KR950014482B1 - Foundry sand regeneration device - Google Patents

Abstract

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Description

Foundry sand regeneration device

The present invention relates to a recycling apparatus for foundry sand.

(Explanation of Prior Art)

Foundry sands, which have often been used for casting, are often in large chunks due to caking additives.

In order to regenerate such foundry sand, it is necessary to crush it in advance by a crusher or the like, and then a binder and the like adhering to the surface of the crushed foundry sand must be removed.

Thus, various apparatuses for polishing the particle surface of such once used casting sand have been considered.

For example, sand is injected into an apparatus for polishing sand surface by ejecting the sand by spraying from an air nozzle (see publication 50-50808) or a device having a rotary blade, and sand is injected by centrifugal force. Apparatus for grinding the surface by violently colliding with each other (Japanese Patent Application Laid-Open No. 57-109540); There is a device or a device that washes sand and washes off impurities on the surface.

However, none of the above apparatuses are used only for granular foundry sand of a certain size or less, and cannot be used for foundry sand having a large mass.

Therefore, the foundry sands, including the foundry sands, which are made up in large chunks, are crushed in advance and used as particles of a certain size or less, so that regeneration work cannot be performed with high production efficiency under a continuous flow of a series of processes. It took

Accordingly, an object of the present invention is to provide a foundry sand regeneration apparatus capable of performing a foundry sand regeneration operation with a high production efficiency in a series of continuous work processes without the above-mentioned problems.

(Summary of invention)

In order to achieve the above object, the regeneration apparatus of a molding sand according to the present invention is fitted to be fitted so as to be freely extruded from the back of the molding sand extrusion passage, which is provided in the lower portion of the hopper for injection molding sand. An extrusion member, a rotatable wheel body provided in front of the foundry sand extrusion passage, a foundry sand tank provided above the rotatable wheel, and a lower side of the foundry sand tank into a space above the foundry sand tank; A conveying passage not only having a pressure reducing conveying pipe and a sieve mechanism installed in a communicating state, but also connecting the lower portion of the pressure reducing conveying pipe and the rotary grindstone in series; It is characterized in that it is a fan for the purpose of blowing up contained in the lower portion of the pressure-sensitive conveying pipe.

Therefore, the reclaiming apparatus of the foundry sand according to the present invention can be crushed, transported, polished, and stored in the foundry sand in a series of continuous work processes by one apparatus, resulting in a short time operation and extremely high productivity. Can be maintained.

By repeatedly operating the apparatus, it is possible to reliably reproduce regardless of the kind of used casting sand (various resins or the like may be attached to the surface thereof).

Moreover, since all the work using this apparatus is performed in the apparatus, dust generated during crushing and polishing can be recovered with a dust collector, and there is no fear of pollution, and the working environment can be maintained well.

On the other hand, the advantage of using this device is that it does not require a particularly large power source.

Another advantage becomes clear by description of an Example.

(Description of a Preferred Embodiment)

The foundry sand reproducing apparatus according to the present invention will be described in detail with reference to the drawings showing the embodiments.

1 is an overall explanatory diagram showing an embodiment of the foundry sand reproducing apparatus according to the present invention.

The foundry sand recycling apparatus includes a hopper (1) for casting sand injection, an extrusion member (2) installed at the lower part thereof, a rotatable wheel (3) mounted on the front of the extrusion member (2), and an opening portion (4) above it. Has a reclaimed foundry sand tank (5) arranged to be located.

In the present embodiment, the extruded member 2 is configured to compress a large lumped casting sand, which is constituted by a cylinder mechanism, but a crank mechanism and various other mechanisms can be contemplated without being particularly limited thereto.

Furthermore, these mechanisms may be stopped and pressed by the weight of the sand in the stacked lump state. In other words, it is preferable to adopt the most suitable mechanism in accordance with the situation.

A molding sand extrusion passage 6 is formed in the lower portion of the molding sand injection hopper 1 having an open top, and the extrusion member 2 slides in the passage 6 to fit freely. .

A large lumped casting sand introduced into the casting sand injection hopper 1 is filled in the casting sand extrusion passage 6 and extruded forward by the extrusion member 2 from the rear side.

The large lumped casting sand extruded toward the front is located in front of the casting sand extrusion passage 6 and is pushed by the driving motor 7 to the rotating surface of the cylindrical grindstone 3 which is free to rotate. It is intended to be crushed and polished.

