DE2315045C3 - Flow regulators, in particular volume or differential pressure regulators - Google Patents

Description

The invention relates to a flow regulator, in particular a quantity or differential pressure regulator, with a relieved single-seat valve, the relief bellows connected to the valve rod from the one on the Pressure is applied to the valve cone, and with a diaphragm-shaped servomotor, which is operated by the in front of or behind a hollow arranged on the inlet side of the valve seat in front of the valve cone, a throttle element surrounding the valve seat upstream of the valve seat is applied.

In such a device, the management of the various pulse or relief pressures causes difficulties regarding the arrangement of the pressure lines.

From the brochure "Mechanical control devices, technical information sheet 153/5" from Industrie-Werke Karlsruhe Augsburg Aktiengesellschaft from January 1973, a volume limiter has become known, in which the impulse pressure, which is located behind a throttle element, passes through a hollow valve rod into the upper diaphragm chamber of a diaphragm housing of the servomotor is introduced. But with this device a relief bellows for the single-seat valve is not provided, so that a special relief pressure line is not required and the mentioned arrangement difficulty does not exist. This volume limiter also has as a throttle element only a throttle disc, while it is in the present flow regulator just depends on the fact that there is a hollow throttle member is provided, which one the Surrounds the valve seat upstream interior.

From DE-OS 21 61 260 is a thermostatically controlled control valve with a pressure relief device ' known, with softer the pressure of the medium to be controlled from the inlet port of the Valve is transferred into a relief space via a bore in the valve spindle. A transfer of pulse pressures to a Menibran case is there but not available.

Furthermore, from DE-OS 21 10 393 a control valve with adjustable throttle member is known in which the Pulse pressure tapped behind the throttle device through a special external line into the associated one Transfer the diaphragm chamber of the diaphragm housing

ίο will. A relief bellows for the valve cone is at this control valve is not provided.

DE-OS 20 19 950 describes a control valve in which the one pulse pressure line opens directly behind the throttle plate of a measuring orifice by means of a bore arranged in the valve seat, which requires a pipe extending outside the valve housing into the corresponding diaphragm housing chamber.
The invention is based on the object of creating a regulator of the type mentioned at the outset, in which a relatively cumbersome pressure line laying for the mentioned extraction pressures is avoided in a simple manner. In a regulator of this type, the pressure transmission is aggravated by the fact that the interior space surrounded by the hollow throttle element is not directly accessible because the bottom of the hat-shaped throttle element must be adjustable.

This object is achieved in that the pulse pressure line for the transmission of the control pressure prevailing behind the throttle element in a manner known per se through the hollow valve rod is passed, while the upper end of the pulse pressure line through a pressure tap opening in the interior of the hollow throttle organ opens at a point that is spatially opposite to the The direction of flow through the valve is far away from the outflow cross-section of the valve seat, and that the relief pressure line also passes through the hollow valve rod, but separated from the Pulse pressure line runs.

In this way, the pressures tapped behind the throttle device by the two are within the Valve rod running pressure lines arranged very advantageously and space-saving, so that only one only pressure line must be guided outside the valve body.

In the drawing, the invention is illustrated in one embodiment, for example, and although the only figure shows in vertical longitudinal section

such a flow control valve, which works according to the differential pressure or differential pressure principle.

The flow regulator has a valve housing 1 which is closed at the top by a housing cover 2. In a threaded hole in the housing cover 2 is an adjusting screw 3 with a corresponding seal screwed up and down, which acts on the bottom 4 of a hollow throttle member, which for example consists of a helical spring 5, the lower end of which is inserted into the valve seat 6 Seat ring 6 'supported.

The throttle coil spring 5 has a rectangular spring wire cross section, its transverse to the coil spring axis running rectangle sides limit the flow throttle gap between the spring coils.

A partition is located between the valve housing 1 and a bellows housing 8 fastened below it 7. One with the passage cross section of the valve seat 6

equal-area relief bellows 9 is attached with its upper end tightly to the partition 7 and at his The lower, movable end is tightly closed by a bellows base 10. The bellows base 10 is i'est with a hollow valve rod 11 connected.

