DE543532C - Lowering device for hydraulically or pneumatically operated molding machines - Google Patents

Description

The invention relates to a lowering device for hydraulically or pneumatically operated Molding machines for foundries and ceramic factories.

A lifting device for molding machines is known in which the displacement liquid During the operation of the piston, a channel with an adjustable passage cross-section is available Decline besides this channel there is a second path that is only open for decline.

According to another suggestion, it should

The forms are lifted off by the displacement fluid passing through a bore enters the interior of the hollow piston in the bottom and vice versa flows out.

A modification of this design is that in the bore of the floor of the lift-off piston protrudes a locking pin which is fixed in the cylinder and which has a changing cross-section and therefore the bore in the piston crown narrows more or less depending on the position of the piston. As a result, the speed of the lift-off movement and the return path are different influenced.

The present invention consists in such a design of a lowering device, that it can be used on reversible molding machines without the displacement liquid, usually oil, leaks from the lowering cylinder. She also grants in the simplest way any setting of the lowering movement and allows the lowering device can also be used as a pressing device.

The drawing shows, for example, a reversible molding machine with lowering of the liquid It show:

Fig. Ι a front view of the machine,

Fig. 2 is a side view with a partially vertical section,

Fig. 3 shows the lowering device of the machine in the completed pressing position, also in a vertical position Cut,

4 shows a side view of the turned machine with a partially vertical section,

5 shows the lower part of this machine in the lowered position,

6 and 7 cross-section and vertical section through regulating members,

8 shows the front view of the lowering device.

An axle 2, which carries an arm 3, is rotatably mounted in a frame 1. At A cylinder 4, which carries a molding table 5, is attached to one end of the arm. This can be done by one of the known vibrating devices built into the cylinder 4 be brought into shaking motion. The other end of the arm carries a double cylinder 6, 7. In the cylinder 6, a piston 8 is sealingly displaceable, which with one Plunger 9 of cylinder 7 forms one piece. It is also a cylindrical part 10

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and one circular disc elongated. In the part ι ο the support rod 12 of a plate 13 is screwed.

The piston 8 is designed in the manner shown so that it has a receiving space 14 for liquid, usually oil, provides. The piston 9 is conical at its end screwed in. He has bores 15, which the space above the piston 9 with the space Connect over the piston 8. In 'a side gate on the cylinder 7 is a Round slide 16 attached, which, depending on its position, the channels 17 of the sprue closes or opens. The round slide is adjusted by a hand lever 18. By a tube 19 sealed in the connecting wall of the cylinders 6, 7 compressed air can be introduced into the space above the piston 8; the pipe 19 also serves to evacuate air. The necessary for this dual function of the tube 19 Closing device can, for. B. consist of a three-way cock, not shown, which in its one position connects the line 19 with a compressed air line, in its other position, however, with the atmosphere, in the third it is complete concludes.

The length to which the tube 19 protrudes into the cylinder 6 is dimensioned so that no liquid can enter the pipe. It will not be useful at the drawn one Place inserted into the cylinder, but offset by 90 ° from the cylinder axis, the turning of the arm always has to be done in such a direction that the pipe section 19 protruding into the cylinder lags behind the axis of the cylinder. Through this the penetration of liquid into the tube 19 is completely avoided.

When compressed air is supplied through the pipe 19, it spreads in the space above the piston 8; it also occurs through the bores 15 and 17 in the space above of the piston 9 and thereby presses the piston 9, 8 with the pressure plate 13 downwards, whereby the molding compound is compressed in a known manner. The required The model and the molding box and other known facilities are not shown. This end position is shown in FIG. 3. When the arm 3 is rotated by 180 °, the Position according to FIG. 4 reached. The liquid in the space-14 is at Turning downward dropped; it also runs through the bores 17 into the room underneath the piston 9, allowing the air to pass through the bores 15 in the cylinder 6 promoted. If now the slide 16 is closed and the line 19 with the Connected atmosphere, the pistons 9, 8 with the plate 13 only in the Lower dimensions as it allows the fluid to pass through the relatively narrow bore 15 corresponds.

