Pressure independent control valve

Abstract

A pressure independent control valve (10) for controlling the flow of a liquid medium includes a valve body having a side wall defining a conduit that extends from an inlet to an outlet. The side wall of the valve body include a first side opening (23) and a second side opening (24) extending into the conduit. A first insert element (21) is placed into the first side opening (23) and a second insert element (22) is placed into the second side opening (24). At least part of a pressure control device (18) is accommodated by said first insert element (21), and at least part of a flow rate adjustment device (19) is accommodated by said second insert element (22).

Claims

1. A pressure independent control valve for controlling the flow of a liquid medium, comprising: a valve body including: an inlet section in which an inlet pressure of the liquid medium is present, an outlet section in which an outlet pressure of the liquid medium is present, wherein the outlet section is coaxial with the inlet section; and a middle section positioned between the inlet section and the outlet section, wherein an upstream chamber and a downstream chamber being in communication with each other through an adjustment orifice are provided within the middle section; a first functional group defined by a control device for controlling a differential pressure within the pressure independent control valve; a second functional group defined by an adjustment device suitable for increasing and/or decreasing the liquid flow rate through the adjustment orifice; a first insert element providing the adjustment orifice at least partially positioned within the middle section of the valve body, wherein the first insert element is placed within the middle section of the valve body through a first opening of the valve body provided at a first side of the middle section, wherein the control device is at least partially accommodated with the first insert element, wherein an inner wall section of the first insert element that provides the adjustment orifice comprises ribs, wherein the ribs are inclined relative to a longitudinal axis of the adjustment orifice, and wherein an axis of each of the ribs and the longitudinal axis of the adjustment orifice define an angle between 5 and 60; and a second insert element is at least partially positioned within the middle section of the valve body, wherein the second insert element is placed within the middle section of the valve body through a second opening of the valve body provided at a second, opposite side of the middle section, and wherein the adjustment device providing the second functional group is at least partially accommodated with the second insert element.

2. The pressure independent control valve of claim 1, wherein the first insert element is coaxial with the second insert element, the first opening of the valve body is coaxial with the second opening of the valve body, and the first functional group is coaxial with the second functional group.

3. The pressure independent control valve of claim 1, wherein a longitudinal axis of the first insert element, a longitudinal axis of the second insert element, a longitudinal axis of the first opening of the valve body and a longitudinal axis of the second opening of the valve body run perpendicular to a longitudinal axis of the inlet section of the valve body and a longitudinal axis of the outlet section of the valve body.

4. The pressure independent control valve of claim 1, wherein the longitudinal axis of the adjustment orifice runs perpendicular to a longitudinal axis of the inlet section and the outlet section of the valve body.

5. The pressure independent control valve of claim 1, wherein an outer wall section of the first insert element comprises at least one inlet opening through which the inlet section of the valve body communicates with the upstream chamber of the middle section.

6. The pressure independent control valve of claim 5, wherein the outer wall section of the first insert element comprises multiple inlet openings each being in communication with the inlet section.

7. The pressure independent control valve of claim 1, wherein an outer wall section of the first insert element comprises at least one outlet opening through which the downstream chamber of the middle section communicates with the outlet section of the valve body.

8. The pressure independent control valve of claim 1, wherein the adjustment device providing the second functional group is provided by a thermostatic radiator valve insert.

9. The pressure independent control valve of claim 1, wherein the second insert element provides an inlet opening being in communication with the adjustment orifice, and the second insert element provides an outlet opening being in communication with an outlet opening of the first insert element, wherein the relative position of the outlet opening of the second insert element relative to the outlet opening of the first insert element defines a maximum flow through the pressure independent control valve.

10. The pressure independent control valve of claim 1, wherein the first and second insert elements are both monolithic.

11. The pressure independent control valve of claim 1, wherein the angle defined by the axis of each of the ribs and the longitudinal axis of the adjustment orifice is between 15 and 40.

