaiming used molding sand. Other problems associated with this recycling technique are that molding sand may be easily brown down owing to a strong collusion against the grinding piece and it is very hard to separate fine powders of coking agents and fine powders of the grinding piece from reclaimed molding sand.




Alternatively, the second type of recycling technique is that used molding sand is processed by mechanically vibrating it in a vibrating device with the aid of air stream. However, one problem associated with this processing used molding sand into reclaimed molding sand is that the total construction of the vibrating device used for performing this technique is very complicated, which always needs much time and brings about an increase in cost of producing recycled molding sand having a desired purity.




Alternatively, the third type of recycling technique is that used molding sand is washed by water. However, one problem associated with this processing used molding sand into reclaimed molding sand is that it is very hard to remove the coking agent sticking on the surface of used molding sand by using only this washing technique, which always needs for installing additional devices such as a vibrating device and brings about an increase in cost of producing a reclaimed molding sand.




In the mean time, when a resin is used as a coking agent for molding sand, the resin is removed from a surface of the molding sand by heating used molding sand at a high temperature. However, in order to heat the used molding sand at a high temperature, it is necessary for installing additional heating devices and brings about an increase in cost of producing a reclaimed molding sand.




The fourth type of recycling technique is that used molding sand is processed by charging it in a rotatable grinding drum, continuously rotating the grinding drum and inducing a mutual frictional rolling contact between used molding sand and the grinding drum. It would be desirable to recycle used molding sand by using this recycling technique.




Conventional apparatus for reclaiming used molding sand having a rotatable grinding drum are disclosed in Korean Patent Publication No. 1981-1841 (Date of Registration: Nov. 17, 1981), Korean Laid-Open Patent Publication No. 1983-7177 (Date of Publication: Oct. 14, 1983) and Korean Laid-Open Utility Model Publication No. 1988-21514 (Date of Publication: Dec. 24, 1988), etc.




However, in these apparatus, coking agents sticking on the surface of the used molding sand may be removed by using a mutual frictional force generated between the grinding drum and the used molding sand during rotation of the grinding drum at a high rotation speed, which leads to special problems. One of the problems is that the operational efficiency relative to removing the coking agents deteriorates, which always needs a lot of time for completely removing the coking gents relative to the second type of recycling technique. Due to this reason, it has not been possible or practical to recycle the used molding sand as reclaimed molding sand having a high purity by only once performing the process of reclaiming used molding sand using the grinding drum.




Other problem associated with these conventional apparatus is that it is very hard to exhaust fine powders segregated from the coking agent through a dust collecting port, which always needs for installing additional devices such as an impeller for easily exhausting the fine powders and brings about an increase in cost of producing a reclaimed molding sand.




Another problem associated with these conventional apparatus is that the total constitution of the apparatus for reclaiming used molding sand becomes complicated and the total volume of the apparatus is very large. In other words, the conventional apparatus are provided with a sand distribution structure for uniformly charging used molding sand into the rotatable drum, a structure for reclaiming the used molding sand into reclaimed molding sand by using the rotatable grinding drum, a structure for exhausting reclaimed molding sand, and a blowing device for supplying external air into the casing, which always needs for spending a large amount of money and a lot of time in order to maintain and repair the apparatus for reclaiming used molding sand, and brings about an increase in cost of manufacturing the apparatus as described above.




SUMMARY OF THE INVENTION




The present invention is contrived to solve the foregoing problems. It is a first object of the present invention to provide an apparatus for reclaiming molding sand capable of increasing a recycling efficiency of used molding sand and of highly enhancing the purity of a reclaimed molding sand, which is capable of prevent the reclaimed molding sand from being damaged and of simplifying the total construction of the apparatus for reclaiming molding sand relative to the conventional molding sand recycling apparatus.




Also, it is a second object of the present invention to provide a method of reclaiming molding sand capable of increasing a recycling efficiency of used molding sand and of highly enhancing the purity of a reclaimed molding sand.




