The present invention relates to an apparatus and a method for reclaiming foundry sand.
A method for washing returned foundry sand by water to reclaim returned foundry sand that has been used has been known (for example, see Japanese Patent Laid-open Publication Nos. S52-99924 and 2002-178100).
However, the method should be improved to effectively remove binders and so on that attach to the returned foundry sand.
In consideration of the above-mentioned facts, the object of the present invention is to provide an apparatus and a method for reclaiming foundry sand that can effectively remove binders and so on that attach to the returned foundry sand that has been used.
An apparatus for reclaiming foundry sand as the first aspect of the present invention comprises a container for treatment to which foundry sand that has been used is supplied. It also comprises a mechanism for generating frictional force that has a driver that rotates the container for treatment about a vertical axis. This mechanism generates frictional force on sand in the container for the treatment by rotating that container. It also comprises a container for washing with water that is located below the container for treatment and can have water supplied to and drained from it, which container for washing with water can receive sand that has been discharged from the container for treatment. It also comprises an agitator that has a shaft for agitation and blades for agitation. The shaft for agitation is connected to the driver to be rotated about a vertical axis. The blades for agitation are attached to the shaft for agitation and are located within the container for washing with water.
By the apparatus for reclaiming foundry sand as the first aspect of the present invention, the container for treatment to which foundry sand that has been used is supplied is rotated about a vertical axis by the driver of the mechanism for generating the frictional force. The mechanism for generating the frictional force rotates the container for treatment so that the frictional force is generated to the sand in the container for treatment. Thus incrustations on the surfaces of the particles of the sand are cracked so that some of the incrustations are removed from the surfaces of the particles of the sand. The container for washing with water that is located below the container for treatment can have water for washing supplied to and drained from it and receives the sand that has been discharged from the container for treatment. Inside the container for washing with water, the blades for agitation that are attached to the shaft for agitation are provided. The shaft for agitation is connected to the driver to be rotated about a vertical axis. Thus when water is supplied the agitator rotates so that incrustations, etc., that have been cracked are removed from the sand in the container for washing with water.
By the apparatus for reclaiming foundry sand as the second aspect of the present invention, in the apparatus of the first aspect the axis of rotation of the container for treatment is coaxial with the shaft for agitation.
By the apparatus for reclaiming foundry sand as the second aspect, wherein the axis of rotation of the container for treatment is coaxial with the shaft for agitation, while the space for the apparatus is reduced, a driving force is transmitted from the driver to the container for treatment and the agitator.
By the apparatus for reclaiming foundry sand as the third aspect of the present invention, in the apparatus of the first or second aspect the container for treatment is a cylindrical rotor with a horizontal bottom. Further, the mechanism for generating the frictional force has a ring that is adjacent to, and outside of, the upper end of the rotor. The ring has a plurality of blades that are circularly arranged and, in the planar view, incline opposite the direction of the rotation of the rotor in the inner radial direction.
By the apparatus for reclaiming foundry sand as the third aspect, wherein the container for treatment is a cylindrical rotor with a horizontal bottom, when the rotor rotates the particles of the sand that have been supplied to the rotor scrape each other and are deposited on the inner face of the side wall of the rotor by centrifugal force. The mechanism for generating the frictional force has a ring that is adjacent to, and outside of, the upper end of the rotor and has a plurality of blades that are circularly arranged and, in the planar view, incline opposite the direction of the rotation of the rotor in the inner radial direction. Thus the sand that is higher than the upper end of the rotor is hit by the blades, to thereby be returned inside the rotor and again the particles scrape each other. In this way, since the sand is hit by the blades and the particles scrape each other, incrustations on the surfaces of the particles of the sand are effectively cracked so that some of the incrustations are removed from the surfaces of the particles of the sand.
By the apparatus for reclaiming foundry sand as the fourth aspect of the present invention, in the apparatus of the first or second aspect the container for treatment is a drum that has a circular and horizontal bottom, an inclined side wall that inclines so as to have its diameter increase upwardly from the periphery of the bottom, and a weir that extends inwardly from the upper end of the inclined side wall. The mechanism for generating the frictional force has rollers that rotate in the drum. They are disposed to face each other such that gaps between parts of the outer faces of the rollers and the inclined side wall are formed. It also has a mechanism for pressing the rollers that is disposed at the bearings of the rollers to press the rollers toward the inclined side wall.
