JPH07246457A - Casting equipment using sand mold - Google Patents

Abstract

PURPOSE:To improve the stability of quality of molding material after reconditioning, in the casting equipment provided with a casting station and a reconditioning station. CONSTITUTION:The quality of the molding material supplied to the reconditioning station S3-3 is made to be the constant by supplementing a supplementary molding material from a supplementary station S3-4 to the recovered molding material from the casting station S3-1. By this constitution, the reconditioning station S3-3 can always be made to execute the reconditioning to the fixed quality of the molding material.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a casting facility using a sand mold.

[0002]

2. Description of the Related Art Generally, a casting facility using a sand mold is provided with a casting station and a regenerating station as shown in Japanese Patent Laid-Open No. 3-77767. Casting is performed using a sand mold, and in the regeneration treatment station, the casting station is used.
It is supposed that the sand mold material after casting is received from the ionization treatment and is regenerated, and the regenerated treatment molding material is supplied to the casting station for the sand mold. By the way, in the above-mentioned casting station, a plurality of types of castings are to be cast from the viewpoint of high-mix low-volume production. Therefore, a plurality of types of sand molds are to be used in association with the above-described casting of a plurality of types of castings.

[0003]

However, as described above, when a plurality of types of sand molds are used, the shape, surface area, amount of molten metal, etc. are different for each type.
The effect of the heat effect of the molten metal on each type of sand mold will also differ, and the quality of the mold material after the sand mold is unframed, for example, the amount of residual activated bentonite (the original water retention without being affected by the heat of the melt) Those that retain their properties and become inactive under the influence of the heat of the molten metal (those that lose water retention simply become bentonite) vary depending on the type of sand mold. Therefore, even if the mold material after casting in the casting station is subjected to a regeneration treatment in which a certain amount of an additive (for example, activated bentonite) is added and mixed in the regeneration treatment station, Since the quality condition of the mold material varies depending on the type of sand mold, it is impossible to improve the stability of the quality of the mold material after the regeneration. The present invention has been made in view of the above circumstances, and an object thereof is a casting facility using a sand mold provided with a casting station and a regeneration treatment station, and stability of the quality of the mold material after regeneration. To improve.

[0004]

In order to achieve the above object, in the invention of claim 1, a casting station for casting using a sand mold, and a casting station after casting In a casting facility using a sand mold, which is provided with a reclamation treatment station that receives and regenerates the molding material and supplies the regeneration treatment mold material to the casting station for a sand mold, the casting station And a replenishment station is interposed between the regeneration treatment station and
The replenishment station is set so as to replenish the mold material after the casting with a mold material to make the quality of the mold material supplied to the regeneration processing station constant. is there. With the above-described configuration, the mold material is replenished with respect to the mold material after casting so that the quality of the mold material supplied to the regeneration processing station is set to be constant. -The option is
It will always be possible to regenerate a constant quality mold material. Therefore, it is possible to improve the stability of the quality of the mold material after the regeneration.

In order to achieve the above-mentioned object, in the invention of claim 2, a casting station for casting using a sand mold, and a mold material after casting is received from the casting station and regenerated. A plurality of sets of basic equipment provided with a plurality of sets, each of which is a set of a reprocessing station that treats and supplies the reclaimed template material to the casting station for a sand mold, and the basic equipment of each set. In the casting station, the casting material adhering to the casting product is removed, and the removed casting material is supplied to the reprocessing station in the basic equipment of one of the plurality of sets. In the basic equipment of the product processing common station and the other set of the plurality of sets, after being cast between the casting station and the regenerating processing station, after casting in the casting station. From the replenishment station for replenishing the mold material with respect to the mold material to make the quality of the mold material supplied to the regenerating station constant, and the regenerating station in the one set of basic equipment. And a supply means for supplying the mold material in the regeneration treatment station to the replenishment station in the other set of basic equipment, and a casting equipment using a sand mold. There is a configuration. With the above-mentioned configuration, even if there are a plurality of sets of basic equipment, in one set of basic equipment, the types of the molds to be used are reduced or made constant, so that the molds supplied to the regeneration processing station. The quality of the material can be kept as constant as possible so that the regeneration station can always regenerate the mold material with a quality that is as constant as possible, while in the other set of basic equipment the mold from the replenishment station is used. Since the quality of the mold material supplied to the regeneration processing station is made constant by replenishing the material, the regeneration processing station can always regenerate the mold material of constant quality. For this reason, even if there are a plurality of sets of basic equipment, it is possible to improve the stability of the quality of the mold material after regeneration in each set. Further, since the product processing for removing the mold material adhering to the cast product carried out from the casting station in each group is performed in the common product processing common station, the number of product processing stations can be minimized. become. Therefore, it is possible to make the entire equipment compact. On the other hand, if the product processing is shared by the product processing common station as described above, in the basic equipment in the other group, the amount of the adhering mold material of the cast product will be insufficient, but the mold material supplied by the replenishment station will be supplied. Since the one returned from the regeneration processing station in one set that receives the mold material scraped off at the product processing common station is used as the other processing group, the mold material (mainly sand) is not replenished from the outside of the system. It is possible to prevent the shortage of the mold material in the basic equipment in. Moreover, since the mold material supplied by the replenishment station is one that has been subjected to a regenerating process by receiving the mold material of which the quality is as constant as possible in the regenerating station in one set, the quality of the replenishing mold material. The state is always close to constant. Therefore, it becomes possible to easily adjust the amount of replenishment of the mold material from the casting station in the basic equipment in another set.