In order to achieve the first object, the present invention provides an apparatus for reclaiming molding sand having a casing constituted of a disc-shaped upper frame, a cylindrical middle frame and a disc-shaped lower frame, which are integrally formed together, in which a hopper for throwing used molding sand in the casing is installed at the upper frame of the casing, a dust collecting port for collecting and exhausting fine powers of coking agents segregated from used molding sand is installed at the upper frame, a reclaimed molding sand extrusion port for extruding reclaimed molding sand from the casing is installed at the lower frame of the casing, a rotational shaft is disposed in operative association with a motor at the center of the casing with vertically passing through the upper frame and the lower frame, characterized in that:




an impeller including pluralities of blades is disposed on the rotational shaft, the blades being formed at an outer peripheral surface of the rotational shaft and extending radially outwards at a predetermined length, in which an upper disc and a lower disc are formed at an upper end and a lower end of the blade, respectively, a tuyere is formed through the center portion of the impeller between the blades of the impeller and is fluid-communicated with an inlet pipe extending from the outside of the casing into the casing along the rotational shaft, a cylindrical grinding drum made of a grinding stone is disposed between the impeller and the middle frame of the casing, the grinding drum being spaced from radial free ends of the upper discs and the lower discs and being spaced from the middle frame at a predetermined distance.




Also, in order to achieve the second object, the present invention provides a method of reclaiming molding sand, of the type wherein a used molding sand is formed by crushing a lump of molding sand segregated from a molding box and is consequently reclaimed by removing coking agents sticking on a surface of the used molding sand, the improvement comprising:




rotating an impeller disposed in a rotatable grinding drum made of a cylindrical grinding stone, the impeller being spaced from the rotatable grinding drum at a predetermined distance;




removing the coking agents from the surface of the used molding sand due to collision and a mutual frictional rolling contact between the used molding sand and the rotatable grinding drum with the aid of rotational force of the impeller after having accomplished charging the used molding sand toward the impeller; and




exhausting fine powders of the coking agents, which are segregated from the used molding sand, through a dust collecting port together with external air introduced into the casing through an inlet pipe of a rotational shaft disposed in operative association with a motor at the center of the casing.




As described above, in the apparatus for and the method of reclaiming molding sand according to the preferred embodiment of the present invention, it is possible to process used molding sand into reclaimed molding sand with only once performing the sand reclaiming process. Furthermore, it is possible to prevent the rotatable grinding drum from being worn and to prevent the molding sand from being damaged relative to the conventional apparatus for and the conventional method of reclaiming molding sand using the molding sand recycling technique that the used molding sand is directly sprayed to a grinding piece with the aid of compressed air.











BRIEF DESCRIPTION OF THE DRAWINGS




The above objects and other characteristics and advantages of the present invention will become more apparent by describing in detail a preferred embodiment thereof with reference to the attached drawings, in which:





FIG. 1

is a side elevational view, partly in cross section, of an apparatus for reclaiming molding sand according to the preferred embodiment of the present invention, showing the total structure of the apparatus; and





FIG. 2

is a sectional view taken along line A—A of FIG.


1


.











DETAILED DESCRIPTION OF THE INVENTION




Hereinafter, the apparatus for reclaiming molding sand according to the preferred embodiment of the present invention will be explained in more detail with reference to the accompanying drawings.




In

FIGS. 1 and 2

, reference numeral


10




a


denotes a bolt and reference numeral


10




b


denotes a nut for assembling a casing. Furthermore, reference numeral


32




a


denotes a reinforcing piece of a rotatable grinding drum.




As shown in

FIGS. 1 and 2

, an apparatus for reclaiming molding sand includes a casing


10


constituted of a disc-shaped upper frame


12


, a cylindrical middle frame


11


and a disc-shaped lower frame


13


, which are integrally formed together.