By the apparatus for reclaiming foundry sand as the fourth aspect, the container for treatment is a drum that has a circular and horizontal bottom, an inclined side wall that inclines to have its diameter increase upwardly from the periphery of the bottom, and a weir that extends inwardly from the upper end of the inclined side wall. Since in the mechanism for generating the frictional force the driver rotates the drum about a vertical axis, the particles of the sand that have been supplied to the drum scrape each other and are deposited on the inner face of the inclined side wall by centrifugal force.
The mechanism for generating the frictional force has rollers that rotate in the drum and are disposed to face each other such that gaps between parts of the outer faces of the rollers and the inclined side wall are formed. It also has a mechanism for pressing the rollers that is disposed at the bearings of the rollers to press the rollers toward the inclined side wall. Thus the sand that has been deposited on the inner face of the inclined side wall contacts the rollers to rotate them and to create the frictional force on the sand. Thus incrustations on the surfaces of the particles of the sand are cracked and some of the incrustations are removed from the particles of the sand. If the thickness of the sand that has been deposited on the inner face of the inclined side wall increases, the sand goes over the weir, to thereby be discharged.
The apparatus for reclaiming foundry sand as the fifth aspect of the present invention, in the apparatus of any of the first to fourth aspects, comprises an internally-located and horizontal board that is placed in the container for washing with water and connected to the lower end of the shaft for agitation via a bearing. It also comprises a section made of netting that connects the entire periphery of the internally-located board with the upper opening of the container for washing with water.
By the apparatus for reclaiming foundry sand as the fifth aspect, the periphery of the internally-located and horizontal board that is placed in the container for washing with water is connected to the upper opening of the container for washing with water by the section made of netting. Thus the sand that has been discharged from the container for treatment is received inside the section made of netting on the internally-located board that is placed in the container for washing with water. Thus by rotating the agitator while water is supplied to the container for washing with water, incrustations on the surfaces of the particles of the sand are scraped with the section made of netting. Thereafter, by rotating the agitator while water is drained from the container for washing with water, the scraped incrustations pass through the section made of netting with water to be discharged. Thus only the sand remains in the container for washing with water, and it is dried.
By the apparatus for reclaiming foundry sand as the sixth aspect of the present invention, in the apparatus of the fifth aspect, the container for washing with water is equipped with a vertically-moving machine that moves the container for washing with water up and down.
By the apparatus for reclaiming foundry sand as the sixth aspect, the container for washing with water is equipped with the vertically-moving machine that moves the container for washing with water up and down. Thus after being dried, the container for washing with water is moved down by the vertically-moving machine so that its top is opened. Then by rotating the agitator the sand that has been dried in the container for washing with water is discharged.
A method for reclaiming foundry sand as the seventh aspect of the present invention comprises a first step of feeding foundry sand that has been used to a section for treatment. It also comprises, after the first step, a second step of imparting frictional force or an impact to the sand in the section for treatment. It also comprises, after the second step, a third step of dropping the sand in the section for treatment into the container for washing with water that is located below the section for treatment. It also comprises, after the third step, a fourth step of washing the sand in the container for washing with water.
By the method for reclaiming foundry sand as the seventh aspect, in the first step foundry sand that has been used is supplied to the section for treatment. Next, in the second step frictional force or an impact is generated to the sand in the section for treatment. Next, in the third step, the sand in the section for treatment is dropped into the container for washing with water that is located below the section for treatment. In the fourth step the sand in the container for washing with water is washed. Thus in the second step incrustations on the surfaces of the particles of the sand are cracked and some of the incrustations are removed from the particles of the sand. In the fourth step, incrustations, etc., that are cracked are washed to then be removed from the sand.
By the method for reclaiming foundry sand as the eighth aspect of the present invention, in the fourth step in the method of the seventh aspect, water for washing in the container for washing with water is mixed with abrasives and the sand, water, and abrasives are agitated.