12. The pressure independent control valve of claim 1, wherein the first functional group is configured to control the differential pressure between the inlet pressure within the upstream chamber and the outlet pressure within the outlet section.

13. The pressure independent control valve of claim 1, wherein the angle defined by the axis of each of the ribs and the longitudinal axis of the adjustment orifice is between 10 and 50.

14. The pressure independent control valve of claim 1, wherein an outer wall section of the first insert element provides a groove accommodating a sealing element, and wherein the groove runs diagonally around the outer wall section with respect to a longitudinal axis of the first insert element so that the sealing element accommodated within the groove seals an upstream chamber against a downstream chamber.

15. A pressure independent control valve for controlling the flow of a liquid medium, comprising: a valve body having a side wall defining a conduit that extends from an inlet to an outlet of the pressure independent control valve, the side wall including a first side opening and a second side opening extending through the side wall and into the conduit; a control device for controlling a differential pressure across the pressure independent control valve; an adjustment device suitable for adjusting the liquid flow rate through the pressure independent control valve; a first insert element placed at least partially through the first side opening of the valve body, wherein at least part of the control device is accommodated by the first insert element, wherein an outer wall section of the first insert element provides a groove accommodating a sealing element, wherein the groove runs diagonally around the outer wall section with respect to a longitudinal axis of the first insert element so that the sealing element accommodated within the groove seals an upstream chamber against a downstream chamber, wherein an inner wall section of the first insert element provides an adjustment orifice comprising ribs, wherein the ribs are inclined relative to a longitudinal axis of the adjustment orifice, and wherein an axis of each of the ribs and the longitudinal axis of the adjustment orifice define an angle between 5 and 60; and a second insert element placed at least partially through the second side opening of the valve body, wherein at least part of the adjustment device is accommodated by the second insert element.

16. The pressure independent control valve of claim 15, wherein an axis of each of the ribs and the longitudinal axis of the adjustment orifice define an angle between 10 and 50.

17. The pressure independent control valve of claim 15, wherein an axis of each of the ribs and the longitudinal axis of the adjustment orifice define an angle between 15 and 40.

18. The pressure independent control valve of claim 15, wherein the longitudinal axis of the first insert element, a longitudinal axis of the second insert element, a longitudinal axis of the first opening of the valve body and a longitudinal axis of the second opening of the valve body run perpendicular to a longitudinal axis of an inlet section of the valve body and a longitudinal axis of an outlet section of the valve body.

19. The pressure independent control valve of claim 15, wherein the longitudinal axis of the adjustment orifice runs perpendicular to a longitudinal axis of an inlet section and an outlet section of the valve body.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Preferred developments of the invention are provided by the dependent claims and the description which follows. Exemplary embodiments are explained in more detail on the basis of the drawing, in which:

(2) FIG. 1 shows a side view of a pressure independent control valve;

(3) FIG. 2 shows a cross section through the pressure independent control valve;

(4) FIG. 3 shows an exploded view of FIG. 1;

(5) FIG. 4 shows an exploded view of FIG. 2;

(6) FIG. 5 shows a detail of FIG. 4;

(7) FIG. 6 shows another detail of FIG. 4;

(8) FIG. 7 shows a perspective cross sectional view through the pressure independent control valve;

(9) FIG. 8 shows an assembly of the a detail shown in FIGS. 5 and 6; and

(10) FIG. 9 shows a cross section through the assembly of FIG. 8.

DESCRIPTION

(11) The present invention provides a pressure independent control valve 10. Such a pressure independent control valve 10 is also often called PICV. The pressure independent control valve 10 is used to control the flow of a liquid medium in heating and cooling systems.

(12) The pressure independent control valve 10 comprises a valve body 11. The valve body 11 may be provided by a tubular element.

