KR101899287B1 - Cooling, Sorting and Dust Collecting Apparatus for Molding Sand - Google Patents

Abstract

The present invention relates to an apparatus for cooling, sorting and removing dust of molding sand. More specifically, to produce molding sand, a process of washing and rinsing material sand and a process of heating washed sand to dry the sand are needed, and a process of cooling, sorting and removing dust powder of the heated and dried sand is needed. The present invention provides an apparatus to cool sand heated and dried in a molding sand production process, sort the sand in accordance with grain sizes, and remove dust powder. A cooling process, a sorting process, and a dust powder removal process are simultaneously performed by a single apparatus to greatly reduce facility investment expenses, production time, labor costs, and energy costs caused by molding sand production. According to the present invention, the apparatus for cooling, sorting and removing dust of molding sand comprises: a sand feeding port to drop the heated and dried sand transported from a drier downwards; a cooling sorter to cool the heated and dried sand dropped from the sand feeding port, and sort the sand in accordance with grain sizes; and a dust suction device to suck dust produced by the cooling sorter to discharge the dust.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for cooling, sorting,

The present invention relates to an apparatus for cooling, sorting and removing fine powders of cast sand. In order to produce casting sand, it is necessary to wash and rinse raw sand, and to heat and dry the washed sand. The sand dried and heated is then cooled and sorted, and the powder is removed The present invention relates to an apparatus for sorting the sand dried and dried in the process of casting sand while removing the pulverized powder according to the particle size.

In general, a casting method is a method in which a metal is heated to a melting point temperature to form a molten metal, and then molten metal is poured into a mold which is formed in the same shape as the product to be manufactured and the molten metal is cooled and solidified in the mold, And it is an important field of metal processing as a manufacturing method.

The most widely used casting material serving as a mold for molding in such a casting method is foundry sand (casting sand) whose main component is silica sand excellent in fire resistance. A brief examination of the process of making mold with sand casting is as follows: sand with a particle size of about 20-70 mesh (Mesh) is added with 4-8% of clay and 2 ~ 6% After the sand is made, it is put into the inside of the casting mold in which the original mold is placed and hardened and hardened to complete the mold.

As described above, silica sand or sand is widely used as such a casting sand. However, raw sand collected from rivers and seas has a rough shape, irregular shape, insufficient fluidity, and poor filling ability. For this reason, it is necessary to sufficiently remove the foreign matter adhering to the sand surface and to soften the surface of the irregular shape. If the mold is formed by using the silica sand not subjected to the polishing process, the surface of the mold is rough, It comes out. Since casting products produced by using such casting sand must be reinforced by a polishing process in a post-process, burden of input of labor is increased, so raw sand collected from sea or river can not be used as casting sand.

Therefore, in order to make the raw sand as the cast sand, it is necessary to remove the foreign substances attached to the surface of the sand as well as remove the sharp edges of the irregular shape and to make it as a cleaning yarn through a process having a smooth surface, The cleaning liquor after the grinding process is made into a Resin Coated Sand which is dried and coated with a resin on the sand surface, and then the RCS is used as cast sand.

On the other hand, the raw sand removed from the surface by the grinding process is contaminated with foreign matter and soil which are separated from the grinding process. Therefore, it is necessary to separate the foreign matter and the soil component by rinsing before drying. If the sand that has not been rinsed is dried as it is, the soil is mixed with foreign matter in the sand. Therefore, in order to produce high-quality sand for casting, a rinse process is required after rinsing with a clean rinse.

However, since the raw sands which have been subjected to the baking, washing and rinsing processes are in a state of being wet by water, they are required to be dried. However, since natural drying requires a long time and also requires a large area drying area, . Also, since it needs to be mixed up for quick drying, there is a lot of labor costs and equipment operation costs, so the production cost is inevitably increased. Therefore, most of them are artificially heated and dried.

