ES3034094T3 - Protective element for a feeder sleeve - Google Patents

Abstract

With the present invention, a protective element (E) suitable for use with at least one mini-lifting sleeve (1) is developed. This element comprises a linear cavity (1a) through which a fluid for the feeding process can pass, at least one outer wall (1b), at least one base (1c) and at least one opening (1d) located in the base (1c) that allows communication of the cavity (1a) with the outside. Said protective element (E) comprises at least a lower wall (3) suitable for housing the base (1c) of the mini-lifting sleeve (1) and made of a more flexible material than the mini-lifting sleeve (1) itself; at least one side wall (4) suitable for housing the outer wall (1b) of the mini-lifting sleeve (1) and made of a more flexible material than the mini-lifting sleeve (1) itself; at least one opening (3a) located in said lower wall (3) that allows the passage of fluid between the opening (1d) and the outside. (Automatic translation with Google Translate, no legal value)

Description

DESCRIPTION

Protective element for a feeder sleeve

Technical field

The present invention relates to a combination of a protective element and at least one mini-riser sleeve.

Prior art

Today, molds, also known as feeder sleeves, are used in the foundry industry to carry out the metal casting process. These molds contain sand and various chemicals. Feeder sleeves are exothermic feed aids produced in various shapes and sizes using a preforming method, in which the feeder sleeves are produced from a pre-prepared chemical mixture according to the desired exothermic strength.

With developing technology, innovations are also being made to casting production methods. Thanks to high-pressure automatic molding lines suitable for mass production, quality castings are obtained more quickly. Consumables used in automatic molding lines must inevitably keep up with this development. Therefore, making the use of a feeder in automatic molding lines practical positively affects the production rate. A mini-riser system, which functions fully as both a feeder and is able to withstand mechanical effects on automatic molding lines, improves casting quality and production rates. The feeder sleeve, which has a brittle structure, is prevented from being damaged by the loads applied in high-pressure automatic molding lines thanks to mini-riser clamping elements. These clamping elements allow the sand to be fixed in a specific area within the mold.

Patent document WO2017007433A1 discloses an exemplary mini-riser system comprising mini-riser fixing elements. The feeding system disclosed in said document comprises a feed sleeve, a neck piece functioning as a fixing element, and a conical piece. Under the effect of the force applied during the molding process, said neck piece moves on the vertical axis to be led into the cavity provided within the feed sleeve. However, patent document WO2017007433A1 does not mention a feature of the neck piece and the conical piece that allows them to withstand the applied force. Furthermore, said document does not comprise an additional protective element between the feed sleeve and the surface to which the sleeve is fixed to provide protection of the feed sleeve.

Documents GB 2260285 A and EP 1567294 A1 describe examples of feeder assemblies.

Brief description of the invention

With the present invention, a protective element suitable for use with at least one mini-riser sleeve is developed, comprising a linear cavity through which a fluid material for the feeding process can be passed, at least one outer wall, at least one base, and at least one opening located in the base and providing the cavity with communication with the external environment. Said protective element comprises at least a bottom wall suitable for receiving the base of the mini-riser sleeve and made of a more flexible material than the mini-riser sleeve; at least one side wall suitable for receiving the outer wall of the mini-riser sleeve and made of a more flexible material than the mini-riser sleeve; at least one hole located in said bottom wall and allowing fluid to pass between the opening and the external environment. Thanks to the protective element according to the invention, the molding rate and the quality of the feeder sleeve are increased by applying it directly to the mold pattern in foundries where high-pressure molding lines are used; and due to the flexible structure of the protective element, which is made of a more flexible material than the mini-riser sleeve, the mini-riser sleeve is prevented from being damaged by the compression effect applied to it during the molding process. The invention is defined in the appended claims.

Object of the invention

An object of the present invention is to develop a protective element that provides reduction of the load applied to the feeder sleeve during a molding process.

Another object of the present invention is to develop a protective element that provides improved strength of the feeding element in the position in which it is fixed.

Description of drawings

Exemplary embodiments of the protective element for a feeder sleeve according to the present invention are illustrated in the drawings, in which:

Figure 1 is a side sectional view of a feed sleeve used in conjunction with the protective element according to the present invention.

Figure 2 is a side sectional view of the protective element according to the present invention.

Figure 3 is a perspective view of the protective element according to the present invention.

Figure 4 is a side sectional view of the protective element in use with a feed sleeve.

