DE4416154A1 - Through-flow regulator valve with partition wall + - Google Patents

Abstract

The flow regulator valve has a valve seat (4) and valve (5) forming a first throttle (8) with an adjustable second throttle (9) in series, coupled to the adjuster housing (21). The adjuster is divided by a partition wall (16) into two pressure chambers (P1,P2) connected by channels to pressure reference points, where the first channel and the first pressure chamber are linked through valve spindle (6).The second throttle (9) operates together with valve seat (4) and is coupled to the partition wall (16). The second channel (17) is linked behind the first throttle point (9) to the second pressure chamber (P2) of the adjuster housing (21).

Description

The invention relates to a flow control valve, at which the first formed by the valve seat and closure piece Throttle point with an adjustable second Throttle point is in series and with the valve housing an actuator housing is connected by a movable partition is divided into two pressure rooms, those with pressure reference areas in front of or behind one Throttling leading channels are connected, wherein the first channel that has a pressure reference area with connects the first pressure chamber through the valve stem runs.

Flow control valves are common in the prior art known.  

From DE 37 41 676 C2 is a flow control valve known in which the valve seat and closure piece throttle point formed with an adjustable second Throttle point is in series and with the valve housing an actuator housing is connected by a the closure piece connected via a valve rod, movable partition, like membrane, in two pressure chambers is subdivided, each with pressure measurement points or channels leading behind the second throttle point are connectable. One channel runs through it the valve rod to an internal pressure measuring point. The second throttling point is by at least one cooperating with an opening in the valve housing Cutout in the peripheral wall of one to the valve axis concentric rotary insert. The actuator For this purpose, the housing can be rotated with the valve housing non-rotatably connected to the turning insert.

With such a design of the flow control valve is in addition to the valve seat for the first closure piece  a radial opening is provided in the valve housing, the with the specially trained cutout in the Circumferential wall of the rotary insert to form the second Throttle point cooperates. This is technically complex.

Based on the prior art described at the beginning the invention has for its object a flow control valve of the specified type to create which structurally simple and easy to use is.

To achieve this object, the invention proposes that the second throttle point by a coaxial to the first Closure piece arranged axially on the valve spindle sliding second closure piece is formed, which interacts with the valve seat and with the Partition is connected or coupled to movement, and that the second channel, one behind the first throttle place and in front of the second throttle point Pressure reference area with the second pressure chamber of the Actuator housing connects.  

Preferred further developments are in the subclaims specified.

The valve according to the invention works as a flow controller. The controller consists of the housing with valve seat and Functional parts. Act independently on the valve seat two locking pieces (valve body). Of the Degree of opening of a closure piece (first Closure piece) is via an adjusting device defined predefined. The position of the second shutter a pressure-controlled partition, preferably in the form of a membrane. The Decrease in pressure for the membrane is designed so that the Pressure difference between the valve seat and the first one Closure piece serves as a control variable. By the adjustment of the second closure piece is now this pressure difference kept constant. This also means the flow constant. So that the valve from differential pressure fluctuations can work independently is the second locking piece relieved of pressure, d. that is, the higher pressure on the inflow side is also separated by a sealing element Led top.  

The actuator housing that holds the diaphragm is non-rotatably connected to the valve housing. The settings spindle is non-rotatable, but in the axial direction slidable with the head side of the actuator housing arranged handle connected as Setpoint adjuster is formed. This handle and so that the setpoint adjuster is rotatable, however in axial direction immovable with the actuator housing connected. The setpoint can be directly on the setpoint adjuster can be read, the one rotatably on Associated valve housing attached display device is.

In the construction according to the invention Control membrane (partition) on the valve stem axially postponed. This makes it possible to axially two slidable fasteners to use, both act on the valve seat of the housing. Through the special fastening and training of the set point adjuster on the actuator housing it is also possible to  Training setpoint adjusters particularly large and Read setpoint directly.