Thus, the dried raw sand needs to be subjected to the following process: a coating process for coating the sand surface with resin, a cooling process for cooling the raw sand again to room temperature, and a screening process using sand having an appropriate particle size And a fine particle removal process for removing fine powder mixed with sand, and a cooling device, a sorting device, and a fine powder removal device are required for the separation process. However, it takes a lot of time to carry out such a process, and there has been a problem that the equipment investment cost, the energy cost, and the labor cost required for installation and operation of each device are large.

In order to solve the above-mentioned problems, the apparatus for cooling, sorting, and removing fine casting sand according to the present invention is characterized in that, by heating artificially in a drying process during casting sand production process, A device for the purpose of sorting and removing the pulverized powder, wherein a single device can simultaneously perform a cooling process, a sorting process, and a fine particle removal process, whereby the investment cost, time, labor cost and energy cost And so on.

In order to accomplish the above object, the apparatus for cooling, sorting and removing fine powder of casting sand according to the present invention is characterized in that the sand dried and heated in the casting sand production process is cooled while being sorted according to the particle size, An apparatus for removing dust, comprising: a sand inlet for dropping the heated and dried sand conveyed from a drier downward; a cooling separator for sorting the dried and dried sand falling from the sand inlet according to a particle size, And a fine particle aspirator for sucking and discharging the fine particles generated in the separator, wherein the cooling separator has a rectangular column shape with one longitudinal side open at its entire length, and a closed air duct is formed along the longitudinal direction on the opposite side of the open side A housing having a widthwise cross-section " F " shape, and a first screen, a second screen, Wherein the housing is supported by a plurality of supports such that the open face is an upper face and is inclined along the longitudinal direction so that the lower side of the sand inlet is higher, Wherein the first screen is formed with a mesh net having a first size so as to filter out impurities from the heated and dried sand and to drop downwardly and to cover half the length of the open surface And the second screen is configured to drop down a predetermined size or less of the heated and dried sand and downward to a predetermined size or more, A mesh screen having a first size and a second size so that the first screen and the air Wherein the second size is smaller than the first size, the air duct has a cooling air inlet formed on one side thereof, and the upper surface is the airbed, And a plurality of air nozzles for spraying the cooling air are formed on the lower surface of the air bed, the plurality of air nozzles being cylindrical in shape with an upper end closed, And an air outlet is formed at an inner side of the cylindrical shape and downwardly inclined outwardly from the cylindrical shape, and the vibrating motor is disposed in the longitudinal direction of the housing Each of which is installed at the center of both sides thereof, and the micro-powder inhaler is installed above the cooling sorter, A dust collecting hood which is installed so as to be parallel to maintain a predetermined distance and is preferably characterized by containing one or more.

Further, in addition to the above-described features, each of the plurality of air nozzles may be a device for cooling, sorting, and removing fine powder, characterized in that the plurality of air nozzles are cylindrically shaped, having a wide upper end and a narrower bottom end and having an inverted trapezoidal vertical cross- And the upper end of each of the plurality of air nozzles is blocked by a shut-off cap screwed to the casting sand.

In addition, the apparatus for cooling, sorting and removing fine powder of casting sand according to the present invention is characterized in that, in addition to the above-mentioned features, the shut-off cap has a shape of a conical shape and the height of the conical shape is lower than the outlet height of the air outlet Wherein the upper end is closed and the lower end is opened, and a male screw portion is screwed with the air nozzle at an upper inner center portion, and the lower end height of the cylindrical shape Is lower than the outlet height of the air outlet.

In addition to these features, it is also preferable that the apparatus for cooling, sorting, and removing fine particles of the casting sand according to the present invention is characterized in that the air outlet is formed only in a downward oblique direction of the air bed.

As described above, the apparatus for cooling, sorting, and removing fine casting sand according to the present invention is characterized in that the sand dried and heated in the casting sand production process is cooled in a single apparatus and is sorted according to the particle size, It is possible to greatly reduce production cost, labor cost and energy cost as well as facility investment cost due to the production of cast sand. In addition, since impurities are filtered out on the first screen and the particle size is selected on the second screen, it is possible to carry out impurity removal and screening at the same time.

