KR101063435B1 - Foundry sand chiller with rapid heat exchange - Google Patents

Abstract

The present invention relates to a foundry sand cooling device, and in particular, a plurality of foundry sand moving pipes are formed vertically in a chamber in which a cooling water and a cooling device are formed, and the foundry sand cooling device is configured to achieve rapid and reliable cooling by dropping feed sand into each of the moving pipes. It is about. In the molding sand cooling apparatus, the upper and lower hopper is formed in the upper and lower hopper, the lower portion of the upper hopper and the upper cooling space and the lower cooling space formed a cooling device for continuously cooling the cooling water to the side A chamber formed between the upper cooling space and the lower cooling space to form a hollow part for soft landing falling of the foundry sand falling through the upper cooling space; A plurality of upper and lower casting sand moving tubes vertically formed in the upper cooling space and the lower cooling space of the chamber to receive and cool down the supplied molding sand; A conveying apparatus formed by being in contact with a molding sand outlet formed in a lower surface of the lower cooling space of the chamber to transfer the molding sand which is removed by passing heat through the upper and lower casting sand moving tubes; Characterized in that comprises a.

Foundry sand, chiller, heat exchange, drop

Description

The molding sand cooling apparatus has the heat exchange function is quick}

The present invention relates to a foundry sand cooling device, and in particular, a plurality of foundry sand moving pipes are formed vertically in a chamber in which a cooling water and a cooling device are formed, and the foundry sand cooling device is configured to achieve rapid and reliable cooling by dropping feed sand into each of the moving pipes. It is about.

In general, castings and foundries have a casting method using a molding sand or foundry sand mixed with refractory clay or a chemical caking agent, and a burnt-down casting method using a casting sand or a foundry sand without mixing a caking agent. Molded sand and foundry sand are collectively called foundry sand)

Among the foundry sands, the foundry sand used in the burnout model casting method is put into a mold making place, that is, a styrofoam model coated with a mold in a pattern shop, and filled with the foundry sand sprayed from the foundry sand storage tank into By using a vibration motor to lightly compacted to form a formwork by vacuuming the interior of the molding tank with a vacuum pump.

Foundry sand used as molds for casting production absorbs hot heat during injection of molten metal, so it must be cooled for rapid reuse.

Conventional foundry sand cooling device supplies a high temperature foundry sand used in the manufacture of casting into a chamber in which a plurality of cooling pipes in which the coolant or refrigerant flows in a transverse direction is formed, and then uses a blower fan or the like to cool the conveying pipe to reduce the Due to the severe wear and shortening of the service life of the pipe, a large amount of casting sand is cooled as it passes through the cooling pipe, so that the contact between the cooling pipe and the casting sand is narrow and uneven, which reduces cooling efficiency and also vibrates slowly in the lateral direction. Since it has to be transported, there is a problem that it is difficult to quickly reuse because the cooling work takes a long time.

Accordingly, the present invention was created to solve the above problems, an object of the present invention is to improve the structure of the cooling device to increase the cooling efficiency in the four-way contact between the cooling water and the casting sand to increase the high temperature casting sand passing through the cooling space The purpose is to allow cooling in a shorter time.

The present invention for achieving the above object in the foundry sand cooling device, the upper and lower hopper is formed, the lower portion of the upper hopper forming a cooling device for continuously cooling the cooling water to the side A chamber which is divided into an upper cooling space and a lower cooling space and has a hollow portion for soft landing falling of the foundry sand falling through the upper cooling space between the upper cooling space and the lower cooling space; A plurality of upper and lower casting sand moving tubes vertically formed in the upper cooling space and the lower cooling space of the chamber to receive and cool down the supplied molding sand; A conveying apparatus formed by being in contact with a molding sand outlet formed in a lower surface of the lower cooling space of the chamber to transfer the molding sand which is removed by passing heat through the upper and lower casting sand moving tubes; Characterized in that comprises a.