A hopper


14


for throwing used molding sand


1


in the casing is installed at the upper frame


12


of the casing


10


. Furthermore, a dust collecting port


15


for collecting and exhausting fine powders of coking agents segregated from the used molding sand


1


is installed at the upper frame


12


. The dust collecting port


15


is communicated with dust collecting device (not shown) such as a cyclone dust collector. A reclaimed molding sand extrusion port


16


for extruding reclaimed molding sand


2


is installed at the lower frame


13


of the casing


10


. The reclaimed molding sand extrusion port


16


is communicated with a collecting device (not shown) such as a storage tank (not shown) or a separate collection tank (not shown) for reclaimed molding sand


2


.




A rotational shaft


25


is installed at the center of the casing


10


with passing through the upper frame


12


and the lower frame


13


. This rotational shaft


25


can smoothly rotate by means of bearings


27


disposed around thereof. A driven pulley


24


is installed at an upper end of the rotational shaft


25


. This driven pulley


24


is mechanically connected with a driving pulley


22


of a motor


21


through a belt


23


extending there between. When the motor


21


begins to be operated, the rotational shaft


25


rotates by receiving a rotational driving power transmitted from the motor


21


. Preferably, the driving pulley


22


and the driven pulley


24


comprise a predetermined variable pulley so that they can be controlled in accordance with a rotation speed of the rotational shaft


25


.




In the meantime, an impeller


26


is disposed on the rotational shaft


25


. This impeller


26


includes four to eight blades


26




a


that are formed at an outer periphery surface of the rotational shaft


25


and extend radially outwards at a predetermined length. An upper disc


26




b


and a lower disc


26




c


are formed at an upper end and a lower end of the blade


26




a


, respectively. The upper disc


26




b


and the lower disc


26




c


extend radially outwards from the outer periphery surface of the rotational shaft


25


at a predetermined length greater than the length of the blade


26




a


. When the rotational shaft


25


is rotated due to operation of the motor


21


, the impeller


26


can rotate within the casing


10


.




The upper disc


26




b


has a function of spraying or pouring used molding sand


1


charged into the casing


10


to the outside at a radial direction. The lower disc


26




c


is spaced from the lower frame


13


and a free end thereof is close to the reclaimed molding sand extrusion port


16


. The lower disc


26




c


has a function of guiding the reclaimed molding sand


2


toward the reclaimed molding sand extrusion port


16


. A tuyere


25




b


is formed through the center portion of the impeller


26


between the blades


26




a


of the impeller


26


. The tuyere


25




b


is fluid-communicated with an inlet pipe


25




a


extending from the outside of the casing


10


into the casing


10


along the rotational shaft


25


. When the impeller


26


is rotated, air can be introduced from the outside through the inlet pipe


25




a


of the rotational shaft


25


into the casing


10


via the tuyere


25




b.






In the meantime, a cylindrical grinding drum


31


made of a grinding stone is disposed between the impeller


26


and the middle frame


11


of the casing


10


. At this time, the rotatable grinding drum


31


is spaced from the radial free end of the upper and the lower discs


26




b


,


26




c


. Furthermore, the rotatable grinding drum


31


is spaced from the middle frame


11


at a predetermined distance. The rotatable grinding drum


31


is fixedly installed in the casing


10


by means of a fixture


32


passing through the middle frame


11


and pressing against the rotatable grinding drum


31


in the lateral direction. Preferably, the fixture


32


comprises a fixing member such as a bolt, which passes through the middle frame


11


, and presses against an outer surface of the rotatable grinding drum


31


. In order to prevent the rotatable grinding drum


31


being damaged, a reinforcing piece


32




a


is disposed between the distal end of the fixture


32


and the outer surface of the rotatable grinding drum


31


.




In order to minimize the wear of the used molding sand


1


due to collision between the rotatable grinding drum


31


and the used molding sand


1


, the rotatable grinding drum


31


comprises a material selected from the group consisting of aluminum oxide (Al


2


O


3


), silundum (SiC), zirconia (ZrO


2


) and boron nitride (BN).




Hereinafter, the method of reclaiming molding sand according to the embodiment of the present invention will be described in detail with reference drawings

FIGS. 1 and 2

. According to the embodiment of the present invention, the reclaiming of used molding sand


1


is proceed by using the apparatus for reclaiming molding sand as described above.