In addition, cooling air is introduced into the air duct and a plurality of air nozzles are formed on the air bed on the upper surface of the air duct to jet the cooling air from the air bed, thereby effectively cooling the heated and dried sand falling on the air bed It is effective.

In addition, since the air nozzle is threadedly coupled with the air bed, installation and maintenance can be facilitated. In addition, the air outlet formed in the air nozzle is formed so as to be inclined downward from the inside to the outside so that the sand falling on the air bed flows into the air duct It has an effect of preventing penetration.

In addition, the vibration motor is installed at both ends of the housing to vibrate the housing, thereby maximizing the effect of cooling, sorting, and removing fine particles. By arranging the dust collecting hood in parallel with the housing, There is an effect that it can be absorbed and discharged.

In addition, the upper end of the air nozzle may be a screw cap, and the shape of the shut-off cap may be a hat shape or a cylindrical shape so as to cover the outlet of the air spouting port, or the direction of the air spouting hole It is possible to more effectively prevent the sand falling on the air bed from penetrating into the air duct.

FIG. 1 is a side view showing the entire apparatus for cooling, sorting and removing fine particles of a casting sand according to the present invention.
FIG. 2 is a partial cross-sectional view taken along line D-D 'of the apparatus for cooling, sorting and removing fine particles of the casting sand according to the present invention.
3 is a partial sectional view taken along line E-E 'of the apparatus for cooling, sorting and removing fine powder of cast sand according to the present invention.
FIG. 4 is a partial cross-sectional view of the apparatus for cooling, selecting and removing fine powder from the casting sand according to the present invention, taken along line A-A '(with the second screen removed)
5 is a partial cross-sectional view taken along line A1-A1 'of the apparatus for cooling, sorting and removing fine powder, according to the present invention.
6 is a partial cross-sectional view taken along line B-B 'of the apparatus for cooling, sorting and removing fine powder of cast sand according to the present invention (the first screen is removed)
FIG. 7 is a partial cross-sectional view of the apparatus for cooling, selecting and removing fine powder, according to the present invention, viewed from the side of B1-B1 '.
8 is a partial cross-sectional view taken along line C-C 'of the apparatus for cooling, sorting and removing fine powder of casting sand according to the present invention (with the first screen and the second screen removed)
9 is a partial cross-sectional view of a device for cooling, screening and removing fine powder from a side view of a casting sand according to the present invention (a first screen and a second screen are removed).
FIGS. 10A to 10E show cross-sections of air nozzles in various embodiments of an air nozzle of an apparatus for cooling, sorting, and removing fine particles of cast sand according to the present invention.

Hereinafter, the present invention will be described in detail in order to clarify the objects and features described above, and those skilled in the art will readily understand the technical idea of the present invention. In describing the present invention, it is to be understood that any known technology related to the present invention has already been known in the art, and if a detailed description of the known technology is considered to unnecessarily obscure the gist of the present invention, It will be omitted.

In addition, although the term used in the present invention is selected as a general term that is widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, since the meaning is described in detail in the description of the relevant invention, It is to be understood that the present invention should be grasped as a meaning of a term that is not a name of the present invention. The terminology used in the description of the embodiments is used only to describe a specific embodiment, and is not intended to limit the embodiments. The singular expressions include plural expressions unless the context clearly dictates otherwise.

The embodiments are capable of various modifications and may have various additional embodiments, in which specific embodiments are shown in the drawings and are described in further detail in connection with the drawings. It should be understood, however, that the embodiments are not intended to be limited to the particular forms, but are to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the embodiments.