In order to achieve the above-mentioned object, in the invention of claim 3, in claim 1 or 2, the replenishing station replenishes the mold material after the casting with the mold material. As a means for setting the quality of the mold material supplied to the regeneration processing station to be constant, a supply amount adjusting means for adjusting the supply amount of the mold material and information of the mold material after the casting are detected. And a control means for controlling the supply amount adjusting means based on a signal from the mold material information detecting means. According to the above configuration, the above-mentioned claim 1 or 2
In addition to producing the same effect as that of the invention of 1, the state of the casting mold material after casting is grasped, and the casting mold material is accurately replenished to the casting material after casting, and is supplied to the regeneration treatment station. The quality of the mold material can be kept constant.

In order to achieve the above-mentioned object, according to the invention of claim 4, in claim 3, the mold material information detected by the mold material information detecting means is a sand / metal ratio,
The amount is the amount of the recovered template material. With the above-described configuration, in addition to the same operation as that of the third aspect of the invention, the supply control can be performed more accurately.

In order to achieve the above-mentioned object, in the invention of claim 5, according to claim 1 or 2, the ratio of quality constituent elements in the mold material supplied by the replenishment station is after the casting. It is set so as to be larger than the ratio of the quality constituent elements in the mold material. With the above-mentioned constitution, in addition to producing the same effect as that of the invention of claim 1 or 2, the ratio of the quality constituents in the mold material supplied by the replenishment station is determined by the quality constitution in the mold material after casting. Since it is set to be larger than the ratio of the elements, it is possible to correct the amount of adjustment of the replenishment amount of the mold material in an increasing direction, and it is possible to easily adjust the amount of replenishment of the mold material from the replenishment station. become.

[0009]

Embodiments of the present invention will be described below with reference to the drawings. In FIG. 1, 1 is a casting equipment according to the present embodiment,
The casting equipment 1 has, as a plurality of sets of basic equipment, a basic equipment 2 in one set and a basic equipment 3 in another set.

The basic equipment 2 in the above set includes two casting stations S2-1 and S2-2 and one regeneration processing station S2-3. The two casting stations S2-1 and S2-2 have the same configuration, and each casting station S2-1 (S2-2).
In, in the order from the upstream side to the downstream side, a molding step of molding a sand mold, a casting step of casting using the sand mold in the molding step, and unsealing the sand mold after the casting step The process of taking out the product and unraveling using the sand mold as a mold material are performed. In this embodiment, this casting station S2-1 (S2-2) is performed.
Then, the types of castings to be cast are relatively small (or constant), and accordingly, the types of sand molds to be molded are also small (or constant).

The recycle processing station S2-3 has a carrying-in / out relationship with the downstream side of the two casting stations S2-1 (S2-2) by the conveyor 4 (5), and each casting station S2-. The mold material (recovered mold material) after being unframed in 1 (S2-2) is to be carried into the regeneration processing station S2-3 by each of the transport conveyors 4 (5). This reproduction processing station S
In 2-3, a certain amount of additive (such as activated bentonite) is to be added to and mixed with a certain amount of the template material that has been carried in, whereby the template material is regenerated. Will be. In addition, the regeneration processing station S2-3 is the two casting stations S2.
Even between the upstream side of 2-1 (S2-2), the carrying-in / out relationship is configured by the conveyor 6, and the regenerated mold material in the reclaimed processing station S2-3 is used as the sand mold material. It is supposed to be carried into the upstream side of each casting station S2-1 (S2-2) by the conveyor 6.

