DE292329C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The known devices for the automatic maintenance of a uniform air pressure in pneumatic tube systems consist of an organ influenced by the propellant air flow, the adjusts the resistance regulator of the fan motor or, depending on its position, a resistance switched on or off, whereby the performance of the motor is changed. However, these control devices fulfill their purpose in- insofar as they are imperfect when they do not have sufficient sensitivity, but only when they are proportionate address significant pressure fluctuations in the system and influence the speed of the engine.

This deficiency is remedied by the invention. After this acts on the organ, which changes when the air pressure conditions change, not the full respective one Overpressure in the system, but only that part of this overpressure that is above normal operating pressure.

For example, if you take a normal operating pressure of 350 mm water column and if this pressure were exceeded by 20 mm water column, the Rashes of the organ exposed to full pressure in the known devices behave like 370: 350, while the ratio between the effect of the increased Pressure versus that of normal pressure using the invention such as 20: 1 represents. This clearly results in an increase in the sensitivity of the devices questionable type, which is achieved with the invention.

An embodiment of the invention is illustrated in the drawing.

With the compressed air line α a container c is connected by a narrow pipe b , which is up to a certain height with a liquid that evaporates as little as possible, z. B. glycerine is filled. A pressure gauge m is connected to the air space of the container c by means of the pipe f. Under the glass there are two contact arms k and k ¹ , which are bent so that they can come into contact with the pointer ζ of the pressure gauge m , and which can be adjusted from the outside. The axes of the pointer ζ and the contact arms k, k ¹ are passed through the pressure gauge glass and connected to the outside with electrical wires.

The container c is in communication with the free atmosphere through the small opening e , so that in the event that atmospheric pressure also prevails in the line α , the liquid in both legs b and c is the same level. If, however, an overpressure occurs in line α , the liquid is displaced from leg b until the state of equilibrium is restored. ■.

The liquid level h in the interconnected tubes b and c is now dimensioned so that after the entire contents of the leg b have passed into the leg c, the liquid standing in this

column the normal operating pressure in the line α just keeps the equilibrium. The normal operating pressure therefore lowers the liquid level in the pipe δ from I to II. The cross-section of the container c is expediently made so large that the passage of the entire contents of the leg δ into the leg c only causes a practically insignificant increase in the liquid level will.

If the pressure in the line a now rises above the normal operating pressure, the equilibrium state is exceeded and the compressed air rises in the form of bubbles through the liquid into the air space d of the container c . This creates an overpressure in relation to the atmosphere, which is propagated through the pipe f into the pressure gauge m . The cross-section of the opening e in the container c must of course be considerably smaller than the cross-section of the tube δ, because otherwise an overpressure in the air space d would not be possible at all.

The pointer ζ of the pressure gauge, which is in the zero position at atmospheric pressure, moves to the right under the influence of the overpressure. Assuming that the overpressure in space d has reached 20 mm water column and the contact arm / « ¹ under the pressure gauge glass is set to the graduation 20 of the division divided into millimeters of water column, the pointer ζ now touches contact arm k ¹ , whereby an electrical circuit is closed and the resistance regulator of the fan motor is influenced in the sense that the number of revolutions of the motor decreases. Since the air space d of the container c is connected to the free atmosphere through the opening e , when the excess pressure in the line α stops, the overpressure acting on the pressure gauge m immediately drops to zero again, and the pointer ζ reverses back to its initial position in which it touches the contact arm k. This belongs to a different circuit than the contact arm k ¹ , and the completion of its circuit brings the motor back to its normal performance.

In order to avoid the loss of liquid in a container c when the air bubbles burst on the surface of the liquid, a baffle plate f is conveniently placed close above it, on which the thrown liquid particles collect in drops that fall back into the liquid.

Claims (3)

Patent Claims: 1. Device for the automatic maintenance of a uniform air pressure in Pneumatic tube systems, in which an organ that adjusts itself in the event of pressure fluctuations ■ Influenced resistance regulator of the fan motor, characterized in that on this Organ not the full respective overpressure in the plant compared to the atmospheric Pressure, but only that fraction of this excess pressure acts that is above the normal operating pressure. 2. Apparatus according to claim I, characterized. marked that the pressure fluctuations disguising organ, ζ. Β. a pressure gauge, to the air space one with Liquid partially filled container (c) is connected by means of a connecting pipe (δ) is connected to the air line of the pneumatic tube system, the amount of liquid being such that the Passing the entire contents of the connecting pipe (δ) into the container (c) the in this standing column of liquid the normal operating pressure in the system is straight keeps the balance. 3. Apparatus according to claim 2, characterized in that the air space of the liquid container (c) is in communication with the free atmosphere through an opening (e) which has a smaller cross section than the connecting pipe (δ) between the air line (a) and the container (c), and through which an overpressure in the air space of the container can be equalized again. 1 sheet of drawings.