If the lowering is to take place more quickly, the can be opened by adjusting the hand lever 18 Closing member 16 so far that its bore 20 (FIG. 6) protrudes into the channel 17. The greatest speed is naturally achieved when the closure member 16 with its through-channel 21 is fully open. The end position of the lowering parts is shown in FIG. After this has been reached, the molding box is lifted off. Now, with the line 19 closed, the arm 3 is again rotated by 180 °, as a result of which the position of FIG. 2 is reached again. Here the liquid is again completely in the space 14 of the piston 8 accumulated. To in this position an unintentional lowering of the pistons 8, 9 and accordingly To avoid the press plate 13, an eye 25 is cast on the cylinder 6, in which a tab 26 is rotatably suspended. At the other end of that tab is a second bracket 27 rotatable and also rotatable with an eye 28 of the disk 11 tied together. A hand lever 29 firmly connected to the bracket 26 or its pivot pin allows the tab 26 and thus also the tab 27 to be adjusted. The three axes of rotation the tabs are in their two end positions one below the other that the middle The axis of rotation exceeds the dead center position after the cylinder 6. In these positions So the tab arrangement is self-locking, i. H. the disk 11 and thus also the plate 13 cannot move up or down. Should such an adjustment occur, so the hand lever 29 is able to move outward according to FIG. 1, so that the dead center position is disturbed. Only then can the panes lower.

Instead of the bracket arrangement just described, another one can have the same purpose fulfilling device -be used. Instead of the rotary valve 16 is z. B. with Advantageously, a conical end part can also be used (FIG. 7), which is more or less ger penetrates deeply into the bore 23 of a closure housing 24.

The lowering device can also be used if the lowering piston is not used as a Plunger should be used. The conclusion of the tube 19 is then by a to effect simple tap, which connects the pipe with the atmosphere in its open position. Instead of the fixed Cylinders with moving pistons can also be used with fixed pistons with moving cylinders. If the

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Necessity results, the passage through the holes ι S or through a the pipeline replacing it must be provided with a regulating device to control the cross-section of the passage to be able to change.

In such an embodiment that at one end of the rotary arm 3, the pressing device and the vibrating device is located at the other end of the arm, the axis of rotation is located when fully balanced roughly in the middle of the swivel arm. If, on the other hand, there is no vibrating device compensating for the torque of the pressing device is used, so that one end of the arm is significantly more heavily loaded than the other end, the axis of rotation of the arm is located off center of its length, d. H. it arises from the rotating arm of the same length a rotating part which is smaller and one which is larger than half an arm's length; Consequently turning the machine is less easy because "the long arm requires a large swivel space, which is why often a pit must be provided in the foundry floor to allow the arm to pivot to be able to.

Claims (9)

Patent claims: i. Lowering device for hydraulically or pneumatically operated molding machines for foundries and ceramics factories whose lowering speed is caused by a change in resistance of the to be displaced Fluid is regulated, characterized in that the working fluid when the lowering piston is lowered by a container is received, which forms an extension of the lowering cylinder and by a with the lowering piston (9) connected piston (8) is complete. 2. Lowering device according to claim 1, characterized in that the piston (8) and the extension (6) of the lowering cylinder coaxially to the piston (9) are arranged. 3. Lowering device according to claim 1 and 2, characterized in that the piston (8) has an annular cavity of such a size that it encloses the entire for actuating the lowering device can absorb the required amount of liquid. 4. lowering device according to claim 1 to 3, characterized in that the Receiving space (31) and the displacement space (7) through a channel (17) from in Any limits variable cross-section and connected by a known bore (15) of the piston (9) are. 5. lowering device according to claim 4, characterized in that length and Cross-section of the bore (15) are dimensioned such that the lowering under Completion of the channel (17) begins without tearing off the mold. 6. lowering device according to claim 1 to 5, characterized in that in the Receiving space (31) a tube (19) is inserted, the mouth of which in the low position the lowering piston is not flooded by the liquid. 7. lowering device according to claim 6, characterized in that the tube (19) can be connected to a compressed air line, so that the lowering device can be used as a pressing device. ' 8. lowering device according to claim 1 to 7, characterized in that the Molding box support plate (13) of the lowering device in its end position a lever linkage (26, 27) can be determined which, in its end position, is self-locking when the dead center position is exceeded works. 9. Turn forming machine with lowering device according to claim 1 to 8, characterized characterized in that the lowering device attached to one end of a turning arm and acting as a pressing device a vibrating device attached to the other end of the turning arm is opposite. 1 sheet of drawings