DE449850C - Pressure regulator for a pneumatic tube system by means of a fluid moved by the line pressure and acting on a shut-off agent - Google Patents

Description

Pressure regulator for a pneumatic tube system by means of one of the line pressure moving liquid acting on a shut-off device. The known devices for the automatic maintenance of an almost even overpressure and underpressure - in the case of pipelines, there are venting and ventilation valves, their closed position by means of Spring force or set by a weight for a certain positive and negative pressure or an organ influenced by the overpressure and underpressure in the pipeline that adjusts the resistance regulator of the fan motor and thereby desarl revolutions increased or decreased.

In contrast, the invention consists essentially in that in one Connection line with the outside air at any point on the pipe a throttle device is arranged by one of the pressure of the pipeline moving liquid (oil, glycerine o. dgL) is operated, so that when the The pressure of the pipeline will open the throttle device more, while it will fall more is closed.

To avoid the sudden pressure fluctuations of the pipeline also cause an abrupt movement of the liquid, whereby a. The movement of the throttle device would cause the throttle device to work unsteadily Liquid by means of a throttle device, through which the liquid in their Movement must flow through, adjustable, so that you have it in your hand, through Enlargement or reduction of the passage opening in the throttle device To make the work of the pressure regulator more sensitive or sluggish.

An exemplary embodiment of suction air pneumatic tube systems is shown in Fig. T shown schematically.

The connector b is located on the air line a. This can be closed against the atmospheric air by the throttle valve. On the axis of rotation of the throttle valve e, the double-armed lever e is operated outside of the connector b. The open vessel f and the closed vessel g are adjustably suspended on the two arms of this lever e. The "two vessels j and g are connected by a flexible pipe h. The tap. K is arranged in the connecting pipe h. The closed vessel g is also connected to the air line. A. Both vessels are partially filled with a liquid (glycerine, oil o, like) filled.

The mode of operation of this device is as follows: As shown in Fig. I, the desired negative pressure p prevails in the air line a and the vessel g. That Vessel f has its liquid opposite to vessel g with the one it contains Liquid a little overweight and as a result stands on the pad 1. If the negative pressure in the air line a and the vessel g increases, it becomes accordingly this rise in the negative pressure a part of the liquid of the Gefäßesi f in the Vessel g sucked, the preponderance of the vessel / now shifts to the vessel g, and this sinks to the base 1. The resulting rotational movement of the Axis c1 opens the throttle valve c, and it can now compensate for the increased Negative pressure with the atmospheric air. This compensation sinks the negative pressure in the air line a and the vessel g again while at the same time the liquid from the vessel g flows back into the vessel f, so that when the original Negative pressure p again. is enough, even that over: erg @ eivicht back in the vessel t is and, by sinking this vessel on the pad 1, the throttle valve c again is closed. The passage opening of the connecting pipe is through the cock k adjustable so that one: has it in hand, the movement of the liquid from to let one in the other go slower or faster. "By moving the suspension point of the vessels on the two arms of the lever any desired vacuum can be set.

Another embodiment of the invention is shown in Fig. Z for pneumatic pneumatic tube systems shown schematically.

The support b is located on the air line u. This nozzle b can be closed against the atmospheric air by a piston valve c. The piston valve c is connected to the float m by a linkage. The float in is also located in the open vessel f. This vessel / is connected to the closed vessel g by the pipe h. In addition, the closed vessel g is connected to the air line a. The cock k is arranged in the connecting pipe 3t. The beddun vessels / and g are partially filled with egg liquid (glycerine, oil or the like).

The mode of operation of this device is as follows. As shown in Fig. Z, the desired overpressure p prevails in the air line a and the vessel g. The float m has its lowest position and keeps the piston valve closed. If the overpressure in the air line a and the vessel g rises, part of the liquid in the vessel g is pressed into the vessel / , the liquid level rises in the vessel f and with it the float m. This causes the piston valve c to move to open, and @ there can be a balance between the increased overpressure and the atmospheric. Air take place. Through this equalization, the overpressure in the air line a and the vessel g drops again, while at the same time the liquid flows back from the vessel f into the vessel g, so that when the original overpressure p is reached again, the float returns to its original state Resumed position and the piston valve again; closed, has.

In this embodiment, too, the through opening is the Connecting pipe through a tap, no steal; -so, that_ one also .here , by reducing or enlarging the opening in the connecting pipe ft can stop the movement of the liquid from one vessel to the other.

Any desired can be achieved through the appropriate load on the self set overpressure.

It is easily possible with this shown in Figs. I and z Device, instead of moving a shut-off device, by means of a resistance regulator To reduce or increase the number of revolutions of the fan motor.

Claims (1)

PATENT CLAIMS: i. Pressure regulator for a pneumatic tube system by means of a Liquid moved in front of the line pressure and acting on a shut-off agent, thereby ; characterized in that a throttle device (c) in a connecting line as a shut-off means (b) with the outside air at any point on the pneumatic tube line (a) for automatic Preservation of pressure, is built in. z. Device according to claim i, characterized in that that the movement of the liquid by a throttle device (k) of known type (Faucet, valve or the like) in the connecting line (! T) is adjustable.