DE319051C - Compressed air motor for driving the rocker slide - Google Patents

Description

Compressed air motor to drive vibrating chutes. The invention relates on a compressed air motor for driving shaking chutes and the like, in which the control of the working piston takes place in a non-positive manner. The invention exists in that the control piston with a small area constantly in a known manner is under pressure and the reversal is caused by the fact that the Working piston opens a @ channel shortly before the end of its working stroke which the compressed air from the cylinder is directed in front of the large area of the control piston is and this adjusted so that the reversal of the working piston after the other Direction, the return stroke, is effected and. that the control piston is in this position through a channel in the control housing onto the large area of the control piston conducted fresh air is held until the working piston has an ins Free leading channel releases, whereby the large area of the control piston is relieved and this is adjusted so that the reversal takes place and the working piston is moved in the opposite direction.

As a result of this new set-up the engine will be reciprocating controlled by the two outer edges of the working piston, which is a reliable Guaranteed working of the engine. This device has a long piston Requirement what 'a. results in a favorable surface area; so. that abnormal wear of the piston and the neck bearing or the stuffing box of the Piston rod, as found in other engines due to excessive surface pressure often noticeable when the new engine is avoided.

The invention is illustrated by way of example in the drawing. FIG. X shows the engine in a longitudinal section for the working stroke of the working piston adjusted control piston,.

2 with the setting of the control piston for the return stroke of the working piston; Fig. 3 is a longitudinal section through the control housing of a modified embodiment, the Control piston for the return stroke and Fig- q. the same set for the working stroke.

In the exemplary embodiment of the engine shown in FIGS. X and 2, a is the working cylinder with the working piston b 'and c is the control housing with the control piston d located therein. The working piston b is so long that at the end of its return stroke (left-hand gear) it releases a channel e connecting the cylinder to the free one (Fig. X), but keeps this channel e closed during its entire working stroke (right-hand gear). The control piston d is two-stage and provided with three indentations. The ring surface f of the control piston d is continuously exposed to the fresh air introduced into the control housing through the channel g, so that this load tries to keep the control piston in the one, in the example right-hand end position, in which the working stroke (clockwise) of the working piston b takes place (Fig . z). For this working stroke of the piston b, which must be much more forceful than the decrease, the compressed air flows, as can be seen from FIG. Z, from the compressed air line through the channels g; h, i in. the cylinder a, while the exhaust air escapes from the opposite side of the piston through the channels k and l. Shortly before the end of its working stroke, the working piston b overflows the channel m opening into the cylinder a , and compressed air then immediately passes through this and the adjoining channel n behind the larger face o of the control piston d, so that it is opposite to that on its annular surface f acting load. is pressed into the opposite (left) end position (Fig: 2). Duich this displacement of the control piston is overflowed by the channel coming from the compressed air line, so that now through this fresh air passes behind the larger end face o of the control piston d and thereby this is held in the left end position, although the return stroke of the working piston b is now beginning this closes the channel m again. During this backward stroke of the piston b, which must take place at a much lower speed than the working stroke, the pressure medium is supplied behind the piston b through a longitudinal channel q arranged in the control piston d; which the turning in front of the ring surface f. the recess y connects, and channel k, while the. Air in front of the piston escapes through channels i, l. The cross section of the longitudinal channel q in the control piston is adapted to that amount of compressed air, which is required for the slower decline of the working piston b. If necessary, the channel q or its openings can also be adjustable by regulating screws or the like.

Shortly before the working piston b has completed its working stroke, it overflows the channel s connecting the cylinder with the channel n and likewise the canal leading into the open e. It then escapes through the latter in the cylinder the compressed air into the open air, and the resulting negative pressure in the cylinder is planted through the channels s, n on the larger face o of the control piston d continues, so that this constantly acts on its smaller annular surface f through the Pressure in the left end position corresponding to the working stroke of working piston b is pushed. This can do the described. Start the game all over again.

The by FIGS. 3 and q. The illustrated embodiment of the invention differs from the one described above in that, instead of "an" annular surface, the one (like on the drawing) smaller end face f 1 is constantly under the pressure of the fresh air supplied through channel g - and the exhaust air through the opening 11 of the control housing shown in cross-section, which is brought into connection once with ', the channel i, the other time with the channel k through the setting of the control piston d Working stroke of the working piston b through the channels g, hl, h2, i and - on the return stroke of the piston b through a channel qi corresponding to the channel q of the first example, which is arranged here in the wall of the control housing, through the recess y of the control piston and channel k. The passage of channel q1 can now be regulated or even shut off completely with the aid of a regulating screw t, but the regulating screw t contains ei NEN channel u, so that even when the control screw is firmly tightened, compressed air for the return stroke of the working piston in the cylinder a passes through this channel u. Otherwise, this embodiment is completely identical to that illustrated by FIGS. R and 2 in terms of construction and mode of operation, and in particular the control is carried out in exactly the same way.

The mode of operation of this motor can also be the opposite of the drawing, namely in such a way that instead of being pulled, the working hood is pressed. The piston rod then only needs to be repositioned. Otherwise, however, remains the establishment the same.

Claims (3)

PATENT CLAIMS: _. Compressed air motor for driving conveyor chutes and the like, in which the control of the working piston takes place in a non-positive manner, characterized in that the small area (f, f 1) of the control piston (d) is constantly under pressure in a manner known per se and the reversal thereby This causes the working piston (b) to open a channel (m) shortly before the end of its working stroke, through which the compressed air from the cylinder (a) is directed in front of the large area (o) of the control piston (d) and adjusts it in this way, that the reversing of the working piston in the other direction, the return stroke, is effected and that the control piston (d) in this position, through the fresh air directed through a channel (p) to the large area (o) of the control piston (d), is so is held for a long time until the working piston (b) releases the duct (e) leading into the open, whereby the large area (o) is relieved and the control piston is adjusted so that the reversal takes place and the working piston moves moved in reverse direction. 2. Compressed air motor according to claim i, characterized in that that the actuation of the piston. (b) Compressed air used during the return stroke is fed through a bore in the control piston, which accordingly the power required for the return stroke, measured or by regulating screws or the like. Can be adjusted accordingly (Fig. i and -2). 3. Compressed air motor according to claim i, characterized in that the pressure medium supply during the return stroke of the working piston (b) mediating channel (q1) of the control housing by a regulating screw (t) can be more or less shut off according to the required power, and that this Screw (t) is equipped with a passage (u) so that fresh air can still enter the cylinder even when the screw is firmly tightened.