(13) The valve body 11 provides an inlet section 12, an outlet section 13 and a middle section 14. Within the inlet section 12 an inlet pressure of the liquid medium is present. Within the outlet section 13 an outlet pressure of the liquid medium is present. The inlet section 12 and the outlet section 13 are coaxial with each other. So, a longitudinal axis 12a of the inlet section 12 is coaxially aligned with a longitudinal axis 13a of the outlet section 13. These longitudinal axes 12a, 13a correspond to the flow direction of the liquid medium through inlet section 12 and the outlet section 13.

(14) The middle section 14 is positioned between the inlet section 12 and the outlet section 13. A longitudinal axis 14a of the middle section 14 runs perpendicular to the longitudinal axis 12a of the inlet section 12 and to the longitudinal axis 13a of the outlet section 13.

(15) An upstream chamber 15 and a downstream chamber 16 being in communication with each other through an adjustment orifice 17 are provided within the middle section 14.

(16) The upstream chamber 15 is further in communication with the inlet section 12. The downstream chamber 16 is further in communication with the outlet section 13.

(17) The pressure independent control valve 10 comprises a first functional group defined by a control device 18 for controlling a differential pressure. The first functional group or control device 18 controls the differential pressure between the pressure upstream of the adjustment orifice 17, namely the pressure within the upstream chamber 15, and the outlet pressure being present within the outlet section 13.

(18) The pressure independent control valve 10 further comprises a second functional group defined by an adjustment device 19 suitable for increasing and/or decreasing the liquid flow through the adjustment orifice 17.

(19) As shown in FIG. 1, the pressure independent control valve 10 may further comprise check sections 20 for measuring pressures within the inlet section 12 and within the outlet section 13. These check sections 20 may accommodate pressure sensors or pressure test cocks for measuring said pressures.

(20) The pressure independent control valve 10 further comprises a first insert element 21 and a second insert element 22. These insert elements 21, 22 are both monolithic. The insert elements 21, 22 are monolithic themselves but not monolithic with the valve body 11. The first insert element 21 provides the adjustment orifice 17.

(21) The first insert element 21 is positioned at least partially, preferably completely, within the middle section 14 of the valve body 11. Said first insert element 21 is placed within the middle section 14 of the valve body 11 through a first opening 23 of the valve body 11 provided at a first side of the middle section 14. The first functional group 18 is at least partially accommodated with said first insert element 21.

(22) The second insert element 22 is at least partially positioned within the middle section 14 of the valve body 11. Said second insert element 22 is placed within the middle section 14 of the valve body 11 through a second opening 24 of the valve body 11 provided at a second, opposite side of the middle section 14. The second functional group 19 is at least partially accommodated with said second insert element 22.

(23) The first insert element 21 is coaxial with the second insert element 22. The first opening 23 of the valve body 11 accommodating said first insert element 21 is coaxial with the second opening 24 of the valve body 11 accommodating said second insert element 22. So, the first functional group 18 accommodated by the first insert element 21 is coaxial with the second functional group 19 accommodated by the second insert element 22.

(24) A longitudinal axis 21a of the first insert element 21, a longitudinal axis 22a of the second insert element 22, a longitudinal axis 23a of the first opening 23, and a longitudinal axis 24a of the second opening 24 run all perpendicular to the longitudinal axis 12a of the inlet section 12 of the valve body 11 and to the longitudinal axis 13a of the outlet section 13 of the valve body 11.

(25) So, both functional groups run perpendicular to the longitudinal axis 12a of the inlet section 12 and the longitudinal axis 13a outlet section 13 of the valve body 11.

(26) The longitudinal axis 17a of the adjustment orifice 17 runs perpendicular to the longitudinal axis 12a of the inlet section 12 of the valve body 11 and perpendicular to the longitudinal axis 13a of the outlet section 13 of the valve body 11. The longitudinal axis 17a of the adjustment orifice 17 corresponds to the flow direction of the liquid medium from the upstream chamber 15 into the downstream chamber 16 through the adjustment orifice 17.