The grindstone of the grindstone 3 used in the present invention is made of ordinary Al ₂ O ₃ , S1C, ZrO ₂ , BN, etc., but the grindstone particle structure can have a porosity, unlike a grindstone for general grinders. It is good to make it as small as possible so as to have a high density, and to prevent falling of the grindstone particles.

Because not only can the life of the grindstone be as long as possible, but the missing grindstone particles are not good because of foreign matter.

In this case, the sieve mechanism may be provided in the hopper 1. In other words, a sieve having a constant mesh is attached so as to cover the open surface in the depth direction of the hopper 1, and a vibrator is provided on one side of the sieve.

In this way, the particle size of the large-size foundry sand can also be sorted to some extent at this stage, and the workability | operation after that can be made more efficient.

Moreover, it is also possible to connect a reduction gear, a switching switch, etc. to the rotating wheel body 3 so that the rotational speed and the rotation direction of the rotating wheel body 3 can be freely changed in addition to the drive member such as a motor.

The impurity waste storage part 8 is provided below the casting sand extrusion passage 6, and the hole is located in front of the casting sand extrusion passage 6, which is produced when the injected casting sand is closed in a particulate state. The removal of impurities such as cores and iron pieces can be stored freely. As a result, these impurities are transferred to the grindstone body 3 to avoid the situation of damaging the surface S of the grindstone body 3 and to prevent them from being mixed into the crushed and polished casting sand A. It is considered to be.

Further, the paths through which only impurities enter the holes of the impurity waste storage part 8, and the connection relationship between the net member, the conveying passage, the fan, and the pressure reducing conveying pipe are shown in more detail. As shown in FIG. 1 (b), a hole 30 is formed in front of the rotary grindstone 3.

Through this hole 30, the impurity Al of the foundry sand A is stored in the impurity waste storage part 8. The crushed molding sand A2 is conveyed to the transfer passage 12 with a narrow passage 31 formed in the lower portion of the rotary grinding body 3 interposed therebetween. Impurities (Al), such as iron chips and cores, are larger than the foundry sand (A2), and therefore fall automatically into the holes (30). Therefore, the impurities Al do not pass through the narrow passage 31. In addition, the rotary grindstone 3 rotates in the counterclockwise direction shown in the drawing. Impurities such as iron pieces may be removed by attaching a magnet or the like separately. As shown in Fig. 1 (c), the drive motor 7 is mounted on the base support 21. As shown in FIG. The roller 7b is integrally attached to the motor shaft 7a. The rotary grindstone 3 is integrally formed with the roller 3B with this rotating shaft 3a interposed therebetween.

The rollers 3b and 7b are connected by the belt 20.

The rotary grindstone 3 is axially supported by the bearing which is not shown on the extension line of this rotating shaft 3X.

The reclaimed molding sand tank 5 is formed in such a manner that its lower end is narrowed in cross section, and its front end constitutes an open part 4 which can be opened and closed freely.

On the other hand, the dust collector (FIG. 3) conveyance pipe 9 is attached to the uppermost part of this regeneration casting sand tank 5.

In the shaft portion of the reclaimed molding sand tank 5, there is provided a pressure-sensitive conveying pipe 10 for conveying the foundry sand in the form of particles crushed and polished by the rotary grindstone 3 into the reclaimed molding sand tank 5. . In addition, a fan 11 for blowing up is mounted on the lower portion of the pressure-sensitive conveying pipe 10. And between the lower part of the pressure reduction conveyance pipe 10 and the rotary grindstone 3, the conveyance path 12 of the state which communicates is provided, and the upper surface of this conveyance path 12 is caused by fine movement. A mesh-shaped net member 13 for separating the abrasive grain of the foundry sand into a sieve is provided.

If it is in this way, the casting sand conveyed to the conveyance path 12 will generate | occur | produce from the lower part by the fan 11 of the said blowing purpose in addition to being pressure-reduced by the dust collector in the said regeneration casting sand tank 5, By the airflow, it is conveyed into the regeneration casting sand tank 5 reliably and efficiently.

Further, when the foundry sand is conveyed into the reclaimed foundry sand tank 5 through the reduced pressure conveying pipe 10, the bent portion of the reduced pressure conveying pipe 10 is likely to be damaged by friction with the conveyed particles. Therefore, the angle of the bent part of the pressure reduction conveying pipe 10 may be made as small as possible, and the treatment such as appropriate lining to increase the wear resistance on the inner surface of the bent portion of the pressure reduction conveying pipe 10 may be taken. .