According to the invention, it is also possible to use one Flow control valve with a differential pressure limitation equip. This is a second moving Partition (membrane) arranged in the actuator housing, to which the pressure of the heating flow in addition is activated. As a result, the Differential pressure between flow and return limited.

Embodiments of the invention are in the drawing shown and described in more detail below.

It shows:

Figure 1 shows a flow control valve according to the invention in the central longitudinal section.

Fig. 2 seen a detail in the direction of arrow II of Fig. 1;

Fig. 3 is a flow control valve with differential pressure control according to the view in Fig. 1,.

The flow control valve shown in the drawings consists of a valve housing 1 with an inlet 2 and an outlet 3 . On the housing are still measuring spouts, of which the one shown on the right in the drawing is offset by 90 ° about the vertical axis in order to be able to represent it in the plane of the drawing.

In the valve housing 1 , a valve seat 4 is formed, which forms a first throttle 8 with the first closure piece 5 . The first closure piece 5 is rigid and sealed by a sealing element 15 with a hollow spindle 6 . The hollow spindle 6 is connected at its closure piece 5 from the end facing an actuator 7 .

The valve seat 4 forms a second throttle point 9 together with a second closure piece 10 , the second throttle point 9 of the first being connected in series. The second closure piece 10 is mounted in an axially movable manner in a head piece 11 of the valve housing 1 .

A setpoint spring 12 , which is supported on a stop fixed to the housing (in the drawing below) and on a second stop 13 coupled to the second closure piece 10 , can move the second closure piece in the axial direction. The second stop 13 is fixedly connected to the second closure piece 10 , specifically via a sleeve-like element which is made in one piece with the closure piece in the exemplary embodiment and which coaxially surrounds the hollow spindle 6 to form a channel which will be described later.

The second stop 13 is thus fixedly coupled with the second closure piece 10 with regard to its movement. The upper side of the second stop 13 is sealed off from the underside thereof by a sealing element 14 . Through channels 17 , 18 between the first and second throttling point pressure P₂ on the top of the second stop 13 and in the outlet pipe pressure P₃ from the bottom of the second stop. The pressure in the inlet pipe P₁ is passed through the hollow spindle 6 on the top of a movable partition 16 (membrane) which is clamped on the edge in an actuator housing 21 and is connected radially on the inside with components which are coupled in motion with the second closure piece 10 . A sealing element 19 on the hollow spindle 6 seals the pressure spaces P 1 and P 2 thus formed on both sides of the membrane. Characterized in that the membrane ( 16 ) is firmly connected to the head piece 11 of the valve housing and firmly to the second stop 13 , the second stop 13 on the hollow spindle 6 can be axially displaced by the membrane 16 . This leads to an axial displacement of the second closure piece 10 . This ensures that the difference between P₁ and P₂ is always kept approximately constant.

The actuator 7 is connected by means of thread 20 to the actuator housing 21 . The handle 22, which is designed in the form of a handwheel, is not axially displaceable but is rotatably mounted on the actuator housing 21 and is connected to the actuating part 7 in a rotationally fixed but axially displaceable manner by means of a toothing 23 . When the handwheel 22 rotates, the first closure piece 5 is axially displaced and a defined throttle cross section is thus set at the throttle point 8 .

The handwheel 22 is printed on the outside with a scale 30 , as can be seen in particular from FIG. 2. The set flow value is displayed by the pointer 24 , which is held fixed to the housing. The pointer 24 can be provided with a cutout through which a blocking pin 25 can be inserted, which engages in the grooves of the handwheel 22 and blocks it. A sealing wire 31 can be drawn through this blocking pin 25 , which prevents the unauthorized removal of the blocking pin. In pressure tapping, which are connected to the pressure chambers P₁ and P₂, measuring valves 27 can be connected so that the pressures P₁ and P₂ can be controlled. Since the degree of opening of the first closure piece 5 is known, the actual flow can also be determined and documented.