By the method for reclaiming foundry sand as the eighth aspect, in the fourth step water for washing in the container for washing with water is mixed with abrasives, and the sand, water, and abrasives are agitated. Thus incrustations on the surfaces of the particles of the sand are scraped by the abrasives.
By a method for reclaiming foundry sand as the ninth aspect of the present invention, in the third step in the method of the seventh or eighth aspect, the sand that is dropped from the section for treatment is subject to an airflow so that light materials that are removed from the sand to flow in the airflow are separated from heavy materials and so that the heavy materials are dropped into the container for washing with water.
By the method for reclaiming foundry sand of the ninth aspect, in the third step the sand that is dropped from the section for treatment is subject to an airflow so that light materials that are removed from the sand to flow in the airflow are separated from heavy materials and so that the heavy materials are dropped into the container for washing with water. Thus incrustations that have been separated from the particles of the sand are prevented or suppressed from dropping into the container for washing with water.
As discussed above, by the apparatus for reclaiming foundry sand or the method for reclaiming foundry sand of the present invention, binders and so on that have attached to returned foundry sand that has been used are effectively removed.
The basic Japanese patent application, No. 2012-139205, filed Jun. 20, 2012, is hereby incorporated by reference in its entirety in the present application.
The present invention will become more fully understood from the detailed description given below. However, the detailed description and the specific embodiment are illustrations of desired embodiments of the present invention, and are described only for an explanation. Various possible changes and modifications will be apparent to those of ordinary skill in the art on the basis of the detailed description.
The applicant has no intention to dedicate to the public any disclosed embodiment. Among the disclosed changes and modifications, those which may not literally fall within the scope of the present claims constitute, therefore, a part of the present invention in the sense of the doctrine of equivalents.
The use of the articles “a,” “an,” and “the” and similar referents in the specification and claims are to be construed to cover both the singular and the plural, unless otherwise indicated herein or clearly contradicted by the context. The use of any and all examples, or exemplary language (e.g., “such as”) provided herein, is intended merely to better illuminate the invention, and so does not limit the scope of the invention, unless otherwise claimed.
First Embodiment
With reference to
As shown in
In the upper portion of the upper container 12 a container for treatment 14 is provided. A pipe for suctioning 14B and a pipe for discharging 14C are connected to the ceiling 14X of the container for treatment 14. The pipe for discharging 14C is connected to a dust collector 50 (shown as a block in the figure). The dust collector 50 has a section for suctioning air (a blower, which is not shown). Valves for adjusting the flow (not shown) are provided to the pipe for suctioning 14B and the pipe for discharging 14C. By this structure air can be suctioned and discharged to and from the container for treatment 14, and the pressure there is controlled.
A chute for feeding sand 14A is inserted from the outside of the side wall 14Y of the container for treatment 14. The chute for feeding sand 14A is used for feeding foundry sand that has been used (core sand may be contained). On the chute for feeding sand 14A a valve for adjusting the flow (not shown) is provided.
A rotor 16, which is a container for treatment to which foundry sand that has been used is supplied (the section for treatment), is provided below the chute for feeding sand 14A. The rotor 16 is formed as a cylinder with a horizontal bottom 16A. It has a side wall 16B that is upwardly formed from the periphery of the bottom 16A. The inner space of the rotor 16 is a part of a space of the container for treatment 14.
The rotor 16 is equipped with a mechanism for generating frictional force 18. Below, the structure of the mechanism for generating the frictional force 18 is discussed. A rotating shaft 22 is fixed to the bottom 16A of the rotor 16, and extends downwardly. The rotating shaft 22 is pivotably supported by a bearing 24 that is fixed to the upper container 12. At the lower end of the rotating shaft 22 a driver 20 (shown as a block in the figure) is provided. The driver 20 rotates the rotor 16 about a vertical axis by rotating the rotating shaft 22. Though the detailed description of the structure of the driver 20 is omitted, it has a first pulley that is attached to the bottom of the rotating shaft 22, a second pulley that is rotatably attached to the upper container 12, a belt that is wound between the first pulley and the second pulley, and a motor for rotating the second pulley. Further, a clutch is provided between the bottom of the rotating shaft 22 and the driver 20, though it is not illustrated. The clutch is used for changing the transmission of the power of the driver 20.