The valve rod 11 is actuated by a control diaphragm 12, which is positioned between two diaphragm plates 13 held and with the help of which is attached to the lower, free end of the valve rod 11. At their circumference is the Steuii-membrane 12 between the flanges of the Housing shells 14 and 14 'of a membrane housing fastened to the bellows housing 8 are clamped

At the upper end of the hollow valve rod 11, a valve cone 15 is arranged, which with the lower Seat edge of valve seat 6 cooperates through valve rod 11 and valve cone 15 an axial relief bore 16, which through a transverse bore 16 'in the outer relief pressure chamber 17 of the bellows housing 8 opens

Within the relief bore 16 also runs a pulse printer 18, the lower end of which by a The transverse bore 18 'opens into the upper diaphragm housing chamber 19 of the diaphragm housing 14, 14' The upper end of the pulse pressure tube 18 opens with its pressure tap opening 18 "into the interior of the Throttle member 5 at a point that is spatially far away from the outflow cross-section of the valve seat 6 is located to the transmission of variable dynamic pressures in the diaphragm housing chamber 19 should be switched off as far as possible. It has been found that an arrangement of the pressure tap or a position of the opening 18 ″ approximately in the upper third of the space surrounded by the throttle element 5 is particularly favorable because in this zone practically the pressure conditions prevail which an exact one Make it possible to determine the flow rate when using the pressure drop across the throttle element 5.

The lower membrane housing chamber 20, surrounded by the membrane housing shell 14 ', is via a Impulse pressure line 21 is connected to a nipple 22 leading into the inlet space of the valve housing 1, around the static pressure prevailing in front of the throttle element 5 in the diaphragm housing chamber 20 transfer. This static pressure in the chamber 20 acts on the control membrane 12 in the sense of a Closing the valve while the static pressure in the diaphragm housing chamber 19 together with a in the relief bellows 9 on the bellows base 10 covering, pretensioned valve spring 23 the valve cone 15 in seeks to move its open position It should be noted that the valve spring 23 also outside of the closed system can be arranged to allow adjustment of different spring preloads facilitate.

In order to achieve the desired relief of the valve cone 15, the pressure on the relief bellows 9, 10 acting pressure in the relief pressure chamber 17 of the bellows housing 8 is equal to the mean pressure be the valve cone 15. But now prevail between the valve cone 15 and the valve seat 6 predominantly forces or pressures that depend on the valve cone position are of different sizes. In contrast, it was found that the tapping of the relief pressure particularly favorably at one point that is above the valve cone in the vicinity of the outflow cross-section For this purpose is located at the upper end of the hollow valve rod 11 at a certain distance from the valve cone 15 and parallel to the same a pressure sampling line 25 arranged this pressure sampling line is connected to the upper end of the relief bore 16 of the valve rod 11 and opens perpendicular to the flow of the medium passing through the valve seat in the passage gap 24 in the vicinity of the Valve seat. There the mean pressure on valve cone 15 is independent of its position so well recorded that the relief of the single-seat valve with all valve lifts and pressure differences with practically with sufficient accuracy

But if with a volume or differential pressure control valve on the valve cone 15 opposite Side of the valve seat a hollow throttle member is arranged, the pressure drop across the Throttle body should be a measure of the flow, so would be a tap behind the for this purpose Throttle body prevailing pressure at a point near the outflow cross-section, z. B. in that Passage gap 24, not suitable In this case, the pulse pressure in the interior of the throttle element must be three-dimensional far from the outflow cross-section, e.g. B. through the upper opening 18 ″ of the pulse pressure tube 18 removed and transferred into the diaphragm housing chamber 19, as described above has been. In the example shown! it should be noted that the feed-through gap 26 for the Valve rod 11 must have a smaller cross section than the relief line 16. The passage gap 26 could of course also be provided with a sliding seal be provided.

1 sheet of drawings

Claims (1)

Claim: Flow regulators, in particular volume or differential pressure regulators, with a relieved single-seat valve, its relief bellows connected to the valve rod from that on the valve cone onerous pressure is applied, and with a membrane-shaped servomotor, which of the before or behind one arranged on the inlet side of the valve seat in front of the valve cone hollow, prevailing a throttle member surrounding an interior space upstream of the valve seat Impulse pressure is applied, characterized in that the impulse pressure line (18) for the transmission of the control pressure prevailing behind the throttle element (5) in a known manner Way passed through the hollow valve rod (11) is, while the upper end of the pulse pressure line (18) through a pressure tap opening (18 ") in the interior of the hollow throttle member (5) opens at a point that is spatially opposite to the Direction of flow through the valve far away from the outflow cross-section of the valve seat (6) is located, and that the relief pressure line (16) also through the hollow valve rod (11), but runs separately from the pulse pressure line (18)