Expressions such as " first, " " second, " " first, " or " second, " and the like may be used to distinguish the various components of the embodiments. For example, the above expressions do not limit the order or importance of the components. That is, the above expressions can be used to distinguish one element from another, and expressions such as " including " or " including " And the like, and does not limit the one or more additional functions, operations, or components.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. FIG. 1 is a side view showing the entire apparatus for cooling, sorting and removing fine particles of a casting sand according to the present invention. As described above, the apparatus for cooling, sorting and removing fine powders of the casting sand according to the present invention is characterized in that, in the process of washing and drying for producing casting sand, the sand heated and dried at high temperature is cooled, As shown in FIG. 1, the apparatus for removing fine powder includes a sand inlet 100 for dropping heated and dried sand conveyed from a dryer (not shown) downward, A cooling separator 200 for separating the heated and dried sand according to the particle size while cooling the sand, and a cooling and sorting apparatus 200 for cooling and sorting the heated and dried sand, And a fine particle inhaler 300 for treating the air.

The sand inlet 100 may be directly connected to the dryer, and the sand may be conveyed through a separate conveying unit (not shown) in the dryer, It is also possible to adopt a structure in which the inlet port 100 is connected. As shown in FIG. 1, it is preferable that the sand inlet 100 continuously drop the sand heated and dried at a high temperature from one end of the cooling sorter 200 continuously. The fine particle suction device 300 may include at least one dust collecting hood 310 disposed above the cooling sorter 200 to be spaced apart from the upper surface of the cooling sorter 200 at regular intervals. The dust collecting hood 310 is connected to the dust collecting duct 320 and a dust collector (not shown) including a dust collecting pump (not shown) is connected to the end of the dust collecting duct 320.

On the other hand, the cooling separator (200) has a square columnar shape with a metal opening on one side in the longitudinal direction, and an air duct (250) sealed on the opposite side of the open side is formed along the longitudinal direction, The housing 210 includes a housing 210 and a first screen 220, a second screen 230, an air bed 240, and a vibration motor 270. The housing 210 includes a housing 210, The open surface is an upper surface and is supported by a plurality of supports 260 so as to be inclined along the longitudinal direction so that the lower side of the sand inlet 100 is higher and on one side in the width direction opposite to the lower side, It is preferable to include the outlet 280. FIG. 2 is a cross-sectional view taken along the line D-D '(see FIG. 1) of a device for cooling, sorting and removing fine powders of the casting sand according to the present invention. And FIG. 3 is a sectional view taken along the line E-E '(see FIG. 1) of the apparatus for removing fine particles. As shown in FIGS. 2 and 3, the first and second screens 220 and 230, The cross section of the air duct 210 and the air duct 240 are substantially " F "

As shown in FIGS. 1 to 3, the plurality of supports 260 are provided with a spring 262 so that vibration can be smoothly performed when the housing 210 is vibrated by the vibration motor 270 And a connecting member 261 for connecting the plurality of supports 260 to the plurality of supports 260 so as to improve the rigidity of the plurality of supports 260. [ Is more preferable. It is preferable that the vibration motor 270 is installed in the middle of both sides of the housing 210 so that both vibration motors are simultaneously oscillated in the same period and in the same direction. It is preferable to apply a force of vibration toward the upper side of the housing 210. This is because the first screen 220, the second screen 230 and the heated and dried sand, which is accumulated on the air bed 240, So that it is cooled slowly for as long as possible.

4 is a cross-sectional view of the apparatus for cooling, sorting and removing fine powder of cast sand according to the present invention, taken along the line A-A '(see FIG. 1), in which the second screen 230 is removed. 5 is a partial cross-sectional view taken along line A1-A1 '(see FIG. 4) of the apparatus for cooling, sorting and removing fine powder from the side of the casting sand according to the present invention, to be. Hereinafter, the first screen 220 will be described with reference to FIGS. 1, 4, and 5. FIG. As shown in the drawing, the first screen 220 is formed with a mesh net of a metal material having a first size 223 so as to filter out impurities from the heated and dried sand and allow only sand to drop downward , And an impurity outlet 221 is provided on one side of the housing 210 so as to be detachably attached to the housing 21 in such a size as to cover a half of the length of the open side of the housing 210 It is further preferable that a fence 222 having a predetermined height is formed on the rim of each of the four sides of the first screen 220 so that the sand and the impurities to be dropped do not overflow. The first screen 220 is poured onto the first screen 220 by the vibration of the vibration motor 270 and the second screen 220 is rotated by the vibration of the vibration motor 270, And the heated and dried sand falling on the first screen 220 is smoothly dropped to the lower side of the first screen 220 more smoothly by the vibration. In this process, The impurities exceeding the first size 223 do not drop but remain on the first screen 220 and descend along the inclined surface of the first screen 220 and are discharged to the outside through the impurity outlet 221 . The heated and dried sand piled on the first screen 200 or falling downward flows through the air duct 250, the air bed 240, and the second screen 230, .

