DE2462558B1 - Dosing device for filling ceramic slip into a mold - Google Patents

Description

It shows F i g. 1 a metering device according to the invention in closed State; 2 shows the device in the open state with a section Casting mold; 3 and 4 show a detail of the metering device in plan view and side view.

A casting station 6 can be displaced and locked on a rail 42 stored. On the support plate 43, the outflow end 44 is an elastically deformable one Casting hose 65 attached in such a way that its axis coincides with the axis of the casting mold 25 practically matches. On both sides of the outflow end 44 of the hose 65 a locking lever 45, 46 is rotatably mounted about an axis 47 (F i g.3). Above two ring gears 48, the locking levers 45, 46 are coupled in terms of movement. The fig. 1 and 3 show the casting station in the closed position. A roller 49 on the upper arm of a each locking lever 45, 46 rests on a sliding wedge 50 and 51, which is on a Servomotor 52 or 53 is attached and its back on an adjustable Eccentric 54 is supported.

The casting station 6 also has a servomotor 55 which has an extendable guide rod 56 which is attached to a holder 57 with a light barrier 58 carries. There is also a button 60 attached to a plate 59 of the rod 56, which engages in the opening 30 of the mold 25 up to the maximum filling level. At the Plate 59 is also mounted a smaller servomotor 61, the piston rod 62 one that can also be moved into the mold opening 30 but deeper than the button 60 Button 63 carries. From Fig. 1 it can be seen that the mold 25 with an adjustable Reflection tape 64 is provided, on which a further on the support plate 43 of the Casting station 6 attached light barrier 66 acts.

The operation of the device according to the invention is as follows: As soon as the respective mold 25 has moved into the casting station 6, which may be the case is determined by an optical scanning device, that drives Frame 56 on the servomotor 55 down until the light barrier 58 hits the upper one Edge of the mold stops the downward movement. In this position, the button 60 grips so far into the mold opening 30, as this corresponds to the maximum fill level.

This shutdown actuation for the servomotor 55 triggers at the same time Switching on the servomotor 61 and thus moving the button 63 into the mold opening the end. This button 63 extends deeper into the mold 25.

At the same moment, the servomotor 52 responds and pulls the sliding wedge 50 from its leadership between the eccentric 54 and the roller 49 of the locking lever 45.

This moves to the half-open position and transmits its Movement through the drive coupling on the locking lever 46. The outflow opening of the pouring hose 65 is partially released, and the slip arrives in the Shape. Is the bottom piece of the mold 25 with a small amount of slip per unit of time covered, the servomotor is controlled via a timing element (not shown) 53 actuated and the sliding wedge 51 between the eccentric 54 and the roller 49 of the locking lever 46 removed so that the two locking levers 45 and 46 are now fully open of the pouring hose 65 can release. The slip flows fully into the Form 25 until the level reaches the button 63. The impulse emanating from this causes the sliding wedge 51 to be retracted by the servomotor 53 and thus the half closing movement of the two locking levers 45 and 46, so that the slip only flows in even less. The slow influx prevents air pockets in the fold area of the workpiece. If the slip now touches the button 60, the sliding wedge is also activated 50 retracted again by the servomotor 52, and the two locking levers 45 and 46 close the outflow end 44 of the pouring hose 65 completely. The Servomotor 55 returns the linkage 56 to the starting position according to FIG. 1 back.

Claims (6)

Claims: 1. Dosing device for filling with ceramic Slurry into a casting mold with a vertically movable scanning device for detection the height of the casting mold and a feeler device that can be retracted into the casting mold Detecting the degree of filling of the casting mold to control a closing member for one Slurry feed channel, d a -d u r c h g e n n n z e i c h n e t that the sensing device two pushbuttons (60, 63) that can be retracted into the mold (25) at different heights for each filling level, the closing member is gradually controllable and the Scanning device is designed as a light barrier (58). 2. Dosing device according to claim 1, characterized in that the buttons (60, 63) can be moved independently of one another. 3. Dosing device according to claim 1 or 2, characterized in that that one button (60) is connected to the scanning device and the other button (63) is arranged to be movable relative to the first button (60). 4. Dosing device according to one of claims 1 to 3, wherein the Closing member has two closing levers, characterized in that the closing levers (45, 46) coupled in terms of movement and each adjustable by one against one Stop supported sliding wedge (50, 51) are pivotally mounted against each other. 5. Dosing device according to claim 4, characterized in that the locking levers (46, 45) roll at the points of application of the sliding wedges (50, 51) (49) have. 6. Dosing device according to claim 4 or 5, characterized in that that the stop is designed as an eccentric (54). The invention is directed to a dispensing device for filling of ceramic slip into a casting mold with a vertically movable scanning device for detecting the height of the casting mold and a feeler device that can be retracted into it for detecting the filling level of the casting mold for controlling a closing element for a slip feed channel. A metering device of this type is known (DE-AS 15 84 581), in which the scanning device consists of a feeler element, which by its impact is actuated on the top of the mold. When mechanically scanning the top of the casting mold, there is mechanical wear on the top of the plaster of paris existing molds, and this abrasion can easily get into the interior of the mold and with it get into the ceramic mass. This is highly undesirable because it is predominantly affects the quality of the products. The on the filling level of the mold appealing touch device consists of two as in this known device single-pole electrodes formed sensors, which when touched the electrically conductive ceramic mass close a circuit. In this way, only one level can be filled can be determined in the mold. As a result, the shapes can only with a small Amount of slip per unit of time can be charged if a certain filling accuracy should be adhered to. Of the The filling process is therefore time consuming. The invention is based on the object of a metering device of the type mentioned in such a way that the casting molds are filled as quickly as possible and that there is no abrasion of the surface of the molds. The solution to this problem is that the sensing device is two at different heights in the mold has retractable buttons for each filling level, the closing element is gradually controllable and the scanning device is designed as a light barrier. The non-contact scanning device eliminates the damage the mold and the abrasion, and through the gradual controllability of the closing element it is possible, for example, at the beginning and at the end of the casting process only fill in a smaller amount of slip per unit of time while in between the full slip inflow occurs. The filling process can thereby run more precisely and much faster. It has proven to be particularly advantageous to use the buttons independently to be arranged movable from one another. In this way, various control functions, such as. B. the Regulation of the pouring amount per unit of time, perfectly without mutual hindrances being controlled. Both buttons can each be set to their own filling level. If the slurry level reaches the button, which has been retracted further, the closing element closes partially. The reduced slip flow allows very precise metering. According to a further feature of the invention it is provided that the Button connected to the scanning device and the other button opposite the first is arranged movably. This has the advantage of a simpler structural design the device, because the button, which only partially throttles the feed, always must be arranged below the other button. In a particularly useful embodiment of the invention Dosing device in which the locking member has two locking levers are the Closing lever coupled in terms of movement, and each by an adjustable stop supported sliding wedge can be pivoted against each other if necessary these closing levers are under spring action in the closing direction or opening direction, depending on how the sliding wedge acts on the lever. If a two-stage control of the pouring amount is used, first one of the sliding wedges is actuated and thus a partial movement of the two Cause casting levers, which are driven by toothed segments or in some other way are. If another sliding wedge is then actuated, the full closing or Opening movement of the closing lever released. Such - control of the pouring station can be designed mechanically but also hydraulically or pneumatically in a simple manner be. To reduce friction, the invention provides that the locking lever have roles at the points of application of the sliding wedges. Is like another one Feature of the invention provides that the stop for the locking lever is designed as an eccentric, there is another control option for influencing the pouring quantity. The invention is based on a preferred one shown in the drawing Embodiment explained.