(27) As mentioned above, the first functional group being defined by the control device 18 controls the differential pressure between the pressure within the upstream chamber 15 and the outlet pressure within the outlet section 13. Said control device 18 comprises a housing 25 having an outer thread 26 engaging an inner thread 27 of the first insert element 21, a mobile element 28, a diaphragm 30, disk-like elements 29a and 29b for positioning the diaphragm 30, a spring element 31 acting against the housing 25 and the disk-like element 29a and 29b, and a lid or cover 32. The function of said control device 18 is known to the person skilled in the art and does not need to be further described.

(28) An inner wall section 33 of the first insert element 21 provides the adjustment orifice 17. On a first side of said adjustment orifice 17 the upstream chamber 15 is provided. At an opposite second side of said adjustment orifice 17 the downstream chamber 16 is provided.

(29) An outer wall section 34 of the first insert element 21 is divided by the inner wall section 33 into two subsections 34a and 34b, wherein the subsection 34a defines partially the upstream chamber 15 and wherein the subsection 34b defines partially the downstream chamber 16. The outer wall section 34 is of cylindrical shape. A longitudinal axis of the same runs parallel to the longitudinal axis 14a of the middle section 14. An inner wall section 33 of the first insert element 21 is positioned inside the outer wall section 34 of the first insert element 21 and runs perpendicular to the longitudinal axis 14a of the middle section 14.

(30) The outer wall section 34, namely the subsection 34a, of the first insert element 21 comprises at least one inlet opening 35, preferably multiple inlet openings 35 which may have different cross sections. In the latter case, each of said inlet openings 35 is in communication with the inlet section 12 of the valve body 11. Further on, the outer wall section 34, namely the subsection 34b, of the first insert element 21 comprises at least one outlet opening 36. The same may comprise multiple outlet openings 36 which may have different cross sections.

(31) The relative position of the first insert element 21 within the middle section 14 of the valve body 11 is defined and fixed by a pin 53 of the first insert element 21 which projects into a recess 54 of the valve body 11.

(32) The outer wall section 34 of the first insert 21 provides a groove 37 accommodating a sealing element 38, wherein said groove 37 is running diagonally around said outer wall section 34 of the first insert 21 so that the sealing element 38 accommodated within said groove 37 seals the upstream chamber 15 against the downstream chamber 16.

(33) The inner wall section 33 of the first insert 21 that defines the adjustment orifice 17 comprises ribs 39. Said ribs 39 are provided at a flow guiding surface of the adjustment orifice 17. The ribs 39 are inclined relative to the longitudinal axis 17a of the adjustment orifice 17. The longitudinal axis 17a of the adjustment orifice 17 corresponds to the flow direction of the liquid medium through the adjustment orifice 17. The axis of the ribs 39 and the longitudinal axis 17a of the adjustment orifice 17 define an angle between 5 and 60, preferably between 10 and 50, most preferably between 15 and 40.

(34) Said adjustment device 19 is provided by a thermostatic radiator valve insert. The thermostatic radiator valve insert comprises a valve stem 40 carrying a valve plunger 41, a guiding element 42 for the valve stem 40 and a spring elements 43a, 43b acting on the valve stem 40 and the guiding element 42. The function of such a thermostatic radiator valve insert is known to the person skilled in the art and does not need to be further described.

(35) Said adjustment device 19 being provided by the thermostatic radiator valve insert is at least partially accommodated within the second insert 22. The guiding element 42 of the adjustment device 19 has an outer thread 45 acting together with an inner thread 46 of the second insert element 22.

(36) The second insert element 22 provides an inlet opening 47 being coaxial and in communication with the adjustment orifice 17. The liquid medium flows from the upstream chamber 15 into the downstream chamber 16 through the adjustment orifice 17 and inlet opening 47 of the second insert element 22.

