CS260137B1 - Closure control device - Google Patents

Abstract

The solution is intended for controlling the closure of the inlet opening of a glass furnace, the so-called "shearing furnace". The device ensures a sliding, reciprocating and rotary movement of the closure in the form of a lid relative to the inlet opening. When opening, the lid, which may be stuck with glass, is first evenly released and moved away from the edge of the opening in both directions and then only moved outside the inlet opening without operator intervention, which reduces the possibility of damaging the edge of the opening and contaminating the glass. Closing occurs in the opposite sequence. The solution can also be used to control closures, for example, of cooking vessels in the food or chemical industry.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for actuating the inlet opening closure of a glass furnace.

The glass furnace, the so-called steeping furnace, serves in the costume jewelery industry for continuous dosing of previously melted glass in the furnace to the places of its further processing, eventually also for the modification of some physical quantities of glass. The glass is usually transferred to the furnace manually from the furnace by means of a ladle and is poured through an inlet opening located from above, which is manually covered by a lid closure to reduce heat loss. pouring the glass into the furnace requires considerable skill and attention of the operator, however, the glass often gets caught and adheres to the edge of the inlet opening, which causes both contamination of the glass with particles of refractory material and the lid adhering to the edge of the opening. The adhered lid should be laboriously and violently released before refilling the furnace, which may damage the edge of the inlet opening and contaminate the glass in the furnace with the refractory material.

The disadvantage of the present invention is substantially reduced by the glass furnace inlet opening closure device of the present invention, wherein the shaft is rotatably mounted in a bearing which is rigidly attached to the furnace body and rotatably and rotatably mounted thereon. the arm of the arm carrying the closure. The arm hub is provided in its cavity with a gripper that permanently engages a groove formed on the shaft surface and is provided at its lower face with a stop that temporarily engages a groove formed on the upper face of the bearing. The shaft is kinematically coupled to a motor, for example a reverse motor. Preferably, the groove on the shaft surface has the shape of a spiral with flattened ends.

The advantage of the device for controlling the inlet opening according to the invention is that after engagement of the motor, the shutter, possibly even glued, is first released evenly from the edge of the inlet opening in axial direction and then lifted and then moved away from the inlet opening without intervention This reduces the possibility of damaging the edge, the inlet opening and hence the possibility of contamination of the molten glass by the particles of the refractory material through which the opening is walled. When closing, does it first move ?! cap over the inlet opening and then only to its smooth fit and seat ?! On the edge

.. the inlet opening.

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The shaft 2 is coupled to the drive motor (not shown), kinematic, for example by a toothed gear X, for example. A shaft 6 of the arm carrying a firmly attached closure 7 of the inlet opening of the furnace 1 is rotatably and reciprocally mounted on the shaft. 6. The charge in the cavity provided with a carrier 2 ^{in the} form of a pin which permanently engages into the groove 11 in the form of a spiral with a flattened end which is formed on the surface of the shaft and at its lower · head has a stop 8 in the form of a projection which temporarily engages into the groove 10 which is formed on the upper face of the bearing 2 *

The glass furnace inlet control device operates as follows:

In the initial position, when the shutter 2 firmly closes the inlet opening of the glass furnace, the hub stop 8 fits into the groove 10 of the bearing 2 and the carrier 2 engaging the shaft groove 11 at the lower end. two of their extreme positions. When the shaft 2 is rotated, the hub 6 moves with the arm 2 upwards, thereby raising the shutter 2 from the inlet opening of the furnace 1, since the stop 8 engaging in the groove 10 the bearing 2 prevents the hub from rotating relative to the bearing 2 and the carrier 2 follows the rising part of the groove 11. Only when the carrier 9 reaches the upper part of the groove 11 does the stop 8 come out of the groove 10 and make it clear.

When the shaft is rotated in the opposite direction, the stop 8 does not initially allow the sliding movement of the hub 6 downwards on the shaft, because it rests on the bearing face 2, only the hub 6 with the arm 2 and the lock 2. up to the position above the inlet opening of the furnace 1, when the stop 8 enters the groove 10 'in the bearing 2. As the shaft 3 continues to rotate, the stop 3 moves into the groove and the hub 6 moves along the shaft 6, the carrier 2 follows the descending portion of the groove 11 until the closure 2 rests firmly on the edge of the inlet opening. '

The closure actuating device according to the invention can be used wherever it is necessary to first move adjacent parts, e.g. the closure away from the opening, in the axial direction and then to rotate them relative to each other, i.e. for cooking containers in the food or chemical industry.

Claims (2)

SUBJECT OF THE INVENTION A glass furnace inlet opening control device comprising a shaft, a bearing, a hub arm and a motor, characterized in that a shaft (3) is rotatably reciprocally mounted in a bearing (2) firmly attached to the furnace body (1), on which the hub (6) of the arm (5) with the closure (7) is rotatably and reversibly mounted, the hub (6) in its cavity being provided with a gripper (9) permanently engaging a groove (11) formed on the shaft surface ( 3), and at its lower face is provided with a stop (8) temporarily engaging a groove (10) formed on the upper face of the bearing (2), and wherein the shaft (3) is kinematically coupled to an engine mounted on the furnace body ( 1). A closure actuating device according to claim 1, characterized in that the groove (11) has the shape of a spiral with flattened ends.