The mechanism for generating the frictional force 18 has a ring 26 that is adjacent to, and outside of, the upper end of the rotor 16, and that is fixed to the upper container 12. The ring 26 is positioned so that it is a little loose vertically in the space between it and the side wall 16B of the rotor. It has a diameter that is slightly larger than that of the rotor 16. Inside the ring 26 a plurality of blades 26A (mechanical targets for reclaiming sand) that are circularly arranged are provided. The blades 26A incline, in the planar view, opposite the direction of the rotation of the rotor 16 and in the radial direction. Thus the particles of the sand that are hit by the rotating blades 26A are pushed toward the center of the rotation.
As discussed above, the mechanism for generating the frictional force 18 generates it on the sand in the rotor 16 by rotating the rotor 16.
A container for washing with water 30 is provided just below the lower portion of the upper container 12 (below the rotor 16). That is, the container for washing with water 30 is located to receive the sand that is discharged from the rotor 16. The container for washing with water 30 functions as a container for reclaiming the sand in a wet condition and as a rotating container for drying the sand. A tube for supplying and draining water 32 is connected to the container for washing with water 30. Water for washing can be supplied to, and drained from, the container for washing with water 30 through the tube for supplying and draining the water 32. The tube for supplying and draining water 32 passes through an ellipsoidal hole (not shown) that extends vertically in the side wall of the main body 10A.
Inside the container for washing with water 30 an agitator 34 (a unit having the blades for agitation for reclaiming wet sand) is provided. The agitator 34 has a shaft for agitation 36 that is connected to the driver 20 to thereby rotate about a vertical axis and has blades for agitation 38 that are provided on the outer circumference of the shaft for agitation 36 and inside the container for washing with water 30. The shaft for agitation 36 is coaxially positioned with the rotating shaft 22 (the axis of rotation of the rotor 16). A clutch is provided between the top of the shaft for agitation 36 and the driver 20, though it is not illustrated. The clutch is used for changing the transmission of the power of the driver 20. In this embodiment the blades for agitation 38 are made of coarse mesh. Incidentally, the blades for agitation 38 may be made of plates without mesh.
An internally-located board 42 is connected to the bottom of the shaft for agitation 36 via a bearing 40. The internally-located board 42 is horizontally placed inside the container for washing with water 30. The periphery of the internally-located board 42 and the upper opening of the container for washing with water 30 are completely connected by a mesh made of stainless steel 44, which is a cylindrical section made of netting. In the figures the mesh made of stainless steel 44 is illustrated by dotted lines. The size of the netting of the mesh made of stainless steel 44 is determined so as to avoid the particles of the sand from passing through it.
A vertically-moving machine 46 that vertically moves the container for washing with water 30 up and down is provided to the container for washing with water 30. The vertically-moving machine 46 may be any known machine for vertically-moving an object. In this embodiment, as an example, the vertically-moving machine 46 has a sliding part 46A that is fixed to the container for washing with water 30 and vertically moves along the side wall of the main body 10A. It also has an air cylinder 46B that vertically moves the sliding part 46A by attaching the tip of the rod 46B1 to the sliding part 46A and extending and contracting the rod 46B1.
Below the main body 10A a conveyor belt 48 is provided. The conveyor belt 48 transports the sand that has been reclaimed in the main body 10A in a predetermined direction.
A Method for Reclaiming the Foundry Sand and its Functions and Effects
Next, a method for reclaiming the foundry sand that uses the apparatus for reclaiming the foundry sand 10 is discussed with reference to
A flowchart that illustrates steps for reclaiming the foundry sand is shown in
After that above step, the step of mechanically reclaiming the foundry sand 54 and the step of reclaiming the foundry sand by washing with water (hot water) 55 are carried out by using the apparatus for reclaiming the foundry sand 10 (see
In the step of drying foundry sand 56, to some extent the foundry sand that has been processed is dewatered or dried. Then the moisture in the sand is measured. For this measurement a device for measuring moisture, such as an electric resistance-type, a microwave-type, a near-infrared ray-type, a far-infrared ray-type, or a heating and drying-type device, is used. This measurement is necessary to determine the input of water that can produce mulled sand that has a constant moisture.