The basic equipment 3 in the other set is basically of the same construction as the basic equipment 2 in the above-mentioned set, and the basic equipment 3 is one casting station S3-1. It has one regeneration processing station S3-3. In this casting station S3-1,
Similarly to the case described above, from the upstream side to the downstream side, in order, a molding step of molding a sand mold, a casting step of casting using the sand mold in the molding step, and unraveling the mold after the casting step. The unmolding step of taking out the cast product and using the sand mold as the mold material is to be performed. In the reproduction processing station S3-3, as in the case described above,
In addition to the regeneration process, the conveyor 7 is provided between the downstream side of the casting station S3-1 and the regeneration processing station S3-3, and the casting station S3.
Between the upstream side of -1 and the regeneration processing station S3-3, a carry-in / carry-out relationship is configured by the transport conveyor 8, and the mold material after the unframe at the casting station S3-1 (recovered mold material) Is carried into the regeneration processing station S3-3 by each of the above-mentioned transport conveyors 7, and the recycled processing mold material in the regeneration processing station S3-3 is carried into the upstream side of the casting station S3-1 by the above-mentioned transport conveyor 8 as the sand mold material. It is supposed to be done.

As shown in FIG. 1, a product processing common station S4 is provided between the basic equipment 2 in the one set and the basic equipment 3 in the other set. The product processing common station S4 is configured so that the casting stations S2-1 (S2-2),
A carry-in / out relationship is formed between S3-1 and S3-1, and the cast product after the unframe is conveyed from the casting stations S2-1 (S2-2) and S3-1 to the product processing common station S4. It is supposed to be carried in by the conveyors 9 and 10. Product processing common station S4
Has a step of removing the mold material adhering to the above cast product by shot blasting or the like, and after this step, the mold material (mainly sand) that has been removed is separated from the cast product. ing. Further, the product processing common station S4 has a carrying-in / out relationship with the recycling processing station S2-3 in the above-mentioned one set via the transfer conveyor 11, and the mold material removed by the transfer conveyor 11 is formed. Are to be carried into the reproduction processing station S2-3.

In the basic equipment 3 in the other set, as shown in FIG. 1, the regeneration processing station S3.
-3 and the casting station S3-1, a supply station S3-4 is interposed. The replenishment station S3-4 has a carrying-in / out relationship with the recycling processing station S2-3 in the one set through the carrying conveyor 6 by extending the carrying conveyor 6, and The regenerated mold material after the regenerating process in the processing station S2-3 is to be supplied not only to the casting station S2-1 (S2-2) described above but also to the replenishing station S3-4.

At the replenishment station S3-4, as shown in FIG. 2, not only is a storage tank 13 for receiving the regenerated mold material (reference numeral 12 in FIG. 2) provided, but also a lower end outlet of the storage tank 13 is provided. And an electromagnetic feeder 15 for adjusting the supply amount of the regenerated mold material 12 to the mold material guide member 14 facing the conveyer 7.
Is provided. A control signal from the control unit U is to be input to the electromagnetic feeder 15, and the control signal is based on the input signals from the sensors 16 and 17 input to the control unit U. It is supposed to be output from the control unit U. The sensor 16
Is for detecting the type of sand mold during the unraveling process in the casting station S3-1.
7 is for detecting the start of the unraveling process of the sand mold.
In addition, in FIG. 2, reference numeral 18 is a recovered mold material after the mold is unframed.

Next, the operation of the above casting equipment will be described. Each casting station S2-1 (S2-2), S3
In -1, each of them is independently cast using a sand mold, and when the sand mold is opened after the casting is finished, the recovered mold material is regenerated in each station S2-.
3, S3-3, when the collected template material is accumulated up to a certain amount (the template materials of a plurality of types of templates are sequentially accumulated), a certain amount of additive is added to the regeneration treatment. Done. After the regenerating treatment, the regenerated mold material is again used for the sand mold in the casting station S2.
-1 (S2-2) and S3-1. On the other hand, in each of the casting stations S2-1 (S2-2) and S3-1, when the sand mold is unframed and the cast product is taken out, the cast product is conveyed to the product processing common station S4. Then, the mold material adhering to the cast product is removed. Then, while the cast product is conveyed to the next step, the mold material thrown off there is conveyed to the above-mentioned regeneration treatment station S2-3, and at the regeneration treatment station S2-3, another mold material is conveyed. At the same time, a reproduction process is performed.