All parts illustrated in the figures are individually assigned a reference number and the corresponding terms of these numbers are listed below:

Protective element (E)

Feeder sleeve (1)

Cavity (1a)

Exterior wall (1b)

Base (1c)

Opening (1d)

Bottom wall (3)

Hole (3a)

Side wall (4)

Description of the invention

In order to ensure rapid and high-quality casting production on high-pressure automatic molding lines used for mass production of castings, it is appropriate to use mini-riser systems in certain areas of the mold model. For the molding process, in order to improve the quality and production rate of castings, it is important to use a mini-riser system that functions fully as a feeder and is capable of withstanding mechanical stresses on the automatic molding line. Within this context, the present invention develops a protective element that prevents the fragile feeder sleeve in the mini-riser system from being damaged by the load to which it is subjected during the molding process. The invention is defined in the appended claims.

The protective element (E) according to the present invention, an exemplary view of which is illustrated in Figures 2-4 , is suitable for use with at least one mini-riser sleeve (1), an exemplary view of which is illustrated in Figure 1 and comprising a linear cavity (1a) through which a fluid material for the feeding process can be passed, at least one outer wall (1b), at least one base (1c), and at least one opening (1d) located in the base (1c) and providing the cavity (1a) to communicate with the outside environment. Said protective element (E) comprises at least a lower wall (3) suitable for receiving the base (1c) of the mini-riser sleeve (1) and being made of a more flexible material (e.g., ceramic fiber) than the mini-riser sleeve (1); at least one side wall (4) suitable for receiving the outer wall (1b) of the mini-riser sleeve (1) and which is made of a more flexible material (for example, ceramic fiber) than the mini-riser sleeve (1); at least one hole (3a) located in said lower wall (3) and which allows a passage of fluid between the opening (1d) and the external environment.

In an exemplary embodiment of the invention, the mini-riser sleeve (1) is placed inside said protective element (E). The mini-riser sleeve (1) and the protective element (E) are then placed together inside the mold. During compression of the mold, a compression force is created on the mini-riser sleeve (1) and the protective element (E). In this case, since the bottom wall (3) and the side wall (4) of the protective element (E) are made of a more flexible material than the mini-riser sleeve (1), said compression force is absorbed by said protective element (E) by means of the formation of a frictional force between the outer wall (1b) of the feeder sleeve and the side wall (4) of the protective element (E). In this way, the mini-riser sleeve (1) is prevented from being damaged by said compression force. In this case, by means of said hole (3a), the metal in fluid form during use of the mini-riser sleeve (1) is allowed to be filled into the cavity (1a) through said opening (1d) and removed again when necessary.

In a preferred embodiment of the invention, the porosity of said protective element (E) is greater than that of said feed sleeve (1). Therefore, the protective element (E) is capable of stretching under the compression force.

In a further preferred embodiment of the invention, said protective element (E) is produced using a vacuum forming production method. Therefore, the production process can be carried out in a simple and practical manner.

Thanks to the protective element (E) according to the invention, the quality and the molding rate of the feeder sleeve (1) are increased by applying it directly on the mold pattern in foundries where high pressure molding lines are used; and due to the flexible structure of the protective element (E) which is made of a more flexible material than the mini-riser sleeve (1), the mini-riser sleeve (1) is prevented from being damaged by the compression effect applied to it during the molding process.

Claims (2)

1. A combination of a protective element (E) and at least one mini-riser sleeve (1) comprising a linear cavity (1a) through which a fluid material can pass for the feeding process, at least one outer wall (1b), at least one base (1c), and at least one opening (1d) located in the base (1c) and providing the cavity (1a) to communicate with the external environment, characterized in that said protective element (E) comprises; • at least one lower wall (3) suitable for receiving the base (1c) of the mini-riser sleeve (1) and which is made of a more flexible material than the mini-riser sleeve (1), wherein said lower wall (3) is made of ceramic fiber; • at least one side wall (4) suitable for receiving the outer wall (1b) of the mini-riser sleeve (1) and which is made of a more flexible material than the mini-riser sleeve (1), wherein said side wall (4) is made of ceramic fiber; • at least one hole (3a) located in said lower wall (3) and allowing fluid to pass between the opening (1d) and the outside environment. 2. A combination of a protective element (E) and at least one mini-riser sleeve (1) according to claim 1, characterized in that the protective element (E) is made of a material whose porosity is greater than that of said feeder sleeve (1).