In the following step of casting 57, the sand that is necessary for casting is metered by a device for weighing sand or a device for measuring the volume of sand. Next, water is added to the sand to control the moisture so that the value that is required for the mulled sand can be achieved. Also, liquid-crystal is added to make the mulled sand have a strength that has a value that is required for a mold. Further, a surface-activating agent is added to the sand to improve its ability to form a mold and to produce a foamed mixture. A metering pump is used to add the water, the liquid-crystal, and the surface-activating agent. Next, the sand, the water, the liquid-crystal, and the surface-activating agent are uniformly mixed and agitated by a sand muller. The mixture is heated and hardened by means of forming by blowing compressed air (in the case of a foamed mixture, by means of forming a mold by injecting, or forming by blowing compressed air) to form a mold.
In the step of casting 51, molten metal is poured into a mold to produce a cast by gravity die casting, low pressure die casting, or die casting. In the step of an after-treatment 52, a cast is separated from the core sand by a vibrating sand-stripper, an impact-type sand-stripper, or the like, i.e., so called sand stripping is carried out.
Next, the step of mechanically reclaiming the foundry sand 54 and the step of reclaiming the foundry sand by washing with water (hot water) 55 are discussed with reference to
Next, as shown in
During this step, the clutch between the rotating shaft 22 and the driver 20, which is not shown, transmits the power from the driver 20, and the clutch between the shaft for agitation 36 and the driver 20, which is not shown, does not transmit the power from the driver 20. The pressure in the container for treatment 14 is negative because of the suction from the dust collector 50 (see
Next, as shown in
For mechanically reclaiming the sand by the apparatus for reclaiming the foundry sand 10 of the present embodiment, a configuration for a treatment (a so-called batch-type treatment) in which a predetermined amount of the sand is supplied to the rotor 16 and processed by it, and then the processed sand is discharged from it, is adopted.
Next, as shown in
In this embodiment, the internally-located board 42 that is connected to the lower end of the shaft for agitation 36 via the bearing 40 (see
Next, as shown in
As shown in
Next, as shown in
As shown in
As discussed above, by the apparatus for reclaiming the foundry sand 10 or the method for reclaiming foundry sand of the present embodiment, binders and so on that attach to returned foundry sand that has been used can be effectively removed. Thus the foundry sand is repeatedly used for a mold.
Now we discuss supplementary matters. Assume that used core sand is used to produce foamed mulled sand. If a lot of water-shedding foreign substances or binders adhere to the particles of the core sand, more of a blowing agent, water, or inorganic liquid-crystal binders are required compared to green sand. Thus the time required to take a product out of a mold after casting becomes long. Further, an odor may be generated. These are disadvantages. Thus by a method in which a lot of incrustations remain on the surfaces of the particles of core sand, it is difficult to repeatedly reuse core sand.
In contrast, by the present embodiment, incrustations are effectively removed from core sand (providing a constant and stable ability to reclaim foundry sand). Thus the hydrophilicity of reclaimed core sand becomes high, so that by adding more of a blowing agent, or water, or inorganic liquid-crystal binders, to it, the amount of which is the correct amount for green sand, a product can be obtained during a time similar to that necessary to obtain a product from green sand. Thus core sand can be repeatedly used.
A Variation of the First Embodiment
As a variation of the first embodiment, the lower end of the hopper 12B and the upper end of the container for washing with water 30 of the apparatus for reclaiming the foundry sand 10 as in
By the method for reclaiming foundry sand that uses that variation, sand that is dropped from rotor 16 is subject to the airflow in the third step so that light materials that are removed from the sand to flow in the airflow are separated from heavy materials that drop, and so that the heavy materials are dropped into the container for washing with water 30. Thus incrustations that are separated from the sand are prevented or suppressed from entering the container for washing with water 30.
