DE173911C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 173911 - CLASS 27b. GROUP

MELVIN DAVID COMPTON in NEW YORK.

Patented in the German Empire on December 17, 1903.

The subject of the present invention is a tap control, the known Property, the cock by the reciprocating piston rod, but independently S to be controlled by the speed of the same, in the case of a driven by a prime mover Gas compressor is used in such a way that by the. the piston rod common to both machines at the same time

ίο Inlet and ■ outlet openings of both machines regardless of the speed of the piston rod, and controlled instantly.

The use of this measure, known per se, makes it possible to have a double-acting gas compressor controlled by a single tap in such a way that

. even at the lowest gas pressure and at the lowest piston speed of the same reliable operation of the same is made possible and that no pressure losses occur can, rather regardless of the respective piston speed (which, if the Machine is used for press production and the gas requirement is very low in each case, dropping to two to three strokes per minute can) the same pressure is always maintained in the connected pressure vessel. ■ '- ■ ..

On the accompanying drawings is. the invention shown in an exemplary embodiment, 1 shows a view of the device partially in section, FIG. 2 a plan view, FIGS. 3 and 4 schematic representations of the switch tap, FIG. 5 undo Details of the controls on a larger scale. . '

ι denotes a driving hydraulic cylinder and 2 one driven by the first Gas compression cylinder. The pistons of these two cylinders are through the Piston rod 3 connected to one another. The cylinders and the rest of the components of the Device are arranged on a base plate 4, so that the device is a whole forms. Each of the two cylinders has at its ends or close to these channels, which are switched by a four-way valve or an equivalent switching device.

The cock for the hydraulic cylinder is marked 5 and that of the other cylinder 6. 7 is the inlet pipe and 8 the outlet pipe for the water. A pipe 9 leads from the tap 5 to the right and a pipe 10 to the left side of the cylinder 1. A pipe 11 leads from the gas meter 12 to the tap 6 and Pipe 13 from tap 6 to pressure equalizer 14.

A pipe. 15 leads to the left and a Pipe 16 to. right side of cylinder 2. The cock plugs of taps 5. and 6 are both connected to a crank 17. The piston rod 3 carries an arm 18 which serves the purpose has to push a rod 19 back and forth, which is in a suitable guide on the base plate is stored. 20 and 21 are springs whose ends on the one hand with the rod 19 and on the other hand connected to the lever arms 17

are. The extensions hinged to the base plate are perpendicular to the arm 18 Pawls 22 and 23, the ends of which are intended to come into engagement with the arm 17 and which are provided with a stop that limits the oscillation stroke. These two pawls are pulled down by springs so that they are attached to the Arms 17 pressed respectively. held in its lowest position by its stop can be.

The pressure equalizer. consists of a container with a flexible wall 24, which is pressed down by a spring 25 adjustable by means of a screw 26. The pipe 27 leads the pressurized gas to the point of consumption. 28 is a Branch pipe with an automatic valve 29, which shut off the gas flow downwards

.20 can.

When the device is in operation, it is on both sides of the cylinder ι alternately supplied and discharged water, so that the piston rod is driven back and forth is, with the result that gas is sucked in on both sides of the cylinder 2 and is led to the pressure equalizer 14. Assume that the individual Parts of the device occupy the positions shown in FIGS. 1 and 2, so the piston rod just moves to the left, the spring 20 is tensioned and the pawl 22 holds the lever arm 17 firmly. Through the pipes 7 and 9, the water is on the right side of cylinder 1 pressed and the ■ displaced from the left side water flows

. through the pipes 10 and 8. The gas under Pressure flows through pipe 15 and tap 6 to the pressure equalizer and through the tubes 11 and 16, gas is sucked into the right side of the cylinder 2. The arm 18, which comes into contact with the pawl 22, lifts this, whereby the spring 20 is can contract and the lever arm with a quick pull with the pawl 23 in engagement brings.

This movement of the lever arm 17 changes the position of the. Taps and reverses the stroke of the pistons towards the right, and the processes just described are repeated with every stroke. It is clear that the springs 20 and 21 are one cause rapid adjustment of the taps, which of course is a great advantage is. The arrangement of the channels of the faucet 6 achieved that gas under pressure only with the Pressure equalizer and never in contact with the gas meter. When the water inflow is interrupted, there is between the pipe 11 and the pressure equalizer 14 no connection for the gas through any part of cylinder 2. And this is also of particular advantage. So if the device from any Basically, the pressure in the pressure equalizer is stopped, of course decrease, and the pressure in the main: line pipes opens the valve 29, so that the The gas flow now takes place through the branch pipe 28. But if the device is in motion, so the pressure in the pressure equalizer will be strong enough to close the valve to keep.

In the present invention, as should be emphasized again, the. Reversal of the inlet and outlet openings of the compressor regardless of the Piston speed and instantaneously 'caused by suitable power means'. By the special design of the valve control is achieved as a further essential advantage, that the actual control parts are locked for the duration of the piston stroke being held. Simultaneously with this reversal, the same control parts are carried out the inlet and outlet openings of the machine driving the compressor are also independent of the piston speed and instantly controlled, which ensures that the entire machine group works evenly ■ and the control arrangement thereof becomes extremely simple.

Claims (1)

Patent Claims .: i. Gas compressor through the are with direct drive by a combustion engine, wherein the inlet and Auslaßorgane for the power engines and for the grain ¹ Oo pressorzylinder the two cylinders "common piston rod controlled, characterized in that the inlet and the two cylinders during Auslaßorgane The duration of the piston stroke is kept immobile and only at the end of the latter are reversed immediately by force means triggered by the piston rod in order to make the reversal independent of the piston speed and thereby avoid pressure losses. .2. Gas compressor according to claim 1, characterized in that an oscillating Lever (17), which with the seated on a "5 axis common input and Outlet organs (5, 6) of both cylinders is firmly connected, kept locked during the duration of the piston stroke and one Rail (.19) on which the one. End of two Springs (the other end of which is attached to the oscillating lever (17) of the Attacks inlet and outlet organs), by a stop seated on the piston rod (18) parallel to the latter is shifted by one of the two springs by pulling them apart, tensioning the other by compressing them and at the end of the piston stroke the swinging ones Disengage the lever (17) locking pawl and pull the lever through the cocked To move springs. For this purpose ι sheet of drawings.