In the middle portion of the reclaimed sand casting tank 5, a partition composed of partition plates 14, 14 'and a transverse cylinder 16, which are freely slidably movable, is provided. The space portions (a) and (a ') are formed.

On the surfaces of these partition plates 14 and 14 ', as shown in FIG. 2, a plurality of through holes (15, 15, ..., 15', 15) are provided at appropriate intervals, respectively. ')) Is open.

Both through holes (15, 15, ..., 15 ', 15') do not overlap each other, but the air drive provided in the shaft portion of the reclaimed sanding tank 5 When the plates 14 and 14 'are moved in the lateral direction by the lateral cylinder 16, the through holes of the two plates overlap each other, so that the upper and lower space portions a and a are both positive. It is partially connected through the through hole.

Further, the shape of the through-holes formed on the surfaces of the partition plates 14 and 14 'may be any of various shapes such as square and elliptical, in addition to the annular shape shown in FIG.

Moreover, the cross-sectional shape of the regeneration molding sand tank 5 can also be considered in various ways, such as a square shape and a cylindrical shape.

When the cross-sectional shape is square, the rotation speed of the blown particles decreases at four corners, so that particles having a predetermined size or more easily fall along the wall of the tank 5, and the particles that can be recycled and used are collected in the dust collector. It has the advantage that it can do very little to get caught in.

Next, a description will be given of the operation when the foundry sand is put into the foundry sand reproducing apparatus of the present invention configured as described above.

As shown in Fig. 3, a large lump of casting sand A is introduced into the casting sand injection hopper 1.

This large mass of casting sand A is extruded from the inside of the casting sand extrusion passage 6 by the extrusion member 2 and pressed against the surface S of the rotating grindstone 3 to be crushed and polished. do. In this case, iron pieces, cores, and the like attached to the foundry sand A are automatically stored in the impurity disposal housing 8 free of drawouts because the specific gravity is different. And the casting sand A made of a granular body is conveyed to the conveyance path 12, and it isolate | separates into a sieve by the net member 13 which is a body shape on the conveyance path 12. As shown in FIG.

The casting sand A separated by a sieve is transferred to the lower portion of the pressure reduction conveying tube 10, and is sucked by the fan 11 and the dust collector 17 for blowing purposes, which are installed under the lower portion of the pressure reduction conveying tube 10. By the airflow which arises, it is conveyed in the upper space part a of the reclaimed casting sand tank 5.

Here, since the through holes 15 and 15 'provided in the partition plates 14 and 14' do not overlap each other, the molding sand A is formed on the partition plates 14 and 14 '. Stacked up.

When the foundry sand A is transported into the upper space portion a of the reclaimed foundry sand tank 5, fine powdery sand chips or dust generated in the foundry sand A are removed by the dust collector 17.

When the casting sand A is piled up a predetermined amount on the partition plates 14 and 14 ', the operation of the extruded member 2 is stopped, and one partition plate 14' is moved laterally to move up and down. The casting sand A is dropped into the lower space a 'so that the positions of the holes 15 and 15' of both partition plates overlap.

Then, the casting sand A is polished again by dropping from the open portion 4 at the lower end of the reclaimed molding sand tank 5 to the surface S of the rotatable wheel body and abutting.

By repeating such a process at an appropriate number of times depending on the type of the foundry sand A, it is possible to easily and reliably remove the deposit on the surface of the foundry sand A, thereby making it possible to reproduce it.

The recycled foundry sand A is directly taken out by a suitable method. As shown in FIG. 3, the reclaimed sand may be conveyed by the conveying pipe 19 from the middle of the reclaimed sanding tank 5 to the reclaimed sand storage tank 18.

Next, another salcy example of the foundry sand reproducing apparatus according to the present invention will be described.

In the above embodiment, the extrusion member 2 and the rotary grindstone 3 are provided one by one, but as shown in FIG. 4, a plurality of these may be provided.

For example, the position slightly below the casting sand injection hopper 1, so that the two extrusion members (2), (2 ') in the vertical direction to be stacked.

Then, a predetermined amount of casting sand is provided by the extrusion member 2 directly under the hopper 1 to be polished, and the predetermined number of casting sands are arranged in parallel by the extrusion member 2 'at the lower end thereof. 3) and 3 ', which is configured to extrude toward the rotary grindstone 3 facing the extrusion member 2' at the lower end.

