RU2014946C1 - Device for centrifugal casting - Google Patents

Abstract

FIELD: metallurgy. SUBSTANCE: the device has a stationary body, detachable mould with working spaces extending outside the axis of rotation of the mould, and well extending in the axis of rotation, mould revolving mechanism, crucible and swinging gear. The crucible is combined with the mould and has a working space conjugated to the well inlet port, and its melting zone is shifted with respect to the axis of rotation of the mould and projects in the radial direction beyond the edge of the well port. The swinging gear is a platform mounted on a stationary bed for swinging in the vertical plane and fixing in an inclined position, the mould with the revolving mechanism and crucible extending below its axis of rotation is mounted on the platform. Besides, the device is provided with an electrode of the electric melting device installed in the crucible wall, one end of the electrode extends in the crucible melting zone, and the other is electrically coupled to the metal body of the mould. EFFECT: facilitated procedure. 3 cl, 2 dwg

Description

 The invention relates to small metallurgy and can be used for casting small items, for example denture, from non-ferrous, including noble, metals.

 A centrifugal denture casting machine is known, comprising a rotating platform (drum) with a vertical axis of rotation and a melting chamber mounted thereon and a radially spring-loaded casting mold connected to the melting chamber in a static state. After the metal is melted in the melting chamber, the platform is rotated, while the melt flows under the action of centrifugal forces into the casting mold. As the speed increases, the mold (with the melt), overcoming the resistance of the springs, moves in the radial direction from the axis of rotation, which ensures an increase in centrifugal force and, accordingly, the necessary quality of the casting. A disadvantage of the known device is its complexity, due to the presence of a spring mechanism of the mold, as well as a special counterweight of complex design.

 The closest in technical essence is a device for centrifugal casting, containing a fixed body, a removable casting mold made in the form of working cavities located outside the axis of rotation, and a metal receiver placed along the axis of rotation, and a rotation mechanism of the mold.

 A disadvantage of the known device is the complexity, large dimensions and weight of the installation, due to the presence of the casting bowl, locking devices and metal wires as separate units located at a certain distance from the rotating casting mold and equipped with movement mechanisms in space. In addition, the remoteness of the melting device from the metal receiver leads to the cooling of the melt and a decrease in its fluidity on the way from the melting chamber to the inlet of the metal receiver, which in turn leads to a decrease in the quality of the obtained castings.

 The aim of the invention is to simplify the device, reducing its size and weight, improving the quality of castings.

 The goal is achieved in that a centrifugal casting device comprising a fixed housing, a removable casting mold with working cavities located outside the mold rotation axis and a metal receiver arranged along the rotation axis, and the mold rotation mechanism are provided with a crucible combined with the mold and having a working cavity coupled to the inlet of the metal detector, a rotary mechanism in the form of a platform mounted on a fixed base with the possibility of rotation in a vertical plane and fixation in an inclined position, at the same time, a mold with a rotation mechanism and a crucible is mounted on the platform, the melting zone of which is radially shifted beyond the edge of the opening of the metal receiver.

 The goal is also achieved by the fact that the center of gravity of the system is a rotary platform-rotation mechanism - a mold with a crucible is located below the axis of rotation of the platform. In addition, the device is equipped with an electrode of an electric melting device installed in the wall of the crucible, with one end of the electrode located in the melting zone of the crucible, and the other electrically connected to the body of the mold, which is made of metal.

 The set of essential features of the proposed technical solution allows us to simplify the device, reduce its dimensions and weight due to the fact that the crucible is directly combined with the mold, i.e. it is an open cavity formed in a mold at the entrance to the metal receiver (central gate channel, and the form, together with the rotation mechanism, is mounted on the movable part (platform) of the rotary mechanism to rotate it in a vertical plane. This makes it possible to simplify the crucible design as well as eliminate locking devices, metal wires and casting bowl.In addition, this constructive execution of the mold allows to improve the quality of castings by reducing to a minimum the path of movement of the melt and from the crucible to the working of the mold cavity and elimination podstuzhivaniya and reduce melt fluidity on the way.

 Figure 1 shows the proposed device; figure 2 is a view of figure 1.

 The centrifugal casting device (FIG. 1) comprises a fixed body 1 on which a swivel assembly 2 of the rotation mechanism is mounted. The movable (rotary) part of the latter is made in the form of a platform 3 with a horizontal axis of rotation. A rotation mechanism is installed on the platform, consisting of an electric motor 4 and a cage 5 located on its axis, in which a removable mold 6 is installed.