Optionally, the conveying apparatus is characterized by consisting of a molding sand feed pipe, a screw formed inside the foundry sand feed pipe, and a motor for rotating the screw.

The upper and lower casting sand moving tube is formed of any one of the diameter is formed narrower than the top diameter, the diameter of the top and the bottom is the same, or formed in the form of a bottleneck in the middle, such as an hourglass.

The inside of the chamber is characterized in that the molding sand discharge guide portion of the hatshade or pyramid shape for smooth and easy discharge of the molding sand is formed.

The upper hopper portion and the hollow portion of the chamber is characterized in that the level gauge for controlling the operation of the feed device and the transfer device of the molding sand in conjunction with the level of the molding sand supplied.

As described above, the present invention increases the contact area of the cooling water and the foundry sand and at the same time improves the cooling efficiency by even contact, and changes the diameters of the inlet and the outlet for the injection of the foundry sand and at the same time forms the casting sand moving tube vertically. Therefore, the rapid and smooth cooling discharge of the foundry can be achieved, thereby achieving the effect of rapid reuse.

In addition, the present invention can achieve a smoother and easier casting production work by the rapid heat exchange of the foundry has the effect of improving the work efficiency.

Hereinafter, a preferred embodiment of the foundry sand cooling device having a rapid heat exchange function according to the present invention will be described in detail with reference to the accompanying drawings.

Here, in all the drawings below, the components having the same functions are not repeated, using the same reference numerals, and the following terms are defined in consideration of functions in the present invention, which are inherently commonly used. It should be interpreted as meaning.

1 is an exploded perspective view showing a molding sand cooling apparatus according to a preferred embodiment of the present invention, Figure 2 is a perspective view showing a coupling state of Figure 1, Figure 3 is a cross-sectional view of the main portion A-A line of FIG. And, Figure 4 is a state diagram used in the foundry sand cooling apparatus according to a preferred embodiment of the present invention.

As shown in Figures 1 to 4 the present invention is the chamber 110 and the upper and lower casting sand moving pipe (130a), 130b, the molding sand discharge guide portion (160a), (160b) and the molding sand feeder 170 This is done roughly.

The chamber 110 is formed with an upper hopper portion 110a and a lower hopper portion 110b of a wide square and a cylindrical cylinder, which are wide at the top and narrow at the bottom, for easy supply and continuous discharge of the foundry sand.

In addition, the chamber 110 includes a plurality of diaphragms 112a, 112b, and 113a in which the upper cooling space 112 and the lower cooling space 113, in which the coolant CW is stored, for fast and efficient cooling of the foundry sand. ), 113b are formed independently of each other, the hollow portion 111 in the middle between the upper cooling space 112 and the lower cooling space 113, that is, between the diaphragm 112b and the diaphragm 113a. ) Is formed.

In addition, one side of the upper hopper 110a to continue the operation of the drive unit 181 of the foundry sand feeder 180 when the level of the foundry sand fed by the supply device 180 for supplying the foundry sand falls below the threshold. To continue supplying the foundry sand, and when the level of the foundry sand remains above the threshold value, a level gauge 140a is formed to stop the operation of the driving unit 181 to stop the supply of the foundry sand for a while. On one side, if the level of the foundry sand that passes through the upper foundry sand moving tube (130a) formed in the upper cooling space 112 falls below a threshold, the operation of the motor 173 of the foundry sand feeder 170 is stopped, the foundry sand If the level of is maintained above the threshold value level gauge 140b is formed so that the rotation operation of the motor 174 is continued to transfer the molding sand.

Here, the level gauges 140a and 140b may be selectively used in various forms as necessary, and thus detailed description thereof will be omitted.

Meanwhile, cooling devices 150 are formed in the upper cooling space 112 and the lower cooling space 113 to maintain the stored cooling water CW at a constant low temperature even after heat exchange with the foundry sand.

The cooling device 150 is, for example, a coolant induction pipe forming a coolant inlet 151 for introducing a coolant supplied by a coolant supply means (not shown) and a coolant outlet 152 through which the introduced coolant is discharged and circulated. .

