DE943639C - Control for compressed air impact tools or the like. - Google Patents

Description

In order to increase the advance of the pneumatic impact tools when drilling, attempts were made to increase the impact intensity of each individual impact. However, this had the consequence that the life of the drill rods became extremely short because of the hard impacts. Another way to increase the working speed is to increase the number of strokes per unit of time. The number of blows, however, depends on the closing and opening speed of the valves or side sliders used. A test of the slides known for compressed air impact tools has shown "that the required number of blows cannot be achieved with them because of the too long distance that they have to cover in order to open so far that sufficient compressed air can get into the cylinder. With ring valves alone it is possible to achieve as fast a piston movement as is necessary for a higher number of strokes, whereas ring valves have the disadvantage that the air that remains in front of the piston during the working stroke and, like a cushion, does not brake the working stroke as can be derived from the pipe valve.

Controls have become known in which two ring valves slide into one another and thereby shorten the movement required to open and close the channels. Pneumatic impact devices with this double control do not have a higher impact rate result.

The object of the invention is a control in which two ring sliders slide into one another and which, due to the favorable division of the channels as well as the shorter opening and closing times, result in higher numbers of strokes. This control combines the advantages of the ring valves with those of the pipe slide. ' The subject of the invention is explained with reference to the drawing, FIG. 1 showing the position of the control in the working stroke and FIG. 2 showing the position during the return movement. The control consists of two ring slides, v #When cylindrical portion c of the slider a on the cylindrical portion of the slider slides d b. In the position during the working stroke of FIG. I, the two slides are pushed into one another as closely as possible. As a result, their side parts a and b have lifted themselves from the mating surfaces m and m and let the incoming compressed air flow into the cylinder , while the piston is pushed downwards, the air passes up in front of the piston along the channel e and enters the ring channel f, through the bore g of the ring part d into a further ring channel h and from there into the open. Shortly before the end of the percussion or working stroke, the compressed air passes from the space above the piston through the channel p and the channels q and r into the recesses il and k and thus presses the two slides together so that they come back onto their mating surfaces m and n come to rest. During the now occurring return stroke (Fig.:2) the compressed air passes through the gap between the Schiebera and the. Mating surface is formed into the annular channel f and through the channel e under the piston and pushes it upwards. When the air above the piston is sufficiently compressed by the piston moving upwards, the slides a and b are pushed into one another again by this air and the starting position for the percussion stroke is reached.

This arrangement of the two ring valves, one of which opens the 'other slides and at the same time works as a slide, the stroke of the valves shortened and thus achieved the high number of strokes. There are two for the working stroke Annular gap opened through which compressed air can quickly enter the piston. While However, on the upstroke of the piston, only one exhaust port is opened.

Claims (2)

PATENT CLAIMS: i. Control for compressed air impact tools or the like by means of two ring slides sliding into one another, characterized in that for controlling the compressed air for the working stroke of the percussion piston, two complementary ring gaps (am, bn) and for the return stroke created by the simultaneous opening of each of the two ring slides only - are provided in the annular gap (as). 2. Control for compressed air impact tools according to claim i, characterized in that in the cylindrical part (d) of one ring slide (b) a bore (g) that is connected to the outside air is arranged, which is connected by the cylindrical part (c) sliding over it of the other ring slide (a) is controlled. 3. Control for test air impact tools according to claim i and 2, characterized in that the recesses (i, k) located between the ring parts of the two slides (a, b) and the adjacent central part of the stener housing via channels (p, q, r ) are connected to the front cylinder chamber. ' 4. Control for compressed air impact tools according to claim i to 3, characterized in that during the impact stroke the annular channels (f, h) in the central part of the stener housing located between the ring parts of the two slides, one of which (h) with the outside air, the the other (f), on the other hand, is in communication with the front cylinder chamber via a channel (e) through which the bore (g) of one ring slide (b) is connected to one another. Energized publications:. USA. Patent No. 2,398,992.