As shown by way of example in

FIGS. 1 and 2

, when an electric current is applied to the motor


21


of the apparatus for reclaiming molding sand, then the motor


21


begins to be operated. At this time, the rotational shaft


25


disposed in operative association with the motor


21


begins to be rotated. And continuously the impeller


26


is rotated within the rotatable grinding drum


31


at a high rotation speed.




Under this state, the used molding sand


1


is charged into the casing


1


through the hopper


14


installed at the upper frame


12


of the casing


1


. The used molding sand


1


may be obtained by crushing a lump of molding sand segregated from a molding box.




When the used molding sand


1


is charged into the casing


1


through the hopper


14


, it is dropping onto the upper surface of the upper disc


26




b


of the impeller


26


during rotation of the impeller


26


at a high rotation speed. At this time, the used molding sand


1


is sprayed from the dropping point on the upper disc


26




b


toward an inner peripheral wall of the rotatable grinding drum


31


due to centrifugal force applying to the upper disc


26




b


as a result of the impeller


26


's rotation.




The used molding sand


1


sprayed toward the inner peripheral wall of the rotatable grinding drum


31


via the upper disc


26




b


collides with the rotatable grinding drum


31


and thereby a part of coking agents attached to the used molding sand


1


is segregated from the rotatable grinding drum


31


during collision of the used molding sand


1


against the rotatable grinding drum


31


. Consequently, the primary process of reclaiming molding sand by using the rotatable grinding drum


31


has been completed.




After having accomplished the collision of the used molding sand


1


against the rotatable grinding drum


31


, the used molding sand


1


is subjected to the effects of gravity due to its weight in a direction toward the lower frame


13


of the casing


10


. Continuously the used molding sand


1


is also subjected to the effects of the centrifugal force due to a strong rotational blowing generated from the impeller


26


, which is applied to the inner peripheral surface of the rotatable grinding drum


31


. As a result, the used molding sand


1


cannot directly fall toward the lower frame


13


of the casing


10


and then it slowly descends toward the lower frame


13


with rotating along the inner peripheral surface of the rotatable grinding drum


31


at a spiral trace.




While the used molding sand


1


slowly descends toward the lower frame


13


with rotating along the inner peripheral surface of the rotatable grinding drum


31


at a spiral trace, it rolls and continuously rotates along the inner peripheral surface of the rotatable grinding drum


31


. At this time, a mutual rolling frictional contact is accomplished between the used molding sand


1


and the rotatable grinding drum


31


and thereby the secondly process of reclaiming molding sand by using the rotatable grinding drum


31


has been completed. Consequently, the remaining coking agents sticking on the used molding sand


1


are completely removed and the surface of the reclaimed molding sand


2


.




In addition, air in the casing


10


is exhausted from the outside through the dust collecting port


15


and the reclaimed molding sand extrusion port


16


during rotation of the impeller


26


at a high rotation speed. Continuously air out of the casing


10


is introduced into the casing


10


through the inlet pipe


25




a


formed at the rotational shaft


25


and then it is exhausted through the tuyere


25




b


formed between the blades


26




a


of the impeller


26


. As a result, the used molding sand


1


can be closely contacted with the inner peripheral surface of the rotatable grinding drum


31


with effect. Also, the mutual frictional rolling contact between the used molding sand


1


and the rotatable grinding drum


31


is more successfully performed.




The reclaimed molding sand


2


processed due to collision and mutual frictional rolling contact between the used molding sand


1


and the rotatable grinding drum


31


falls onto the upper surface of the lower frame


13


of the casing


10


. While the reclaimed molding sand


2


descends toward the lower frame


13


of the casing


10


, it is guided toward the reclaimed molding sand extrusion port


16


by the rotational blowing force of the impeller


26


and the air exhausted through the lower disc


26




c


and the tuyere


25




b


of the impeller


26


. Accordingly, the reclaimed molding sand


2


can be re-used as a new molding sand after having accomplished introducing it into a storage tank (not shown) or a separate collect tank (not shown) for the reclaimed molding sand


2


.