In addition, the cooling device 150 is preferably disposed evenly between the upper, lower casting sand moving pipe (130a, 130b) to cool the cooling water more efficiently.

Such a cooling device 150 is a conventional one, and a detailed description thereof will be omitted.

The upper and lower casting sand moving pipes 130a and 130b are formed of cylindrical pipes or square pipes using a metal material such as stainless steel so as to be resistant to damage due to corrosion and impact caused by moisture or the like.

In addition, the upper and lower casting sand moving pipe (130a), 130b is to prevent the rapid drop (movement) of the supplied casting sand and the lower diameter of the casting sand is discharged than the upper diameter injection molding sand for continuous, smooth and efficient cooling It is preferable to form a little narrow, but not limited to this, if necessary, the diameter of the top and bottom may be the same, or may be formed in the form of a bottleneck in the middle, such as an hourglass.

In addition, the upper and lower casting sand moving pipe (130a), 130b is fixedly formed by a plurality of vertically positioned at a predetermined distance from each other in the interior of the upper cooling space 112 and the lower cooling space 113, After the heat is used to manufacture the casting, it is made to cool the hot casting sand due to heat exchange with the cooling water (CW) stored in the upper cooling space 112 and the lower cooling space 113 while passing through the hot casting sand supplied.

Here, the number, diameter, and arrangement state of the upper and lower casting sand moving tubes 130a and 130b are not limited because they vary depending on the capacity of the upper cooling space 112 and the lower cooling space 113.

In addition, the plurality of upper and lower casting sand moving tubes (130a, 130b) fixed in the upper cooling space 112 and the lower cooling space 113 may be fixed to be inclined, but in an embodiment of the present invention to be vertical Fixed.

This is because the upper and lower casting sand moving pipe (130a, 130b) is uniformly disposed in the interior of the upper cooling space 112 and the lower cooling space 113, the cooling speed of the molding sand is faster and the cooling efficiency is improved. It was made possible.

The casting sand discharge guide portion (160a), 160b, to prevent the blockage of the discharge port 114 by the concentrated drop due to the rapid drop of the casting sand to form a sand hat or pyramid to disperse the falling sand to achieve a quick and smooth discharge It is preferable to form in a mold.

However, the foundry sand discharge guide portion 160a, 160b may be formed in various forms without being limited thereto.

In addition, a plurality of discharge holes may be formed in the foundry sand discharge guide parts 160a and 160b in order to more easily distribute and fall the foundry sand.

The casting sand discharge guide parts 160a and 160b are installed at the lower portion of the hollow part 111 and the lower cooling space 113 of the chamber 110, that is, the lower hopper part 110b. It is possible to smoothly and quickly discharge to the discharge port 114 by preventing the dropping phenomenon by dispersing the casting sand intensively falling through the moving pipes (130a) and (130b) in all directions.

The outlet 114 may be provided with a valve (not shown) for controlling the discharge of the foundry sand.

The molding sand conveying apparatus 170, the molding sand conveying pipe 171 is formed in communication with the molding sand outlet 114 of the chamber 110, and the molding sand is formed in the foundry sand conveying pipe 171 to transport the sand It consists of a screw 172 which is rotationally interlocked by a motor 173 as a power source.

The operation state of the present invention having the above-described structure will now be described.

First, when the high temperature foundry sand used in the foundry work is introduced from the upper side of the chamber 110 by using the foundry feeder 180 having the driving unit 181, the foundry sand is deposited into the upper hopper portion 110a and at the same time. The upper and lower casting sand moving pipes 130a and 130b formed in the upper cooling space 112 are dropped.

