DE690185C - Compressed air impact tool with slide control - Google Patents

Description

Pneumatic impact tool with slide control subject matter at hand Invention - represents a control for compressed air impact tools, .which makes it possible that the recoil forces are reduced to the utmost, and only only through the appropriate design of the gate valve and the arrangement of the outlet openings, but avoiding special aids.

There are known slide controls for pneumatic impact tools, which essentially: only progress in! the development of increasing the Performance and economy, but with very large recoil forces occur that quickly tire the worker and cause serious damage to him in continuous operation.

A substantial reduction, the hammer recoil, is according to the invention not because of sudden increases in pressure in the cylinder, such as those caused by thrusting from air of high tension into a room with low tension should be avoided, by pressing the piston before closing in the compressed air at the end of the stroke compressed in the cylinder so that compression pressure and compressed air tension inevitably must be equal to each other before the pipe slide with the control of the compressed air begins.

For this purpose, the slide is provided with annular control surfaces and designed as a differential tube, and the position of the outflow openings so selected that .the compression pressure required for reversing after as long as possible Compression path is achieved; furthermore, the sizes of the control surfaces are on. to the Slide so coordinated that the slide reverses when the compression pressure corresponds to the respective inlet pressure and this moment is only then reached when the piston has made its full stroke, d. H. as close as possible to the Cylinder cover is located. -On the drawings, the subject matter of the invention is for example Shown: Fig, i shows the cylinder in longitudinal section with the slide position glue in the return of the piston, Fig. Z the cylinder in longitudinal section with Slide position during stroke stroke.

According to the invention that is limited in the cylinder B of the tool axially movable. Pipe slide S designed as a simple differential pipe in such a way that that the lower annular face / l and the upper face f3 as a control pressure surface is trained.

Because of the fact that an annular reinforcement on the outer circumference of the slide is arranged, another control pressure area f2 has also been created. the Bore d of the tubular slide S is used to guide the piston k.

The outlet openings 1 are attached in the vicinity of the lower end face f1 of the slide. The outlet openings e and d are arranged in a corresponding position to the outlet openings L of the slide S in the cylinder housing B leading to the outside. The mode of operation is as follows: In Fig. I, the slide S is in the highest position. The piston k makes his. Rewind. Fresh air F flows through .den in the direction of the arrow. Fresh air channel g flows around the slide valve S and passes through the bore h in the cylinder jacket B into the channel n to the front face m of the piston k in order to drive the piston k upwards.

The exhaust air A standing above the piston k passes through the bores d and e of the cylinder jacket B to the outside.

The pipe valve S is subject to the following pressures. The control and pressure surfaces / l and f3 are under external air tension, whereas the pressure surface f2 from below is under fresh air pressure, so that the slide S frictionally in the highest Position is held.

If the upper edge of the piston o flies over the slide hole row L, then begins the compression above the piston k. The compaction pressure is applied to the pressure surface f3. Since the row of holes L in the slide S below - arranged in the vicinity of the lower face is, a long compression path is created so that the pressure increase is gradual going on.

The design and arrangement of the slide S sees the area ratio .of the two effective pressure surfaces 12 and f3 in such a way that the compression pressure must rise until fresh air tension, since f2 is under fresh air tension, until the equilibrium of the forces is present and with a further slight increase in pressure the pressure on the pressure surfaces J-3 becomes greater than on / 2 before the downward movement of the slide S in, the position of Fig. 2 takes place. In Fig. Z the piston leads k the stroke stroke. The fresh air F flows in the direction of the arrow through the exposed Row of holes a on cylinder B on the upper piston surface o, while .the lower piston surface m is in contact with the outside air.

To the pressure surface f 2 on the slide S leads a Umsteuerkan.al c with the lower hole b . As soon as the lower piston edge o exposes the bore 1T to .dem reversing duct c, the cylinder air flows through reversing duct c against the pressure surface f2 of slide S and .presses the. Slide S back to the highest position in Fig. I.

The exhaust air A below the piston k is here in the direction of the arrow through the channel et further through the opening i into the jacket of the cylinder B around the: slide S through the opening p into the channel to the outlet opening, cd into the open.

By designing and arranging the controller in this way, the air hammer tool is Extremely weak recoil without additional aids, resulting in an enlargement the service life is achieved without reducing the performance.

The economy is improved by this measure, since on the one hand, the harmful space at the end of the stroke is already filled with: air of equal tension and there is no need to fill it up with fresh air and, on the other hand, the breaks from fatigue be much lower, which means that higher hourly output can be achieved.

Claims (1)

PATENT CLAIM: -A compressed air impact tool with slide control, characterized in that the slide (S) is designed as a differential tube slide and both its lower end face (f1) and its upper end face (f3) serve as pressure surfaces, and a pressure surface (f2) on its outer circumference ) is arranged - and the position - of the outflow openings (l) in the slide (S) and the outflow openings (d, e) in the cylinder jacket (B) is selected so that the compression pressure required for reversing is achieved after the longest possible compression path, and that the sizes of the control surfaces (f2 and ß) of the slide (S) are matched to one another so that the slide (S) reverses when the compression pressure corresponds to the respective inlet pressure and the piston has completed its full stroke to close to the cylinder cover .