Fine powders of the coking agents segregated from the surface of the used molding sand


1


during performing the process of reclaiming molding sand has a very light weight. Accordingly, they can be smoothly guided toward the dust collecting port


15


together with external air exhausted through the tuyere


25




b


and then they are exhausted from the casing


10


to the outside. These fine powders of the coking agents are collected at a dust collecting device (not shown) disposed in fluid-communicated with the dust collecting port


15


and then they are thrown away.




As described above, in the apparatus for and the method of reclaiming molding sand according to the preferred embodiment of the present invention, the used molding sand is charged into the casing


1


and continuously is dropping onto the upper surface of the upper disc


26




b


of the impeller


26


during rotation of the impeller


26


at a high rotation speed. The used molding sand


1


is primarily reclaimed due to collision between the used molding sand


1


and the rotatable grinding drum


31


. Continuously one used molding sand, which is generated during descending of the used molding sand


1


along the inner peripheral surface of the rotatable grinding drum


31


at a spiral trace, and another used molding sand, which is generated during proceeding a mutual frictional rolling contact between the used molding sand


1


and the rotatable grinding drum


31


are secondarily reclaimed. Accordingly, it is possible to process the used molding sand


1


into reclaimed molding sand


2


with only once performing the reclaiming process by using the apparatus for reclaiming molding sand according to the preferred embodiment of the present invention.




Furthermore, since the used molding sand


1


is sprayed from the dropping point on the upper disc


26




b


toward an inner circumference wall of the rotatable grinding drum


31


due to centrifugal force applying to the upper disc


26




b


as a result of the impeller


26


's rotation, the rotatable grinding drum


31


is not worn and the molding sand is not damaged relative to the conventional apparatus for reclaiming molding sand using the reclaiming technique, in which the used molding sand


1


is directly sprayed onto a grinding piece with the aid of compressed air.




In addition, it is possible to completely remove the coking agents sticking on the surface of the used molding sand


1


by using the collision and the mutual frictional rolling contact between the used molding sand


1


and the rotatable grinding drum


31


relative to the conventional apparatus for reclaiming molding sand as just described above.




More particularly, since the used molding sand


1


can be closely contacted with the inner peripheral surface of the rotatable grinding drum


31


with the aid of external air being exhausted toward the tuyere


25




b


in accordance with the rotation of the impeller


26


, it is possible to enhance the operational efficiency for removing the coking agents due to the mutual frictional rolling contact between the used molding sand


1


and the rotatable grinding drum


31


. Also, since the surface of molding sand without having the coking agents thereon is trimmed round, it is possible to remarkably enhance the quality of the reclaimed molding sand.




By only rotating the impeller


26


, the used molding sand


1


is uniformly sprayed toward the inner circumference wall of the rotatable grinding drum


31


and then it is reclaimed during collision and mutual frictional rolling contact between the used molding sand


1


and the rotatable grinding drum


31


. In addition, the remaining coking agents sticking on the used molding sand


1


are completely removed and continuously collected and thereafter they are exhausted from the casing


10


to the outside by using a collecting device (not shown).




Since the inlet pipe for introducing external air used for exhausting fine powder of the coking agents toward the dust collecting port


15


is formed in the rotational shaft


25


of the impeller


26


, the total structure of the apparatus for reclaiming molding sand according to the present invention is very simple. Accordingly, it is possible to reduce the total volume of the apparatus for reclaiming molding sand.




While the present invention has been particularly shown and described with reference to a particular embodiment thereof, it will be understood by those skilled in the art that various changes in form and detail may be effected therein without departing from the spirit and scope of the invention as defined by the appended claims.