In addition to the configuration of the variation or instead of the air classifier of the variation, a vibrating sieve that removes fine glass particles or fine liquid-crystal particles may be provided above the container for washing with water 30.
Second Embodiment
Next, with reference to
As shown in
With this configuration, sand that has been used is continuously fed to the rotor 16. The sand that goes from the inside of the rotor 16 and over the ring 26 (see the arrow “X”) drops into the container for washing with water 30 (see
By the apparatus for reclaiming foundry sand 60 and the method for reclaiming sand of the present embodiment, which are discussed above, binders and so on that attach to returned sand that has been used are also effectively removed.
Third Embodiment
Next, with reference to
As shown in
The mechanism for generating the frictional force 74 is configured to include a pair of rollers 76 that are rotatably disposed inside the drum 72 and a mechanism for pressing the rollers 80 that is provided to the bearing for each of the rollers 76. The rollers 76 are located to face one another and to keep a gap between them and the inclined side wall 72B.
The mechanism for pressing the rollers 80 is configured to include a supporting arm 80A that includes a bearing for each of the rollers 76 and a horizontal shaft 80B that is attached to the supporting arm 80A and extends in the direction perpendicular to the plane of
By the apparatus for reclaiming foundry sand 70, when the driver 20 of the mechanism for generating the frictional force 74 rotates the drum 72, the particles of the sand that have been fed to the drum 72 scrape each other and are deposited by centrifugal force on the inner face of the inclined side wall 72B of the drum 72. When the particles of the sand that have been deposited on the inner face of the inclined side wall 72B come close to the rollers 76, frictional force is generated on those particles by the rotation of the rollers 76. Thus incrustations of the surfaces of the particles of the sand are cracked and some of them are removed from the sand. In this way, the mechanism for generating the frictional force 74 generates the frictional force on the particles of the sand in the drum 72 (the second step).
When the layer of the sand that has been deposited inside the inclined side wall 72B becomes thick, the sand that goes from the inside of the drum 72 over the weir 72C (see the arrow “Y”) drops into the container for washing with water 30 (see
By the apparatus for reclaiming foundry sand 70 and the method for reclaiming foundry sand of the present embodiment, which are discussed above, binders and so on that attach to returned foundry sand that has been used are also effectively removed.
Other Embodiments of the Method for Reclaiming Foundry Sand
For other embodiments of the method for reclaiming foundry sand, the first step, the second step, and the third step may be carried out by a device for reclaiming foundry sand by means of an impact 90 as in
First, the device for reclaiming foundry sand by means of an impact 90 as in
Within the treating container 90A an inner pipe 90F is placed above the top end of the nozzle 90E so that its longitudinal axis runs vertically. The lower end of the inner pipe 90F is disposed a short distance from the tip of the nozzle 90E. A board against which the sand collides (colliding board) 90G is provided to face the upper opening of the inner pipe 90F. The colliding board 90G is disposed a short distance from the upper opening of the inner pipe 90F. It is made of a mesh. The size of the mesh of the colliding board 90G permits air to pass through it, but no sand can do so. Inside the treating container 90A, guides 90H, 901 are formed so that the sand that collides with, and bounces back from, the colliding board 90G is guided to the second piping 90D. A container for washing with water, which is not shown, is provided under the second piping 90D.
In the device for reclaiming foundry sand by means of an impact 90 as discussed above, the sand that has been used is at first fed from the chute for feeding the sand 90B to the treating container 90A (see the arrow “A1”) (the first step). The fed sand, with compressed air that blows out from the nozzle 90E (see the arrow “A2”), enters the inner pipe 90F (see the arrow “A3”). It passes through the inner pipe 90F and collides with the colliding board 90G. Thus the force of impact is generated on the sand in the treating container 90A (the second step). At this time compressed air passes through the colliding board 90G (see the arrow “A4”) and the sand bounces back from the colliding board 90G. The sand that has bounced back is guided by the guides 90H, 901 (see the arrows “A5” and “A6”) to be discharged through the downward opening of the second piping 90D. It drops into the container for washing with water (not shown) that is below the treating container 90A (the third step).