In the basic equipment 2 of the above-mentioned one set, the number of kinds of castings to be cast is relatively small (or constant) as compared with the case of the basic equipment 3 in the above-mentioned other set. While the quality of the mold material supplied to the processing station S2-3 is always made as constant as possible, in the basic equipment 3 in the above-mentioned other set, the recovered mold material conveyed by the conveyor 7 is used as the regenerating treatment station. The mold material in S2-3 is replenished via the replenishing station S3-4, and the quality of the mold material supplied to the reprocessing station S3-3 is always kept constant.

The contents of the basic equipment 3 in the above-mentioned other set will be specifically described together with the control contents of the control unit U described above. In the unraveling process in the casting station S3-1, if the type of sand mold is detected,
Based on the information, the sand / metal ratio (weight of sand used for the sand mold / weight of molten metal poured into the sand mold (metal part); hereinafter, S / M ratio) based on the information , The amount of the sand mold, that is, the amount of the recovered mold material, is read, and the read content is used to determine the amount of the supplied mold material from the supply station S3-4 based on the control content of FIG. The amount is replenished in consideration of the timing at which the recovered mold material is conveyed to the bottom of the mold material guide member 14, so that the S / M ratio is always constant regardless of the type of the mold. There is. In this case, the S / M ratio is always kept constant by replenishing the replenishment mold material from the replenishment station S3-4.
By the above S / M ratio and definition of activated bentonite, S
When the / M ratio is large (that is, when the weight of the molten metal poured into the sand mold is small), the heat quantity of the molten metal becomes small,
Since the amount of bentonite that becomes inactive due to the heat effect of the molten metal is small (as a result, the amount of activated bentonite is large), as shown in (Table 1), the S / M ratio and the quality composition of the template material are set. There is a corresponding relationship with the amount of activated bentonite as an element, and based on this, by making the S / M ratio constant, the quality constituent elements of activated bentonite become constant. Further, in this case, the proportion of activated bentonite as a quality constituent element in the supplementary casting material is set to be higher than the proportion of activated bentonite in the recovered casting material.

[0019]

[Table 1]

More specifically, focusing on one sand mold, the control contents of the control unit U are shown in FIG.
An explanation will be given with reference to the chart.

First, in P1, the signal from the sensor 17 for detecting the opening frame opening process start signal of the sand mold after the casting process is read, and in P2 it is judged whether or not the opening frame opening process has started. When P2 is NO, the process is returned to P1, while when P2 is YES and the unraveling process is started, the type signal of the mold is read in P3. Then, in the next P4, the S / M ratio and the amount of the recovered template material (the template material flown on the conveyor 7) are read from the memory using the template type signal of P3, and the next P4 is read.
5, they are used to calculate the amount of supplemental mold material based on FIG. Next, at P6, it is determined whether or not a predetermined time has elapsed after the start of the frame opening process. This determination is provided to accurately replenish the replenishment mold material from the replenishment station S3-4 when the recovered mold material is conveyed to the replenishment position (the position of the mold material guide member 14). Therefore, in this embodiment, as a premise,
The transport conveyor 7 is always driven at a constant transport speed,
When the operation of the casting station S3-1 is stopped,
It is supposed to stop at the same time. When the above P6 is YES, the output signal based on the above P5 is output to the electromagnetic feeder 15 in P7, and the amount of the replenishment template material of P5 is replenished to the recovery template material. Thereby, when paying attention to the entire amount of the mold material of the sand mold, the quality of the activated bentonite and the like is maintained at the same quality as that of the other molds before being transported to the regeneration treatment station S3-3. It will be.

Therefore, in one set of basic equipment 2, the number of types of sand molds to be used is reduced (or kept constant), and the quality of the mold material supplied to the reprocessing station S2-3 is reduced. That is, since the activated bentonite and the like are made as close as possible to each other, the regeneration treatment station S2-
In No. 3, it is always possible to regenerate a mold material having a constant quality as much as possible. In addition, in the other set of basic equipment 3, since the quality of the mold material supplied to the regeneration processing station S3-3 is made constant by the supply of the mold material from the supply station S3-4, a plurality of types of basic materials 3 are provided. The mold material used for the sand mold is the reprocessing station S3-3.
Even if the material is mixed and regenerated, the regeneration processing station S3-3 can always regenerate the template material of constant quality without causing any problems.
As a result, even if there are a plurality of sets of basic equipments 2 and 3, it is possible to improve the stability of the quality of the mold material after the regeneration in each set.