That is, it is better to rotate at a relatively low speed for crushing and to rotate at a speed faster than that for grinding.

In this way, when two grindstones are used, a certain amount of foundry sand is continuously introduced and broken. Since it is polished, it becomes efficient and limited operation.

As a result, since the foundry sand is crushed by the first rotatable wheel 3 and the crushed foundry sand is ground by the second rotatable wheel 3 ', the crushing action and the polishing action of the foundry sand are efficiently performed. The division of labor is extended, the service life of the grinding wheel body is long, and the frequency of maintenance is also reduced, and workability is further improved.

What is necessary is just to select the rotation direction and rotation speed of these two grinding wheel bodies suitably according to the kind and quantity of casting sand.

1 is an overall explanatory diagram showing an embodiment of a foundry sand reproducing apparatus according to the present invention;

1 (a) is a partially enlarged cross-sectional view showing a connection relationship between the transport path of the foundry sand, the extrusion member, the grinding wheel body, the transport passage, the mesh member, the housing for impurity disposal, the fan,

FIG. 1 (b) is an enlarged perspective view of part B of FIG. 1 (a),

1 (c) is an explanatory diagram showing an operation relationship between a rotating wheel body and a motor;

2 is an enlarged perspective view of a partition plate used in the foundry sand reclaiming apparatus of FIG.

3 is a schematic explanatory diagram showing a state of use of the foundry sand reproducing apparatus of the present invention;

4 is an overall explanatory diagram showing another embodiment of the foundry sand reproducing apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Hopper 2: Extrusion member

3,3 ': grinding wheel 4: opening part

5: casting sand tank 6: casting sand extrusion passage

10: pressure reduction conveying pipe

Claims (8)

A casting sand extrusion passage (6) installed in the lower part of the hopper (1) for injection molding sand, an extrusion member (2) to which extrusion is fitted freely from the rear of the casting sand extrusion passage (6), and the foundry sand The impurity waste storage portion 8 provided below the extrusion passage 6, the rotary grindstone 3 provided in front of the casting sand extrusion passage 6, and the rotary grindstone 3 And a pressure reducing conveyance pipe 10 which is installed in a state of being connected to the foundry sand tank 5 from the lower side of the foundry sand tank 5, and a mechanism for the regeneration of the foundry sand tank 5 arranged above. In addition, the lower portion of the pressure-sensitive conveying pipe 10 and the conveying passage 12 for passing through the rotary grindstone 3 and the lowering of the pressure-sensitive conveying pipe 10 Foundry sand regeneration, characterized in that consisting of a fan (11) Device. The impurity waste storage part 8 is provided in the lower part of the said molding sand extrusion passage 6, The opening part is located in front of the said molding sand extrusion passage 6, and is included in the injected molding sand. A foundry sand regeneration device, wherein the extracted impurities are freely stored. The lower part of the said molding sand tank 5 is formed in the state which narrows a cross-sectional area, The opening part 4 which can open and close freely is provided at the front end, and at least the said casting sand The space inside the tank 5 may be divided into two vertically. And a partition mechanism having a mechanism for freely communicating the spaces (a) and (a ') which are divided into two parts above and below the casting sand tank (5). 4. The horizontal motion according to claim 3, wherein the partition mechanism slides two partition plates (14), (14 ') and one side of the partition plate in a transverse direction in which the partition mechanism slides freely to move. Foundry sand regeneration device, characterized in that consisting of a cylinder (16). 5. The foundry sand reproducing apparatus according to claim 4, wherein a plurality of through holes (15, 15 ') are formed in the surfaces of the partition plates (14, 14'). 2. The extruded member (2) according to claim 1, wherein two extruded members (2) and (2 ') are provided so that they are stacked in a vertical direction, and the upper extruded member (2) takes out a predetermined amount of the molding sand (A). It is used for the purpose, the lower extruding member (2 ') is a casting sand regeneration apparatus, characterized in that for extruding the cast sand taken out to the rotary grindstone (3). A plurality of said grinding wheel bodies (3) and (3 ') are provided, The 1st grinding wheel body (3) is for crushing a molding sand, and the 2nd grinding wheel body is carried out. (3 ') is a casting sand regeneration device, characterized in that it is configured for grinding the crushed foundry sand. 8. The foundry sand reproducing apparatus according to claim 7, wherein the rotation speeds of the plurality of rotatable wheel bodies (3) and (3 ') are driven differently.

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