Next, the device for reclaiming foundry sand by means of a grinding wheel 92 as in
Within the treating container 92A a rotating drum 92C is disposed. In the rotating drum 92C an inner tube 92D and an outer tube 92E that run coaxially to one another are connected by a side plate 92F. They rotate clockwise in
A cylindrical grinding wheel 92H is disposed to be coaxial to the rotating drum 92C in the inner side of the inner tube 92D of the rotating drum 92C. A gap is formed between the inner side of the inner tube 92D and the outer side of the grinding wheel 92H so as to receive the sand. The grinding wheel 92H rotates in the direction (see the arrow “B2”) that is opposite to that of the rotating drum 92C. A discharging pipe 92I for discharging sand and so on from the treating container 92A is connected to the lower portion of the treating container 92A. The discharging pipe 92I is formed like a tube. Below the lower opening 92J of the discharging pipe 92I a container for washing with water, which is not shown, is provided.
In the device for reclaiming foundry sand by means of a grinding wheel 92 foundry sand that has been used is at first fed from the chute for feeding the sand 92B to the treating container 92A (the first step). The fed sand is scratched and raised by the scratching tip 92G to be conveyed from the outer side of the outer tube 92E of the rotating drum 92C to the inner side of the inner tube 92D. There it bumps the grinding wheel 92H, to then be ground. That is, the force of impact and the frictional force by the grinding wheel 92H are imparted to the sand in the treating container 92A (the second step). The sand that has been processed in the treating container 92A is discharged from the lower opening 92J of the discharging pipe 92I to drop into the container for washing with water (not shown) below the treating container 92A (the third step).
By the method for reclaiming foundry sand that uses the device for reclaiming foundry sand by means of an impact 90 as in
Supplement to Discussion of Embodiments
In the first three embodiments as in
In the above embodiments the section made of netting that connects the entire periphery of the internally-located board 42 to the entire upper opening of the container for washing with water 30 is the mesh made of stainless steel 44. However, the section made of netting may be a mesh made of other materials, such as a synthetic resin. In the above embodiments, the internally-located board 42 and the mesh made of stainless steel 44 are provided. However, they need not be provided.
In the above embodiments the vertically-moving machine 46 has the air cylinder 46B. However, it may be any other type of vertically-moving machine that has a hydraulic cylinder or an elevator instead of the air cylinder 46B. The vertically-moving machine need not be provided.
In the above embodiment, while the water for washing contains the abrasives at the fourth step, the sand, water, and the abrasives are agitated in the container for washing with water 30. This process is preferable. However, at the fourth step the sand and the water may be agitated without using any abrasives.
At the fourth step the sand in the container for washing with water may be mixed or agitated by a rotating drum or a sand muller. Further, after the fourth step the abrasives are preferably separated from the sand in the container for washing with water by using a sieve using flowing water or a vibrating sieve.
To dry the sand after it is dewatered a dryer may be provided that utilizes the heat that is generated when the driver of the mechanism for generating the frictional force rotates the container for treatment and the agitator.
The above variations may be provided in any combination.
Below, the main symbols used in the specification and drawings are listed.
Number | Date | Country | Kind |
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2012-139205 | Jun 2012 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2013/061036 | 4/12/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2013/190888 | 12/27/2013 | WO | A |
Number | Name | Date | Kind |
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5515907 | Boenisch | May 1996 | A |
Number | Date | Country |
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52-99924 | Aug 1977 | JP |
56-30054 | Mar 1981 | JP |
7-136735 | May 1995 | JP |
7-314082 | Dec 1995 | JP |
8-243682 | Sep 1996 | JP |
08243682 | Sep 1996 | JP |
2002-178100 | Jun 2002 | JP |
2005-177759 | Jul 2005 | JP |
2006-68815 | Mar 2006 | JP |
2009-154207 | Jul 2009 | JP |
Entry |
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English-language International Search Report from the Japanese Patent Office for International Application No. PCT/JP2013/061036, dated Jul. 16, 2013. |
Number | Date | Country | |
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20150096594 A1 | Apr 2015 | US |