At this time, the outer circumferential surface of the upper casting sand moving tube (130a) to move the high temperature molding sand is in contact with the cooling water (CW) stored in the upper cooling space (112) in all directions to the casting sand is located inside the heat of the casting sand is cool cooling water Primary cooling with heat exchange with

Subsequently, the foundry sand which is moved through each of the upper foundry sand moving tubes 130a formed in the upper cooling space 112 is scattered in all directions while being in contact with the foundry sand discharge guide part 160a, thereby being dispersed and dropped. Accordingly, the casting sand is prevented from being dropped due to the concentrated drop, and is smoothly and quickly dropped evenly to the hollow portion 111, and then is inserted into and dropped into each of the lower casting sand moving pipes 130b formed in the lower cooling space 113. .

At this time, the foundry heat-exchanged primary heat in the upper cooling space 112 is secondly cooled while in contact with the cooling water (CW) stored in the lower cooling space (113).

Next, the casting sand completely cooled through each of the lower casting sand moving pipes 130b formed in the lower cooling space 113 is scattered in all directions while being in contact with the casting sand discharge guide part 160b formed in the lower hopper part 110b. do. Accordingly, the casting sand is prevented from being pulled out due to the concentration drop, and is smoothly and quickly discharged to the outlet 114.

At this time, by the level gauge 140a formed on one side of the upper hopper portion 110a, when the level of the foundry sand supplied by the supply device 180 falls below a threshold, the driving unit 181 of the foundry sand supply device 180. Continuously supplying the molding sand to continue the operation, if the level of the molding sand is maintained above the threshold value stops the operation of the drive unit 181 to temporarily stop the supply of the molding sand, the level gauge formed to one side of the hollow portion 111 By the 140b is measured in the level state that the casting sand falls to the hollow portion 111 is dropped below the threshold value to stop the motor 173 operation of the casting sand feeder 170 to stop the transfer of the molding sand On the contrary, if the level of the foundry sand maintains a level higher than or equal to the threshold value, the operation of the motor 173 continues and the transfer of the foundry sand continues.

Foundry sand discharged through the outlet 114 is transferred to the necessary place through the transfer device 170.

That is, the casting sand discharged by cooling is rotated by the screw 172 which is rotated and interlocked with the motor 173 of the transfer apparatus 170 and is transferred to one side of the transfer tube 171.

By this operation, the casting sand can be quickly and easily cooled and discharged, thereby maximizing the cooling efficiency.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. And will be apparent to those skilled in the art to which the invention pertains.

1 is an exploded perspective view showing a molding sand cooling apparatus according to a preferred embodiment of the present invention.

2 is a perspective view showing a coupled state of FIG.

3 is a sectional view taken along the line A-A of FIG. 2.

Figure 4 is a state diagram used in the foundry sand cooling apparatus according to a preferred embodiment of the present invention.

[Description of Reference Numerals]

100: casting sand cooling device 110: chamber

110a: upper hopper portion 110b: lower hopper portion

111: hollow 112: upper cooling space

113: lower cooling space 130a: upper casting sand moving tube

130b: lower casting sand moving pipe 140a, 140b: level gauge

150: cooling device 151: refrigerant inlet

152: refrigerant outlet 160a, 160b: casting sand discharge guide portion

170: transfer device 171: transfer pipe

172: screw 173: motor

180: foundry sand supply device 181: drive unit

Claims (5)

In the foundry sand chiller, Upper and lower hoppers are formed at upper and lower hoppers, and the upper and lower hoppers are divided into upper cooling spaces and lower cooling spaces formed with a cooling device for continuously cooling the cooling water to the side. A chamber formed between the lower cooling spaces and a hollow portion for soft landing falling of the foundry sand falling through the upper cooling spaces; In the upper cooling space and the lower cooling space of the chamber, the lower end diameter is formed to be narrower than the upper end diameter to receive and cool down the supplied sand, or a plurality of upper and lower casting sands vertically formed in a bottleneck shape in the middle, such as an hourglass. A moving tube; Through the upper and lower casting sand moving pipe is formed in contact with the molding sand outlet formed in the lower surface of the lower cooling space of the chamber to transfer the heat is removed and discharged, the screw formed therein, and the motor to rotate the screw Conveying device made; Foundry sand cooling device having a rapid heat exchange function, characterized in that consisting of. delete delete delete delete

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