Further, since the product processing for the cast products carried out from the basic equipments 2 and 3 in each set is performed in the common product processing common station S4, the number of product processing stations should be minimized. You will be able to Therefore, it is possible to make the entire equipment compact. On the other hand, if the product processing is shared by the product processing common station S4 as described above, in the basic equipment 3 in the other group, the amount of the adhered mold material of the cast product is about to run short, but the replenishment station S3-4. As the mold material to be replenished by the product, the one returned from the regeneration processing station S2-3 in one set that receives the mold material scraped off at the product processing common station S4 is used, and therefore the mold material (mainly sand) is supplied from outside the system. It is possible to prevent a shortage of the mold material in the basic equipment 3 in the other set without replenishment.

Furthermore, the mold material replenished by the replenishing station S3-4 has been regenerated at the regenerating processing station S2-3 in one set, and the quality condition of the replenishing mold material is always close to constant. And the proportion of activated bentonite as a quality component in the supplemental mold material is set to be greater than the proportion of activated bentonite in the recovered mold material in the other sets. Therefore, the replenishment station S3-
Therefore, the replenishment amount adjustment in 4 can be facilitated.

[0025]

As described above, according to the inventions of claims 1 and 3 to 5, after the regeneration in the casting equipment using the sand mold provided with the casting station and the regeneration treatment station. It is possible to improve the stability of the quality of the mold material. In the inventions of claims 2 to 5, even if a plurality of sets of basic equipment are provided, it is possible to improve the stability of the quality of the mold material after regeneration. In addition, it is possible to make the entire equipment compact, prevent the lack of mold material in the basic equipment in other groups, and facilitate adjustment of the amount of mold material supplied to the mold material from the casting station. You can

[Brief description of drawings]

FIG. 1 is an overall system diagram showing an embodiment.

FIG. 2 is an explanatory diagram for explaining replenishment contents at a replenishment station according to an embodiment.

FIG. 3 is a diagram showing a control content according to the embodiment.

FIG. 4 is a diagram showing the contents of a flow chart showing a control example according to the embodiment.

[Explanation of symbols]

 1 Casting Equipment 2 Basic Equipment in One Set 3 Basic Equipment in Other Set 6 Conveyor 12 Recycled Mold Material 15 Electromagnetic Feeder 16 Sensor 17 Sensor U Control Unit S2-1 Casting Station S2-2 Casting Station S3-1 Casting Station S2-3 Regeneration processing station S3-3 Regeneration processing station S3-4 Replenishment station S4 Product common station

Claims (5)

[Claims] 1. A casting station for casting using a sand mold, and receiving and reclaiming a casting material after casting from the casting station, the reclaimed molding material being used as a sand mold for the casting station. In a casting facility using a sand mold, which is provided with a regenerating treatment station for supplying the regenerating treatment station, a replenishment station is interposed between the casting station and the regenerating treatment station, and the replenishment station is provided. Is set so that the quality of the mold material supplied to the regenerating station is constant by replenishing the mold material with respect to the mold material after the casting. Casting equipment using a mold. 2. A casting station for casting using a sand mold, and receiving and reclaiming a casting material from the casting station after casting, and the reclaimed molding material is used as a sanding mold for the casting station. A plurality of sets of basic equipment having a plurality of sets as a set, and a reprocessing station supplied to the section, and a casting product received from the casting station in the basic equipment of each set and attached to the casting product. Product processing common station for supplying the mold material to the regeneration processing station in the basic equipment of one of the plurality of sets, and the other of the plurality of sets. In the basic equipment of this set, the casting material and the regeneration treatment station are interposed between the casting station and the regeneration station to supply the casting material to the casting material after the casting, and the regeneration treatment station is used. -A replenishment station that keeps the quality of the mold material supplied to the station constant, and a replenishment station from the reprocessing station in the one set of basic equipment to the replenishment station in the other set of basic equipment. And a supply means for supplying a mold material in the regeneration treatment station, the casting facility using a sand mold. 3. The quality according to claim 1, wherein the replenishment station replenishes the mold material after the casting with the mold material to keep the quality of the mold material supplied to the regeneration treatment station constant. As a means for setting so that, a supply amount adjusting means for adjusting the supply amount of the mold material,
Based on a signal from the mold material information detecting means for detecting the information of the mold material after the casting, the mold material information detecting means,
A casting facility using a sand mold, comprising: a control unit that controls the replenishment amount adjustment unit. 4. The template material information detected by the template material information detecting means according to claim 3,
A casting facility using a sand mold characterized in that a sand / metal ratio and a recovered mold material amount. 5. The proportion of quality components in the mold material supplied by the replenishment station is greater than the proportion of quality components in the mold material after casting according to claim 1 or 2. A casting facility using a sand mold characterized by being set.