DE511273C - relay - Google Patents

Description

They are relays with jet pipe control of the hydraulic fluid for servo motors of pressure regulators become known, that is to say, the movements of one on both sides with different Press loaded membrane can be used to influence a liquid jet.

For this purpose, the membrane is coupled to a outside of the pressure chambers

ίο rotatable nozzle, from which the control jet into an opposite opening of a to a servo motor leading line flows. Depending on the position of the rotatable Nozzle, pressure changes are generated in the servo motor, which depend on the diaphragm position and thus on the size of the two pressures or their difference in the pressure chambers and for controlling Throttle organs or the like are used. A rod is used to transmit the diaphragm movements from the one pressure chamber to the nozzle located outside, because pressure losses in the chambers must be avoided using a stuffing box-like Execution. Such feedthroughs cause inhibitions of movements or due to the additional friction if the seal is inadequate, pressure losses will result in inaccuracies in both cases Reason. The arrangement of the rotatable nozzle brings the same unfavorable conditions with it. Also owns this a stuffing box-like sealing point at the mouth of the fixed supply line, so that inhibitions or loss of fluids can also be expected here.

The present invention aims to remedy these drawbacks. The invention exists in that in the one pressure chamber of the spring assembly a flexible tube through which the control current is carried directly or indirectly, is arranged. The membrane o. The like. Is coupled to this pipe in such a way that their movements more or less result in large deformations of the pipe, through which the liquid flow at the same time being affected.

Several versions are illustrated, for example, on the accompanying drawing.

Fig. 1 and 2 show schematic longitudinal sections of two embodiments, Fig. 3 a cross section of the embodiment Fig. 2.

In Fig. Ι 1 is a pressure chamber with the Supply line 2 and 3 form the other pressure chamber capsule membrane with the Feed line 4, 5 represents the flexible tube arranged in the pressure chamber, in which occurs at 6 the control current. In the middle of the tube 5 is located as Completion of one half of the tube. Mouthpiece 7, opposite a free-standing one Pick-up tube 8 through which the control current is routed to the servo motor. By the rod 9, the movements of the capsule membrane 3 are communicated to the tube 5, which by the helical spring 10, a

agreed pressure difference accordingly, im Balance is kept.

It is now assumed that in the position shown by the mouthpiece 7 in the receiving tube 8 passing control current a control process in such a way initiates that the pressure to be regulated falls as a result, this has a different setting the membrane 3 result. By

ίο the spring io must when the membrane goes back 3 the flexible tube 5 inevitably follow the membrane, creating a curvature the tube axis and thus a change in the position of the mouthpiece 7 to fixed receiving tube 8 enters. Depending on the size of this change, the The control jet is partially or completely deflected from its direction and then flows through the the other half of the flexible pipe and further through its extension, the pipe 11, from. Due to the reduced flow of the control current into the receiving line 8 of the servo motor, the pressure in the same drops, whereby the reverse control

s5 gear is initiated.

Fig. 2 shows a second arrangement of the flexible tube 5 in the pressure chamber 1 of the Measuring unit. In this case there are two fixed nozzles in the pipe 5 itself, the outlet nozzle 12 and, opposite this / the inlet nozzle 13. The mode of operation of this Arrangement is in principle the same as in Fig. Ι; the control current is when entering Deformation of the tube 5, d. H. at a curvature of the pipe axis, from its original one Direction distracted. However, the deflection does not happen here by moving the discharge nozzle 12, but by one arranged inside the flexible tube 5 and firmly connected to it ■ "Deflector 14 comes to rest in the jet path of the liquid flow when the pipe bends and thereby the Beam splits and depending on the degree of pipe deformation according to the membrane setting more or less distracting.

An annular piece of metal is assumed as the deflector in Figs. 2 and 3, with Fig. 3 is a plan view of the ring piece, seen in the direction of the beam. As well you can give this body a different shape, e.g. B. that of a wedge-shaped Tip or the like

The device, which is primarily designed for volume control, can also easily for simple pressure regulation, the pressure chamber 1 then being connected to the atmosphere is, or for temperature control, by the pressure measuring element through one of the to regulating temperature-influenced spring assembly is replaced, find use.

Claims (2)

Patent claims: 1. Relay with jet pipe control of the hydraulic fluid for servo motors from Pressure regulators 0. Like., Characterized in that the beam control in one flexible tube (5) is going on, in which one end a free-standing or several inflow nozzles (8) and these opposite one as a conclusion to the other Mouthpiece (7) serving half the pipe are arranged in such a way that when there is a curvature the pipe axis of the control jet is wholly or partially deflected. 2. Relay according to claim 1, characterized in that in the flexible tube (5) free-standing two or more opposing nozzles (12 and 13) and one with the pipe wall connected deflector (14) are arranged such that in the event of a curve in the pipe axis, place the deflector (14) between the nozzles (12 and 13) comes to rest and deflects the control current in whole or in part. 1 sheet of drawings