6 is a cross-sectional view taken along line B-B '(see FIG. 1) of the apparatus for cooling, sorting and removing fine particles of cast sand according to the present invention, wherein the first screen 220 is removed, FIG. 7 is a partial cross-sectional view of the apparatus for cooling, sorting and removing fine powders of sand according to the present invention, viewed from the side, B1-B1 '(see FIG. 6) to be. Hereinafter, the second screen 230 will be described with reference to FIGS. 1, 6, and 7. FIG. As shown in the drawing, the second screen 230 is provided with a second screen 233 for dropping a predetermined size, that is, less than the second size 233, downward, and filtering the second size 233 or more, The first screen 220 and the air duct 250 are formed with a mesh network of metal having two sizes 233 and the same size as that of the opened surface of the housing 210, The second size 233 may be smaller than the first size 223. In this case, the heated and dried sand filtered by the impurities in the first screen 220 is poured on the second screen 230, and the second screen 230 is also rotated by the vibration of the vibration motor 270 The heat-dried sand from which the impurities are removed, which is dropped on the second screen 220, is vibrated more smoothly by the vibrations of the lower portion of the second screen 220 The sand passing over the second size 233 does not fall but remains on the second screen 230 so as to flow in a downward slanting direction and the sand having the second size 233 or less Only the air passes through the second screen 230 and falls onto the air bed 240 located below. In this process, the heat-dried sand piled on the second screen 230 or falling downward is cooled by the cooling air rising from the air duct 250 located below and the air bed 240 . The reason why the sand within a predetermined particle size is selected through the second screen 220 is that the casting sand should not be too small or too large and should be within a certain particle size. Normally, about 20 to 70 mesh is suitable, The size range may vary depending on the type.

As described above, the second screen 230 functions to filter the sand having a particle size exceeding a predetermined size. However, in order to use it as a casting sand, it is necessary to remove a certain amount of fine particles. Accordingly, in the apparatus for cooling, sorting and removing fine powder of casting sand according to the present invention, it is possible to effectively remove fine particles. In the apparatus for vibrating the first screen 220 and the second screen 230, The heated and dried sand falling down through the air duct 250 is scattered in the sand during the vibration and the falling of the sand, and the scattering fine particles are dispersed by their own temperature and through the air duct 250 and the air bed 240 And is lifted above the housing 210 by the rising cooling air. The scattered dusts thus raised are sucked into the dust collecting hood 310 of the powder inhaler 300 installed parallel to the housing 210. That is, in the apparatus for cooling, sorting, and removing fine powder of the casting sand according to the present invention, the cooling air is raised upward through the mesh screen of the first screen 220 and the second screen 230, The vibration motor 270 vibrates the housing 210 in order to smoothly drop the sand downward. These actions scatter and move the fine particles smoothly, and the ascending differentials are transmitted to the fine particle aspirator 300, It is possible to simultaneously perform cooling, sorting and differential suction by a single device as described above.

