DE1548996B2 - CONTROL VALVE - Google Patents

Description

3 4

which are simple and compact in structure and also essentially consist of the actual valve housing 1 In comparison to known devices, it is inexpensive with the valve seat 2, which is adjustable relative to the valve seat is. In addition, the control valve to be created should be slidably mounted valve body 3, which in the dareine Setpoint adjustment within wide limits made possible is pressure-relieved and via a counter, without this components of the valve or the 5 rod 4 with a to be described in more detail Orifice plate assembly must be replaced. Way through differential pressure pressurizable mem-starting of the well-known control valves of the bran 5, the enclosed by a membrane housing 6 mentioned Art, the task at hand is inventive, is related. On the valve body solved in that the valve seat is on the opposite side of the valve seat 2 by 3 the side facing away from the valve body in connection with e.g. a rotationally symmetrical part7 a continuously adjustable throttle member arranged as a detes throttle member, which by means of a Orifice with variable opening cross-section spindle 8 adjustable and in a suitable manner on is trained. Valve housing 1 is mounted.

The tapping of the fluid pressures to act The following explanation of the exemplary embodiment

impact one with the adjustable valve body 15 les according to the invention takes place under the prerequisite

connected control membrane od.

immediately in front of and in the valve seat. As a result, a medium is passed through in the unit of time.

extremely compact design of the valve-attached mass flow or its flow

order achieved. It goes without saying that the speed should be kept constant. The medium

Instead of a control diaphragm, a control piston for 20 enters the control valve through inlet 9,

Valve body actuation depending on which flows through the valve seat 2 and leaves the valve

the differential pressure occurring at the measuring orifice through output 10. The throttle device is in

can be det, but the Steuermem- a more or less large distance from the

bran through essentially frictionless movable upper side of the valve seat 2 adjustable. This is

excellence. It is also self-evident that 25 a cross-section variable, an

that the valve body actuation also by means of a servo-type flow cross-section having a measuring orifice

facilities can be made that are created in dependence. The downward part of the ven-

controlled by the differential pressure. tilsitzes works in the usual way with the

In a further embodiment of the invention, the valve body 3 acting together can. Throttle element designed as a rotationally symmetrical part. A control line leads from the valve inlet 9 be forms, on which a spindle engages, the 11 to the diaphragm housing 6 and opens into the Change in the flow cross-section of the measurement loading space 12. Through this control panel with the respective opening position of the device through, the membrane 5 experiences a one-sided The calibration mark indicating the measuring orifice is provided, the application of pressure with the in front of the measuring orifice with a fixed fluid pressure which is arranged on the valve housing and which is a ver calibration scale cooperates. Shifting of the membrane and thus under mediation

Another development of the invention further development of the linkage 4 is a displacement of the valve feature As a result, the adjustment of the through-body in the direction of its closed position can flow cross-section or guide the orifice plate by hand. The other side of the membrane 5 receives its by means of a servomotor z. B. electrical, hydraulic 40 pressurization from the pressure chamber 13 of the shear or pneumatic type. However, it is membrane housing. This pressure space protrudes also possible, the actuation of the throttle member to a control line 14 with the downstream side of the as Purposes of the 'orifice cross-section change by measuring orifice serving valve seat 2 in connection. Trigger remote control, of course, the In the illustrated embodiment are the respective position of the throttle member on a remote 45 housing members between the membrane 5 and the th point can be displayed, e.g. designed as a control line 14 by means of a valve body 3, and with the spindle in a suitable manner connected po- the valve seat facing surface 15 of the valve valve, which has a remotely arranged armature through bores 16, 17. Of the pointing instrument controls. This solution is in particular valve body 3 is in the present case as a hollow flange then advantageous if the control valve is designed on a 50 per in the manner of a piston, so that the inaccessible or at least poorly accessible streams tapped on the valve seat 2 on the downstream side Must be installed. average pressure through the bores 16, 17

Finally, according to a further embodiment, the valve body cavity and the control line 14

development designing feature the adjusting device through into the pressure chamber 13 of the membrane housing

continue device to change the flow cross-section 55 ses 6 and the membrane 5 is loaded on one side.

the orifice plate must be included in a control loop. can beat. In this way, the tax

In the following, the invention is based on the in membrane 5 a differential pressure application,

