DE818887C - Air slide motor - Google Patents

Description

The effect of the shaking slides is based on the fact that the sudden Keeping the slide moving forwards and then moving backwards more quickly the conveyed material by virtue of the kinetic energy given to it essentially only in Direction of conveyance, but not in the opposite direction, follows the movements of the chute. To cause a sudden delay at the end of the piston delivery stroke of compressed air slide motors that attack the slide with piston rods the cylinder space located in front of the piston in the direction of the delivery stroke as Compressors work. Here, the compressed air supplied to this space is well above the Inlet pressure is compressed out, the higher the pressure peak, the higher it is is the slide balance that must be absorbed by the compression air cushion. Because this pressure increases to a greater extent than the kinetic energy of the slide at the end of the delivery stroke, in unfavorable conditions such. B. for a long time Slide stroke, if the slide is more invasive and if the slide is heavily loaded with adhesive, i.e. poorly sliding conveyed goods, for example with loamy offset mountains, the compression pressure counteracting this movement become so high that the slide or linkage parts break.

The present invention relates to a pneumatic motor for vibrating chutes, in which the disadvantages mentioned are avoided by using an additional Device on the cylinder of the slide motor for the pressure height that can be achieved during compression limited and in a certain ratio to the operating pressure of the compressed air supply line is brought. For this purpose there is a compression chamber of the engine cylinder Pressure intensifier connected, which consists of a stepped cylinder with stepped piston, the operating pressure of the compressed air line constantly acts on the larger piston area and its smaller piston area below that in the compression chamber of the engine cylinder the prevailing pressure. In this way it is achieved that the compression end pressure with a suitable choice of the stepped piston cross-sections and the size of the stepped cylinder space only to a multiple corresponding to the piston area ratio of the stepped piston of the operating pressure can increase and thus the in the compression end position of the Motor pistons acting on the slide and the linkage are not dangerous Can assume height.

The drawing shows an embodiment of a slide motor cylinder according to the invention in cross section. The arrow I indicates the conveying direction; 2 is the working piston of the slide motor, 3 is the cylinder cover in the conveying direction, 4 the piston valve control, 5 the laterally in the cylinder chamber 6 in a certain way Distance from the cover 3 opening channel for the controlled compressed air. Between his The confluence and the cylinder cover 3 is connected to the compression chamber 6 of the pressure booster leading channel 7 connected. The pressure intensifier consists of a stepped piston containing stepped cylinder 8, in its small bore in front of the piston section g of the stepped piston, the channel 7 opens. At the opposite end of the stepped cylinder is between the large piston face IO of the stepped piston and the cylinder cover A line I3 branched off from the compressed air supply line 12 is connected.

The stepped piston moves out of the position shown strongly drawn out Position in the position shown in dashed lines when the compression pressure is in front of the working piston 2 in space 6 in the ratio of the large to the small stepped piston area compared to the in the pipe I2, I3 prevailing operating pressure has increased, so that in the compression chamber 6 there is a maximally limited compression pressure.

The branch channel 14 is used to vent the cylinder ring space on the Cylinder graduation.

In the case of twin engines, their working cylinders are on both sides of the slide are arranged, a stepped cylinder serving as a common pressure intensifier can be used between the working cylinders parallel to them or across in front of them under the slide be connected.

PATENT APPLICATION R (: II F: I. Compressed air slide motor, whose in the direction of the delivery stroke located in front of the piston cylinder space as a compressor for the purpose of delay of the piston stroke in the end position, characterized in that for the limitation of the maximum compression pressure to the compression chamber (6) from a stepped cylinder (8) Existing pressure intensifier with stepped piston is connected, the larger of which Piston area (IO) is constantly under the operating pressure of the compressed air line while the cylinder space in which the piston part (g) of smaller diameter is located, is connected to the compression chamber (6) via a supply line (7).

Claims (1)

2. Compressed air slide motor according to claim I, characterized in that that when using twin motors with both sides of the slide located A stage cylinder serving as a common pressure intensifier between the working cylinders the working cylinders arranged parallel to them or across in front of them under the slide is.