On the other hand, the heated and dried sand falling downwardly selected from the second screen 230 is dropped onto the air bed 240 and accumulated, and flows in a downward oblique direction due to the vibration of the air bed 240. This will be described with reference to Figs. 1, 8 and 9. FIG. 8 is a cross-sectional view taken along line C-C '(see FIG. 1) of the apparatus for cooling, sorting and removing fine powders of cast sand according to the present invention. 9 is a cross-sectional view taken along the line C1-C1 '(see FIG. 8) of the device for cooling, sorting and removing fine particles of the casting sand according to the present invention, The second screen 220 and the second screen 230 are removed. As shown in the above drawings, the air bed 240 is the upper surface of the air duct 250. The air bed 240 has a height corresponding to a lower surface of the silk discharge port 280 and a plurality of air nozzles 241 for spraying the cooling air are formed on the surface of the airbed 240. . In addition, a cooling air inlet 251 is formed on one side of the air duct 250, and the cooling air inlet 251 is connected to a cooling air generator (not shown) so that the cooling air generator continuously It is preferable that the cooling air is supplied and the supplied cooling air is blown to the surface of the air bed 240 through each of the plurality of air nozzles 241 via the air duct 250.

Therefore, the heated and dried sand falling on the second screen 230 and accumulated on the air bed 240 comes into contact with the surface of the air bed 240 cooled by the cooling air supplied to the air duct 250 The cooling air can be rapidly cooled by the cooling air ejected from each of the plurality of air nozzles 241 and cooled continuously while flowing in the downward inclination direction of the air bed 240 by the vibration, It is preferable that the water is discharged to the outside through the silicate discharge port 280 when the water flows downwardly. Therefore, the sand discharged to the outside through the silicate discharge port 280 will be cooled to a predetermined size or lower as well as the removal of fine particles.

10A to 10E are cross-sectional views of various embodiments of the air nozzle 241 used in an apparatus for cooling, sorting, and removing fine particles of cast sand according to the present invention. As shown in FIG. 10A, each of the plurality of air nozzles 241 has a cylindrical shape with an upper end closed. The lower end of the air nozzle 241 is opened to communicate with a plurality of holes formed in the air bed 240, It is preferable that the air outlet 242 is formed so as to be fixed to each of the plurality of holes by a screw connection S and be inclined downward from the inside of the cylindrical shape. Further, in the apparatus for cooling, sorting, and removing fine powder of the casting sand according to the present invention, the air outlet 242 formed in the air nozzle 241 is formed to be inclined downward from the inside of the cylindrical shape, It is possible to prevent the heated and dried sand from penetrating into the air duct 250 through the air outlet 242. [ 10B, each of the plurality of air nozzles 241 may be formed into a cylindrical shape having a wide upper end and a narrower bottom end and having an inverted trapezoidal vertical section, as shown in FIG. 10B, Since the upper end of the air nozzle 241 serves as a kind of roof as well as the inclination of the discharge port 242 is further strengthened, it is possible to more effectively prevent the heat-dried sand pouring from above from penetrating into the air duct 250 .

Further, as shown in FIG. 10C, the air nozzle 241 may have a cylindrical structure with an open bottom, a female screw portion formed in an upper portion of the cylindrical shape, (S) of the shutoff cap 243a formed with the male thread portion. In this case, maintenance can be easily performed when the air nozzle 240 is blocked, and when the outer diameter of the shutoff cap 243a is increased, the air nozzle 240 acts as a kind of roof, It is possible to more effectively prevent the invasion of sand.

10D and 10E illustrate another embodiment of the shutoff cap 243. As shown in FIG. 10D, the shutoff cap 243 may be formed as a cap shape 243b. In this case, It is preferable that the rim height h2 of the sash shape 243b from the surface of the air discharge port 240 is lower than the outlet height h1 of the air discharge port 242. In this case, The cooling air blown out through the air outlet 242 is collected from the inside of the sash shape 243b so that the cooling air is directed toward the surface of the air bed 240 So that the cooling efficiency can be further improved.