The embodiment shown in the drawing closer to the connection of the valve body 3 with the

are described, but without rods 4 serving on this execution membrane 5 extends through

example to be limited. 60 a hat-shaped arranged on the valve housing 1

In the drawing shows housing part 20 through which, in addition to the rod

F i g. 1 the control valve with the measuring orifice implementation some unspecified through serving Valve seat in a schematic sectional representation bores for the transmission of the behind the ment and measuring orifice tapped fluid pressure

F i g. 2 has the same valve with a schematic 65. The linkage 4 has at its lower

indicated remote control and remote display for the end of a plate 21. Between the hat-shaped

Throttle adjustment. Housing part 20 and the plate 21 of the rod 4 is

The in Fig. 1 is a control valve shown in a return spring 22 is arranged. The membrane 5

carries a rod 23 extending up to the abutment on the plate 21 of the linkage 4, whose on the plate 21 adjoining section is mushroom-shaped in the manner of a ram head 24. In this respect, from of the membrane 5 on the valve body 3 only displacement forces in the sense of a closing movement of the valve body against the action of the spring 22 are transmitted. The valve body return to its open position causes the return spring 22.

On the opposite side of the rod 23 of the membrane 5 extends from the membrane an adjusting rod 26 continues, which extends through the membrane housing 6 and on that of the membrane opposite end a threaded part 27 carries. A helical spring 28 is arranged on the adjusting rod 26, which is supported on the one hand on the membrane housing 6 in the area of the rod passage, on the other hand, on an adjusting nut 29 arranged on the threaded part 27.

By turning the adjusting nut 29 on the threaded part 27, the preload changes of the coil spring 28 and thus a change in the setpoint setting of the control valve. the Acting on the membrane 5 with the fluid pressure tapped on the downstream side from the valve seat 2 in the pressure chamber 13 and the force of the helical spring arranged on the adjusting rod 26 28 take place in the same direction, while these forces act in the opposite direction, the diaphragm is acted upon acts with the fluid pressure tapped in front of the measuring orifice in the pressure chamber 12. It reference is made to the fact that, of course, instead of the selected helical spring 28, the setpoint adjustment also by an exchangeable weight, which z. B. directly or with the interposition of a attack two-armed lever or a transmission linkage on the adjustment rod 26 of the membrane 5 can, is possible. It should also be noted that the size of the possible setpoint adjustment on the one hand from the evaluable differential pressure, which is measured in the manner described above by flow pressure is formed in front of and behind the orifice plate, on the other hand on the size of the membrane is dependent.

In order to vary the differential pressure that can be tapped off at the measuring orifice within certain limits make, is the throttle element 7, 8 already described on the valve body 3 opposite Side of the valve seat 2 is provided. The spindle 8 of the rotationally symmetrical part 7 is for this purpose provided with a threaded part 30 which cooperates with a nut connected to the valve housing 1. In order to enable a quick check of the respective position of the throttle device, the threaded part 30 can have a calibrated scale or with one arranged on the valve housing Working together scaling.

It goes without saying that both the threaded part 27 of the adjusting rod 26 and the threaded part 30 of the spindle 8 for the adjustable rotationally symmetrical part 7 in the area of the respective rod bushings either sealed or by means of those shown in the drawing, but unspecified Caps are covered fluid-tight.

In Fig. 2 of the drawings shows a possible embodiment for a remote control and remote display of the throttle point setting for changing Π the measuring orifice cross-section. In this case, the adjustable throttle element is expediently actuated by means of an electric motor 32 which can be reversed in the direction of rotation and which can be actuated by means of a remote manual switch 33 which is connected to the motor via line 34. Furthermore, this figure illustrates a display instrument 35 which is arranged remotely from the control valve and which is connected to the device for adjusting the throttle element via a line 36. The transmission of the data required for the remote display can be done in any way, but it is expedient to use a potentiometer which interacts in a known manner with the spindle 8 or with the threaded part arranged on it. Instead of the manually operated switch 33, the impulse for adjusting the throttle element to change the differential pressure that can be tapped off at the measuring orifice can also be provided by a fully automatic program control adapted to pressure, quantity, time or the like.