(37) The second insert element 22 further has an outlet opening 48. The outlet opening 48 of the second insert element 22 is provided outer wall section of the same. The outlet opening 48 of the second insert element 22 in communication with the or each outlet opening 36 of the first insert element 21. See FIGS. 8 and 9. The liquid medium flows from the downstream chamber 16 into the outlet section 13 through the outlet opening 48 of the second insert element 22 and the outlet opening 36 of the first insert element 21.

(38) In an assembled status of the pressure independent control valve 10, the axial relative position of the two insert elements 21 and 22 is fixed by an element 55 like a lock ring or a snap ring or a Seeger-ring. Said element 55 is shown in FIGS. 7, 9 and enters into recesses within the two insert elements 21 and 22. Said element 55 fixes only the axial relative position of the two insert elements 21 and 22. However, said element 55 allows the rotation of the second insert element 22 relative to the first insert element 21 around the longitudinal axis 22a of the second insert element 22.

(39) By rotating the second insert element 22 relative to the first insert element 21 the overlap of the outlet opening 48 of the second insert element 22 with the or each outlet opening 36 of the first insert element 21 can be adjusted. Said overlap defines an effective outlet opening of the two insert elements 21, 22 and presets the maximum flow rate through the pressure independent control valve 10. As mentioned above, the position of the first insert element 21 is fixed by the pin 53 of the first insert element 21 entering into the recess 54 of the valve body 11.

(40) The second insert element 22 can be rotated relative to the first insert element 21 by the operating a handle 51. When rotating the handle 51, the second insert element 22 together with the adjustment device 19 becomes rotated relative to the valve body 11 and relative to the first insert element 21.

(41) As mentioned above, the second insert element 22 becomes rotated relative to the first insert element 21 to preset the maximum flow rate through the pressure independent control valve 10. An indicator disc 50 is fixed to the valve body 11. So, when the handle 51 becomes rotated to change the presetting of the maximum flow rate through the pressure independent control valve 10, the second insert element 22 is rotated relative to the first insert element 21 and further the handle 51 is rotated relative to the indicator disc 50. The handle 51 has an opening 52 at a defined position. The indicator disc 50 is visible though said opening 52 in the handle 51. The indicator disc 50 carries a scale indicating the presetting of the maximum flow rate. Said scale is partially visible through the opening 52 in the handle 51 depending from the relative position of the opening 52 of the handle 51 relative to the indicator disc 50.

(42) FIGS. 1 and 2 show further a hand wheel 44. The hand wheel 44 can be used for manually changing the position of the valve plunger 41 of the adjustment device 19. Said hand wheel 44 can e.g. be used to close the pressure independent control valve 10. Usually, said hand wheel 44 is replaced by an actuator (not shown). Such an actuator can change the position of the valve plunger 41 and can be used to adjust the flow rate through the pressure independent control valve 10 between the preset maximum flow rate and zero.

LIST OF REFERENCE SIGNS

(43) 10 pressure independent control valve 11 valve body 12 inlet section 12a axis 13 outlet section 13a axis 14 middle section 14a axis 15 upstream chamber 16 downstream chamber 17 adjustment orifice 17a axis 18 first functional group/control device 19 second functional group/adjustment device 20 check section 21 first insert element 21a axis 22 second insert element 22a axis 23 first opening 23a axis 24 second opening 24a axis 25 housing 26 outer thread 27 inner thread 28 mobile element 29a disk-like element 29b disk-like element 30 diaphragm 31 spring element 32 cover 33 inner wall section 34 outer wall section 34a sub-section 34b sub-section 35 inlet opening 36 outlet opening 37 groove 38 sealing element 39 rib 40 valve stem 41 valve plunger 42 guiding element 43a spring element 34b spring element 44 hand wheel 45 outer thread 46 inner thread 47 inlet opening 48 outlet opening 49 indicator 50 indicator disc 51 handle 52 opening 53 pin 54 recess 55 element