DE273647C - - Google Patents

Description

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PATENT OFFICE.

β « ^ν PATENT LETTERING

- M 273647 CLASS 87ö. GROUP

ERNST WELLER in KNAUTHAIN b. LEIPZIG.

Compressed air tool with compressor. Patented in the German Empire on April 20, 1913.

The object of the invention is the connection of a compressor with a compressed air tool in such a way that the on the air column acting on the percussion piston only moves in one direction. Compressor and tool thus form a unit in which the column of air appears as a cycle in which the piston of the tool is switched on. This facility has opposite to the well-known Compressed air tools in which the compressed air after giving up their work capacity flows to the outside on the percussion piston, the advantage of lower power consumption. Compared to the known compressed air tools with reciprocating air column, the subject of the invention has the Advantage of using higher piston speeds and longer hoses or tubing can be. Because with air tools with a back and forth pendulum air column When a certain length and number of strokes are reached, the phenomenon occurs that the percussion piston, which in the middle of the due to its inertia to the fast impulses the compressor is no longer able to follow. Compressor and tool can therefore with Such tools only work when the pipelines are very short and the number of strokes is small in the unit of time. Therefore, the tool can practically only be used as a machine be designed with a slow stroke.

The invention, however, allows the execution of the tool as a hand hammer with as possible large number of strokes too; the speed of the driving air column can vary according to the To be adapted to the circumstances. The connecting pipes can be any long as the air column only moves in one direction.

The drawing illustrates the subject matter of the invention, namely FIG. 1 shows a Representation of the air circuit, Fig. 2 is a section in the wide view of the tool leading compressed air piston.

The piston t set in motion on the rod s by some drive device sucks and simultaneously presses the air in its circuit. In the arrangement of the drawing, the operation is intended so that the piston t is pulled in the direction of arrow 1. The air is consequently compressed in the direction of arrow 2 and passes through channel α of a slide controlled automatically by the compressor in the direction of arrows 3, 4, 5 into channels 11 and 12 of the housing of the compressed air tool η. The air then passes through the channel 12 and the open bore c into the cylinder space 8. From here, after the percussion piston u has been propelled (against the direction of the arrow 13), the air continues into the channel 9, which passes through the tube 21 with the bore k the axis m of the valve is in connection. The hole k is interrupted by the wall I. The air thus flows through the channel d of the butterfly valve against the housing wall into the ■ room e. The resulting recoil,

in 'connection with the pressure of the air in channel ii on the valve wing 25 in space 6, the wing surface 23 is so that it rests against the other housing wall. The position of the wing slide is then such that it assumes the opposite position of the dotted position, ie it moves in the direction of arrow 10. The air then enters space f at b , causing piston u to be driven in the direction of arrow 13 will. The air driven out of the space f during the rising of the percussion piston flows through b and h in the direction of the arrows 14 and 15 via the channel 0 of a controlled slide into the suction space p.

If the piston t now moves in the reverse direction of arrow 1, the slides 0, q and r, α are also reversed in the meantime, caused by the piston drive. the

ao air then moves through q again in the direction of arrows 4 and 5. The air enters the tool in the same way as before in channels 11 and 12, only the effect with respect to the wing slide is the opposite. The air passes through 11 and δ (c is now closed) into space f and moves the percussion piston u in the direction of arrow 13. As soon as the piston u opens the other closed half of the valve axis, the air flows through i to the housing wall, whereby the wing slide moves into the position of the dotted position and the air again enters the space 8 via the channel 12 through c and moves the piston in the opposite direction of the arrow 13. The movement of the wing slide is also supported here, as a result of the pressure of the air in 12 against the surface 24. When moving in the direction of the arrow 13, the piston u drives the air in front of it through the channels c and g in the direction of the arrow 14 via the channel r into the suction chamber 22.

The compressed air therefore continues to flow in one direction, namely in the direction of the arrows 4 and 14.

For the initial generation of the compressed air and to replace the inevitable losses of compressed air, the piston t is provided with a piston υ which slides within a housing which is equipped with changeover valves. A valve 18 is connected at 19 to the circuit of the pressure lines and is until the required pressure is reached in the compressed air lines by a

Claims (1)

Patent claim: Spring held open. In a known manner, when the piston ν slides up and down through valves x, z, 17 and 22, an alternating intake of free air and compression takes place in the spaces y and w . The compressed air is pressed in the direction of arrow 16 into the compressed air circuit. Once the required pressure has been reached, the spring of the valve 18 is compressed and the valve 18 closes on its valve seat. This valve 18, according to its spring force, always keeps the same pressure in the circuit. Compressed air tool with a compressor that has a sucking and pressing effect, characterized in that the compressor with two control slides (a, r and 0, q) and the compressed air tool itself with a control valve (23, 24, 25) in is provided in such a way that the pipes that lead from the compressor to the tool (hammer drill) are alternately connected to the suction and pressure side of the compressor so that the air column in these lines always flows in one direction despite the stroke change of the compressor permit. 1 sheet of drawings,