1 sheet of drawings

Claims (4)

1 2 If the flowing medium serves as a heat transfer medium Patent claims: and the temperature of this heat transfer medium is kept constant or changed in a certain way, 1. Device for regulating the flow rate is a constant unit of time or a certain amount of a meter flowing through a line variable heat transport.
diums with a valve body which interacts with a valve seat and is connected to a pressable or compressible medium in the od - Unit of time transported amount of heat is already known mungsweg the medium arranged measuring io. In a known valve of this type orifice with continuously adjustable opening cross-section, the passage cross-section is adjustable by means of a with respect to the section, the fluid pressure tapped off the valve seat directly in front of the measuring orifice being adjustable via a gel. To operate the valve cone control line on one and the other directly is a flow control membrane connected to this via a linkage behind the measuring orifice, which acts from a medium pressure on a measuring orifice on the other side of the membrane, which is arranged on the inlet or outlet side of the valve is, characterized in that the differential pressure tapped is applied. The valve seat (2) on the valve body (3) acts on the side directly in front of the measuring orifice in connection with an infinitely variable fluid pressure on one of the non-adjustable throttle elements (7, 8) as measuring orifice 20 directly behind the measuring orifice on the other side of the membrane designed with a variable opening cross-section. Furthermore, attacks on the Memdet is. bran a spring serving as a return organ, the 2. Control valve according to claim 1, characterized in the same direction as the action by the rear indicates that the throttle device is used as a rotational fluid pressure tapped from the measuring orifice symmetrical part (7) is formed on which 25 acts. a spindle (8) engages which, as is well known, is available to change which occurs on a measuring orifice. of the flow cross-section of the measuring orifice with the differential pressure change in quadratic one the respective opening position of the measuring ratio to change the speed of a Aperture indicating calibration mark is provided, the flowing medium. High flow velocity with a fixed position on the valve housing (1) leads to a strong pressure drop, i.e. to ordered calibration scale (30) cooperates. a high differential pressure, low flow 3. Control valve according to claims 1 and 2, speed, however, to a small difference thereby marked that the adjustment of the pressure. In the known valve, the arrangement is The flow cross-section of the measuring orifice is now made in such a way that with increasing flow rate or by means of a servomotor, e.g. electrical speed, i.e. with increasing differential pressure, shear, hydraulic or pneumatic type, the valve cone is against the effect of the return, adjusting spring in the direction of its closed position 4. Control valve according to claim 3, characterized in that it is pushed until a new state of equilibrium that the adjusting device to see the forces acting on the membrane Change in the flow cross-section of 40 occurs. This keeps the Orifice plate is included in a control loop. Flow rate that is independent of the static and dynamic pressure of the system is. With falling Differential pressure, the valve cone moves in the direction of its maximum opening position The invention relates to a device 45 ment. to regulate the flow rate of a through a Line of flowing medium with a valve body arrangement by changing the preload per, which interacts with a valve seat and with the return one acting on the control diaphragm control spring loaded by a return element. To enlarge the setting range, Diaphragm or the like is connected, and with one in 50 the return spring against a spring of another Cha flow path of the medium arranged measuring characteristics are exchanged. A setpoint fade in with infinitely adjustable cross-flow opening can also be changed by changing the measuring section, where the take place immediately in front of the measuring orifice aperture. This is one hand through tapped fluid pressure via a control using an orifice with variable Line to one and the one immediately behind the passage cross-section, on the other hand through measuring orifice tapped fluid pressure on exchange possible. The exchange of the return die the other side of the membrane is effective. spring and / or the orifice plate are very time-consuming. In the process engineering there is often the funding, whereby additional information, the flow rate of a medium, shut-off devices, orifices with galvanized are required for the orifice plate exchange. B. a heat transfer medium, regardless of the changeable in 60 passage cross-sections, however, the medium prevailing static and dynamic are extremely expensive. It also appears to hold constant when pressing be. The determination of the known devices, the separate flow velocity commonly used, can expediently be carried out by arranging the control valve and the measuring orifice using a dynamic pressure meter, e.g. B. by expedient. To this extent, control valve arrangements are a Venturi tube or an orifice plate. If the 65 of the type described above needs improvement,
The object of the present invention is the flow rate directly as a measure of the amount flowing in the unit of time in the creation of an improved valve arrangement. to regulate the mass flow of flowing media,