DE2133829A1 - CONTROL VALVE WITH DIVIDED AND STEP-SHAPED FLOW CROSS-SECTIONS - Google Patents

Description

Applicant: GULDE REGELARMATUREN KG 67oo Ludwigshafen - Oggersheim ti 10000 c. \ j

Control valve with split and stepped flow cross-sections .

The invention relates to adjusting valves with adjustable flow cross-sections which are arranged side by side and behind one another.

Control valves have the task of controlling the flow in pipelines To influence material flows. This task is done in general solved in that a single-stage throttling of the material flow is brought about in the control valve. The throttling is coming due to the fact that the flow cross-section is adjusted by means of an adjustable valve cone can be narrowed as required between the valve seat and valve cone.

When throttling, pressure energy is converted into speed and converted into heat by swirling. Particularly in the case of high levels of relaxation, pressure fluctuations can result in undesirable Noises arise.

The object of the invention is to throttle with low noise.

There are already control valves known that the material flow in several Gradually throttle the adjustable flow cross-sections following one another. This will split the pressure drop and the flow velocities in the narrowed cross-sections are reduced. Gradual throttling can already result in a significant Noise reduction can be achieved. Experience has shown that sound attenuation can also be achieved by that the material flow is broken down into partial flows; for example pressure fluctuations can be dampened by friction in perforated disks.

The task of throttling with low noise is thereby achieved according to the invention solved that the initially ring-shaped entering stream of material several times is throttled divided into partial flows. While the

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gradual throttling enables the flow velocities to be kept low, should the division into possible many partial currents cause many separate eddies to arise in each stage, which also causes tumbling vibrations in the ring-shaped ones Cross-sections are prevented.

The invention is explained in more detail below with reference to the exemplary embodiments shown in the drawings.

It shows

Fig. 1 The sectional view of a control valve for gaseous Material flows;

shown is the open position of the cone, in which the flow cross-sections are maximally open,

2 shows the sectional view of a control valve for liquid and gaseous media;

shown is the open position of the cone, in which the flow cross-sections are maximally open.

The valve cone 2 is axially adjustable in the valve housing 1. The valve cone 2 is step-shaped and is guided in the annular regular edges, for example 3, M-. At the bores such as 5, 6 are attached to the respective circumference of the various stages.

The stream of material first enters the annular ring via the sealing edge 7 Chamber 8 a. From this it is distributed into the bores 5 and flows over the control edge 3 into the annular chamber

9 and in multiple repetitions of the process up to the interior

10 of the cone 2 to finally through the perforated disk 11 in the Flow out of the pipeline. The associated with the relaxation of the gas flow expansion is taken into account that each the following annular chamber is larger than the previous one, the conical

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scope graded accordingly, and the number of each Perimeter drilled holes are enlarged. If the valve cone 2 is moved into the closed position, the Flow cross-sections narrowed where the partial flows emerge from the bores in the annular chambers. Complete Shut-off is achieved in stroke position 0 by placing the sealing edge 7 on the valve seat 12.

The valve housing 21 is formed so that the in the annular Chamber 22 entering material flow simultaneously via the bores 23 and 24 in the annular chambers 25 and 26 and in repetition this process flows into rooms 27 and 28. Space 27 is connected to space 28 via bores 29 and 3o, so that the partial flows can flow out together from the space 28 into the pipeline.

Because there is no significant increase in the expansion of liquid media When the volume enters, a cross-sectional expansion is not necessary. However, if the saturation pressure is not reached part of the liquid evaporates, causing an increase in volume. This will increase the flow rate raise; however, the subsequent throttles prevent pressure recovery and cavitation from occurring.

If the valve cone 31 is moved into the closed position, the flow cross-sections are narrowed, specifically where the partial flows emerge from the bores in the annular chambers. Complete cordon is reached in stroke position 0 by placing the sealing bevel 32 on valve seat 33 and the sealing bevel 3M- on valve seat 35.

Due to the double-seated seal, the differential pressure forces acting back on the valve cone 31 are approximately balanced. Thus, low actuating forces are sufficient to adjust the Valve cone 31.

The valve cones 2 and 31 can be removed directly from the valve housings via the valve spindles 13 and 36 by means of stuffing boxes IM and 3 7 1 and 21 are performed, can be set via the actuators 15.

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Claims (3)

Expectations 1.) Control valve with adjustable flow cross-sections thereby marked that these are multi-tiered and in each stage are divided several times, so that the material flow is throttled in stages and in partial flows. 2. Control valve with adjustable flow cross-sections according to Claim 1, characterized in that the flow cross-sections are gradually expanded. 3. Control valve with adjustable flow cross-sections according to Claim 1 and 2, characterized in that the flow onto the valve cone is in two directions and two are ring-shaped Has sealing parts. . 20 988 3/0 38 8 Blank page