Claims
  • 1. An apparatus for reclaiming molding sand having a casing constituted of a disc-shaped upper frame, a cylindrical middle frame and a disc-shaped lower frame, which are integrally formed together, in which a hopper for throwing used molding sand in the casing is installed at the upper frame of the casing, a dust collecting port for collecting and exhausting fine powders of coking agents segregated from used molding sand is installed at the upper frame, a reclaimed molding sand extrusion port for extruding reclaimed molding sand from the casing is installed at the lower frame of the casing, a rotational shaft is disposed in operative association with a motor at the center of the casing, vertically passing through the upper frame and the lower frame, characterized in that:an impeller including a plurality of blades is disposed on the rotational shaft, the blades being formed at an outer peripheral surface of the rotational shaft and extending radially outwards at a predetermined length, in which an upper disc and a lower disc are formed at an upper end and a lower end of the blades, respectively, a tuyere is formed through the center portion of the impeller between the blades of the impeller and is fluid communicated with an inlet pipe extending from the outside of the casing into the casing along the rotational shaft, a cylindrical grinding drum made of a grinding stone is disposed between the impeller and the middle frame of the casing, the grinding drum being spaced from radial free ends of the upper discs and the lower discs and being spaced from the middle frame at a predetermined distance.
  • 2. In a method of reclaiming molding sand, of the type wherein a used molding sand is formed by crushing a lump of molding sand segregated from a molding box and is consequently reclaimed by removing coking agents sticking on a surface of the used molding sand, the improvement comprising:rotating an impeller disposed in a rotatable grinding drum made of a cylindrical grinding stone, the impeller being spaced from the rotatable grinding drum at a predetermined distance, said rotatable grinding drum being installed within a casing; introducing air into the casing through an inlet pipe of a rotational shaft disposed in operative association with a motor at the center of the casing, said inlet pipe being in fluid communication with a tuyere formed through the center portion of the impeller between the blades thereof; removing the coking agents from the surface of the used molding sand due to collision and a mutual frictional rolling contact between the used molding sand and the rotatable grinding drum with the aid of rotational force of the impeller after having accomplished charging the used molding sand toward the impeller; and exhausting fine powders of the coking agents, which are segregated from the used molding sand, through a dust collecting port together with the external air that was introduced into the casing through the inlet pipe of the rotational shaft.
  • 3. An apparatus for reclaiming molding sand comprising:a casing constituted of a disc-shaped upper frame, a cylindrical middle frame and a disc-shaped lower frame, which are integrally formed together; a dust collecting port for collecting and exhausting fine powders of coking agents segregated from used molding sand installed at the upper frame; a reclaimed molding sand extrusion port for extruding reclaimed molding sand from the casing installed at the lower frame of the casing; a rotational shaft disposed in operative association with a motor at the center of the casing and vertically passing through the upper frame and the lower frame; and an impeller including a plurality of blades disposed on the rotational shaft, the blades being formed at an outer peripheral surface of the rotational shaft and extending radially outwards at a predetermined length, in which an upper disc and a lower disc are formed at an upper end and a lower end of the blades, respectively, a tuyere being formed through the center portion of the impeller between the blades of the impeller and in fluid communication with an inlet pipe extending from the outside of the casing into the casing along the rotational shaft.
  • 4. The apparatus as set forth in claim 3, further comprising:a cylindrical grinding drum made of a grinding stone disposed between the impeller and the middle frame of the casing, the grinding drum being spaced from radial free ends of the upper discs and the lower discs and being spaced from the middle frame at a predetermined distance.
  • 5. The apparatus as set forth in claim 3, further comprising:a hopper installed at the upper frame of the casing for throwing used molding sand in the casing.
Priority Claims (1)
Number Date Country Kind
2001-65961 Oct 2001 KR
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Number Name Date Kind
4089081 Jacob May 1978 A
4436138 Kondo Mar 1984 A
5045090 Pohl Sep 1991 A
5062470 Rikker Nov 1991 A
5515907 Boenisch May 1996 A
5706879 Renner et al. Jan 1998 A
6401798 Kondo Jun 2002 B1
6516863 McVane Feb 2003 B2