In the embodiment of FIG. 3, a flow control valve with differential pressure limitation is shown. The structure is analogous to the illustration in FIGS. 1 and 2. In addition, however, a second membrane is arranged in the actuator housing 21, 28 also connected to the mobile on the hollow spindle 6 member which is coupled to the second closing element 10, axially on the hollow spindle 6 is movable. Through this second membrane 28 an additional pressure space P₄ is created. The pressure spaces P₄ and P₁ are separated by a sealing element 29 . Due to the axial displacement on the hollow spindle 6 , the second closure piece 10 is axially displaced until the balance of forces is restored. The pressure P₄ is tapped from the Heizungsvor run and passed through a hydraulic connection to the top of the membrane 28 . If the desired pressure level is now exceeded, the second closure piece 10 closes the valve. The pressure difference between P₄ and P₁ is limited to the desired value.

The invention is not limited to the exemplary embodiments limited, but often within the scope of the disclosure variable.

All new, in the description and / or drawing disclosed individual and combination features are considered viewed essential to the invention.

Claims (6)

1. Flow control valve in which the valve seat ( 4 ) and the closure piece ( 5 ) formed the first throttle point ( 8 ) with an adjustable second throttle point ( 9 ) in series and with the valve housing ( 1 ) is connected to an actuator housing ( 21 ) is divided by a movable partition ( 16 ) into two pressure chambers (P₁, P₂) which are connected to channels leading to pressure reference areas in front of or behind a throttle point, the first channel connecting the one pressure reference area to the first pressure chamber through which Valve spindle ( 6 ) runs, characterized in that the second throttle point ( 9 ) is formed by a coaxial to the first closure piece ( 5 ) arranged on the valve stem ( 6 ) axially displaceable second closure piece ( 10 ) which is connected to the valve seat ( 4 ) cooperates and is connected to the partition ( 16 ) or coupled in motion, and that the second channel ( 17 ) is behind the first throttle place ( 8 ) and before the second throttle point ( 9 ) lying pressure reference area with the second pressure chamber (P₂) of the actuator housing ( 21 ) connects. 2. Flow control valve according to claim 1, characterized in that between the second closure piece ( 10 ) and the second pressure chamber (P₂) a setpoint spring ( 12 ) is arranged, which acts in the opening direction on the closure piece ( 10 ), the setpoint spring ( 12th ) is supported on a housing-fixed first stop and a second stop ( 13 ) rigidly connected to the locking piece ( 10 ) under spring preload, the second stop ( 13 ) on the side facing away from the setpoint spring ( 12 ) from the pressure in the second pressure chamber (P₂ ) of the actuator housing ( 21 ) and on the other side is acted upon by the pressure (P₃) which is set in the flow direction behind the second throttle point ( 9 ). 3. Flow control valve according to claim 1 or 2, characterized in that the second closure piece ( 10 ) by means of a hollow spindle ( 6 ) coaxially surrounding the guide sleeve with the partition ( 16 ) is connected, the second channel ( 17 ) between the jacket of the hollow spindle ( 6 ) and the guide sleeve is formed and on the one hand opens into the pressure reference area between the first and second throttle point ( 8 , 9 ) and on the other hand into the second pressure chamber (P₂) of the actuator housing. 4. Flow control valve according to one of claims 1 to 3, characterized in that the second closure piece ( 10 ) is formed by a pot-like element which coaxially engages over the first closure piece ( 5 ) and can be applied with its front edge to the valve seat ( 4 ) or can be lifted off from this to form the second throttle point ( 9 ). 5. Flow control valve according to one of claims 1 to 4, characterized in that the first closure piece ( 5 ) by means of a on the actuator housing ( 21 ) rotatably and axially immovable handle ( 22 ) relative to the valve seat ( 4 ) is axially adjustable. 6. Flow control valve according to one of claims 1 to 5, characterized in that the valve housing ( 1 ) has pressure tapping for the connection of measuring valves ( 27 ), one of which with the pressure chamber P₁ in the flow direction in front of the throttle points ( 8 , 9 ) and the other with the pressure chamber P₂ behind the throttle ( 8 , 9 ) is connected.