 The mold (Fig. 2) contains a metal housing 7 filled with refractory material 8, forming working cavities 9 located outside the axis of rotation of the mold and connected by the sprues 10 with a metal receptacle (central sprue channel) 11 located along the axis of rotation of the mold. An open cavity 12 is formed in the upper part of the mold, which is directly mated to the inlet of the metal detector 11. The melting zone 13 of the cavity 12 is offset relative to the axis of rotation of the mold and extends radially beyond the edge of the inlet of the metal detector. An electrode 14 of the electric melting device is installed in the mold wall from the side of the melting zone 13 (the second electrode 15 of the device is free), one end of the electrode being located in the melting zone and the other electrically connected to the metal body 7 of the mold, which in turn is connected by a removable conductor 16 with one of the terminals of the current source of the electric melting device (not shown in figure 2).

 The center of gravity (CT in Fig. 1) of the turntable 3 with the rotation mechanism mounted on it and the mold with the crucible is located below the axis of rotation of the platform (at a distance from the axis of rotation). When the platform 3 is deflected by an angle α from the vertical position (FIG. 2), it is fixed in an inclined position with the help of a spring-loaded clamp 17 acting with the protrusion of the platform. From the side of the cavity 12 of the mold, a lid 18 is mounted pivotally connected to the rotary platform 3.

 The device operates as follows.

The housing 1 of the device (figure 1) is mounted on a fixed base (for example, on a table), after which the rotary platform 3 is installed in an inclined position (figure 2) and fixed in this position. Mold 6 is removed from a holder 5 rotation mechanism by pulling the cover 18 and its carried preheating to 850-900 ° ^C. The heated mold is placed in a holder 5 fixed to it and adjusted by rotation about the axis so that the melting zone 13 (and also the electrode 14 in the case of electric melting) was below the edge of the inlet of the metal receiver 11. The melting zone is filled with a charge and melted by, for example, a burner flame (not shown in FIG. 2). If an electric melting device is used, one of the electrodes 14 mounted in the crucible is connected through a metal casing 7 and a removable conductor 16 to the minus terminal of the device, and the other electrode 15 connected to the plus terminal is brought to the charge during melting and produced plasma heating of metal and its melting.

 After the metal is melted, the electrode 15 is removed and the conductor 16 is turned off (in the case of electric melting), and the form on the side of the crucible is closed by the lid 18. Then, by pressing down the spring-loaded clamp 17, the platform 3 is released and the latter, together with the rotation mechanism and the casting mold, begins to rotate in the hinge assembly 2 under by gravity, coming to a stable vertical position. In this case, the molten metal is directly poured from the mold melting zone 13 into the metal receptacle 11 and the sprues 10. Then, using the electric motor 4, the mold is rotated, as a result of which the molten metal from the sprues 10 enters the working cavities 9 of the mold and hardens over time . After solidification of the ingots, the rotation mechanism is turned off, the lid 18 is opened, the mold is removed from the holder 5 and disassembled, removing the obtained castings.

 By adjusting the distance from the center of gravity (CG) of the rotary system to the axis of rotation of the platform 3 (Fig. 1), the necessary mode of swinging of the platform 3 (Fig. 1) is established and it is set to a vertical position (for example, from the condition of the maximum speed of filling of the gate system with the melt metal spatter). The necessary mode of filling the mold with the melt (with a maximum speed without loss of fluidity of the metal) is also achieved by choosing the moment the motor 4 is turned on when the platform 3 is installed in a vertical position.

 The present invention allows to significantly simplify the installation of centrifugal casting, to make it compact and compact. In contrast to the device in which the metal is melted in separate refillable crucibles, the proposed device provides higher quality of the obtained castings, since the casting cavity before each casting is formed anew together with the metal receiver, gates and mold working cavities. This ensures the cleanliness of the surface with which the melt interacts, and eliminates its contamination by foreign particles.

 Due to portability and light weight, the device can be used in small laboratories and denture departments, including in adverse rural conditions.

Claims (3)

 1. DEVICE FOR CENTRIFUGAL CASTING, comprising a fixed casing, a removable casting mold with working cavities located outside the axis of rotation of the mold, and a metal receiver located along the axis of rotation, and a rotation mechanism of the mold, characterized in that, in order to simplify, reduce dimensions and weight To improve the quality of castings, it is equipped with a crucible combined with a mold and having a working cavity, conjugated with the inlet of the metal receiver, with a rotary mechanism in the form of a platform mounted on a fixed base with a possibility rotation in the vertical plane and fixing in an inclined position, while the mold is mounted on the platform with a rotation mechanism and a crucible, the melting zone of which is offset from the axis of rotation of the mold and protrudes in the radial direction beyond the edge of the opening of the metal receiver.  2. The device according to claim 1, characterized in that the center of gravity of the platform with the rotation mechanism mounted on it and the mold with the crucible is located below its rotation axis.  3. The device according to p. 1, characterized in that it is equipped with an electrode of an electric melting device installed in the wall of the crucible, with one end of the electrode located in the melting zone of the crucible, and the other electrically connected to the body of the mold, which is made of metal.

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