10E, the cutoff cap 243 is a cylindrical cutoff cap 243c having a larger diameter than the air nozzle 241. The upper end of the cylindrical cutoff cap 243c is closed and the lower end is opened, And a male screw portion that is screwed (S) to the air nozzle 241 may be formed at the center of the upper inner side. The lower end height h2 of the cylindrical cutoff cap 243c is preferably lower than the outlet height h1 of the air outlet 242. In this case, It is possible to more effectively prevent the infiltration of sand by the air outlet 242 and also the cooling air ejected through the air outlet 242 is collected from the inside of the cylindrical cutoff cap 243c and descends downward, Is more concentratedly sprayed toward the surface of the air bed 240, so that the cooling efficiency can be further improved.

Meanwhile, in the apparatus for cooling, sorting, and removing fine powder of the casting sand according to the present invention, the air outlet 243 formed in the air nozzle 241 may be formed only in the downward oblique direction of the air bed 240 In this case, it is possible to effectively prevent the heated and dried sand from flowing in the downward inclination direction of the air bed 240 and entering the air outlet 243.

Although the present invention has been described with reference to the above examples, the present invention is not necessarily limited to these examples, and various modifications may be made without departing from the scope of the present invention. Therefore, the examples disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100 sand inlets
200 Cooling selector
210 housing 220 first screen
230 Second Screen 240 Airbed
250 Air duct 260 support
270 Vibrating motor 280 Silicone outlet
300 differential inhaler
310 Dust Hood 320 Dust Duct

Claims (6)

A sand casting machine for sanding heat dried sand during casting sand production, comprising: a sand loading port for dropping the heated and dried sand conveyed from a dryer downward; And a fine particle aspirator for sucking and discharging the fine particles generated in the cooling separator;
The cooling separator includes a housing having a rectangular column shape with one longitudinal side opened, and a sealed air duct formed along the longitudinal direction on the opposite side of the opened side, the housing having a widthwise cross section of a " A second screen, an air bed, and a vibration motor,
The housing is supported by a plurality of supports such that the open face is an upper face and is inclined along the longitudinal direction so that a lower side of the sand inlet is higher and a quartz outlet is provided on a lower width side of the housing In addition,
The first screen is formed with a mesh net having a first size so as to filter out impurities from the heated and dried sand and to drop downward, And an impurity outlet formed on one side surface of the substrate,
The second screen is formed with a mesh net having a second size so as to drop downward below a predetermined size of the heated and dried sand and to filter out the predetermined size or more, Wherein the first size is smaller than the first size, and the second size is smaller than the first size,
- the air duct has a cooling air inlet formed on one side thereof and the air bed on the upper side,
The airbag has a height coinciding with a lower surface of the silk outlet, and a plurality of air nozzles for spraying the cooling air are formed,
Each of the plurality of air nozzles has a cylindrical shape with an upper end clogged. The lower end of the air nozzle is open to communicate with each of a plurality of holes formed in the air bed, and a screw thread is formed on the outside, An air outlet is formed downwardly from the inside of the cylindrical shape to the outside,
The vibration motors are installed at the center of both longitudinal sides of the housing;
Wherein the micro-powder inhaler includes at least one dust-collecting hood installed above the refrigerating machine and installed at a predetermined interval in parallel with the opened surface; A device for cooling, sorting and removing fine powders of cast sand The method according to claim 1,
Characterized in that each of the plurality of air nozzles is a cylindrical shape having a wide upper end and a narrow bottom end and having an inverted trapezoidal vertical cross-section, a device for cooling, sorting and removing fine particles The method according to claim 1,
Characterized in that the upper end of each of the plurality of air nozzles is clogged by a shut-off cap screwed into it. The method of claim 3,
Wherein the cut-off cap has a shape of a sash and the height of the sash-like rim is lower than the height of the outlet of the air discharge opening. The apparatus for cooling, sorting, The method of claim 3,
Wherein the cut-off cap has a cylindrical shape having a larger diameter than the air nozzle, the upper end being closed and the lower end opened, and a male screw portion being screwed with the air nozzle at a center of the upper inner side, Characterized in that the casting sand is lower than the outlet height 6. The method according to any one of claims 1 to 5,
Characterized in that the air outlet is formed only in a downward oblique direction of the air bed.

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