IE41798B1 - Improvements in or relating to valves - Google Patents

Description

The present invention is concerned with improvements in or relating to valves.

In Patent Specification No. 32987 of Aktiebolaget Fellingsbro Verkstader there is described a fluid flow control valve adapted for particular, but not exclusive use, with a single line central heating system. This control valve is arranged inr main flow of hot water from an inlet through a branch outlet to a radiator and return flow through the branch outlet to a main outlet, and for bypass flow direct from the inlet to the main outlet.

It is an object of the present invention to provide an improved valve arranged for such main flow and bypass flow, which is particularly but not exclusively adapted for thermostatic control in a single line central heating system.

The present invention provides a fluid flow control valve comprising a valve housing having an inlet, a main outlet and a branch outlet arranged for flow of fluid from the inlet to the branch outlet and return flow through the branch outlet to the main outlet, a bypass conduit for bypass flow direct from the inlet to the main outlet, a fixed partition dividing the branch outlet into side by side flow and return passages, a main control valve member mounted in the housing for lineal* movement to vary the flow through the branch outlet in the normal operation of the valve> and a second valve member operable independently of the main control Valve member and variably settable to limit the flow through the branch Outlet, the cross sectional flow area* of the bypass conduit being independent of the positions of the main and second valve members in the normal operation of the valve.

The invention also provides a fluid flow control valve according to the invention in combination with a coupling adapted to couple the valve to a central heating radiator, the coupling comprising a first portion connectible to the branch outlet coaxially therewith and a second portion leading from the first portion at right angles thereto and connectible to the radiator; the arrangement being such that the angular position of the coupling about the axis of the second portion when connected to the radiator is variable.

The invention also provides a central heating system comprising a fluid flow control valve according to the Invention, wherein the branch outlet of the valve is in communication with a radiator, and the inlet of the valve ls in communication with a flow line along which central heating fluid flows in the operation of the system.

The invention also provides a single line central 2Q heating system comprising a main flow line along which central heating fluid flows in the operation of the system; and a fluid flow control valve according to the invention With its inlet and main outlet.connected in the main flow line and its branch outlet in communication with a radiator.

There now follows a description, to be read with reference to the accompanying drawings, of a hot water flow control valve embodying the invention. This description ls given by way of example of the invention only and not by way of limitation thereof. - 3 41798 In the accompanying drawings :Figure 1 shows a sectional side view of parts of the valve embodying the invention; Figure 2 shows a thermostatic control head; Figure 3 shows a manual control head; and Figure 4 shows connection of the valve to a radiator. The valve embodying the invention comprises a valve housing 10 which comprises an inlet 12, a main outlet 14 parallel with the iillet 12, and a branch outlet 16 opposite and parallel to the inlet 12 and the outlet 14, the axes of the inlet and outlets being coplanar. As will be explained, the inlet 12 and the main outlet 14 are interchangeable in function. The inlet 12 and the outlet 14 are arranged to be connected to hot water supply and return connections (not shown) Via coupling nuts 12a, 14a respectively, which retain brass sealing collars 13 (only one of which is shown).

The branch outlet 16 is divided symmetrically by a fixed planar partition 17 into side by side parallel flow and return passages 18, 20 respectively so that the flow passage 18 (including its upstream end 18a) is positively isolated from the return passage 20 (including its downstream end 20a) at all times in the normal operation - 4 41798 of the valve. When the valve is rn use the branch outlet 16 is connected to a central heating radiator 106 (Figure 4) via a coupling 20b which is secured to the valve housing by a coupling nut, 20c; another partition 20d extends along the coupling 20b to provide separation of the flow and return.

The inlet 12 communicates with the flow passage 18 via a bore 22 in the housing 10 and a port 24 in a side wall of the passage 18; the bore 22 is at right angles to the inlet 12 and also at right angles to the branch outlet 16. A valve seating 28 is provided around the port 24 for co-operation with a linearly movable main control' valve member 30 which in the normal operation of the valve is adapted to control flow from the inlet 12 through the passage 18 to the radiator by directly varying the flow through the port 24.

The return passage 20 similarly communicates with the main outlet 14 via a port 32 in a side wall of the passage 20 and a bore 34 in the housing 10; the bore 34 is parallel to the bore 22. A variably settable valve member or throttling plug operable independently of the valve member 30 is screwed into the bore 34 and acts to limit the flow; the plug 36 is sealed with respect to the bore 34 by a rubber 0-ring 36a; the bore 34 is closed around the plug 36 by a removable threaded end cap 36b. When it is required tc adjust the setting of the plug 36, the end cap 36b is removed and the plug 36 screwed in or out by engagement of a screwdriver or the like in an end slot 36c of the plug 36. The plug 36 comprises a projecting end portion 36d which is arranged to engage against a seating 36e around the port 32 to close the port 32 when desired, for example when it is required to isolate the radiator e.g. for maintenance purposes.

A bypass conduit 38 leads from the inlet 12 to the outlet 14 and provides for bypass flow direct from the inlet 12 to the outlet 14. The conduit 38 comprises a narrower Upstream portion 40 leading from the inlet 12 followed by a wider downstream portiop 42 leading into the outlet 14 but in a modification the conduit 38 is of uniform diameter. The downstream portion 42 is opposite a conduit extension 44 whioh leads out of the outlet 14 and presents an access opening for the bypass conduit 38; the access opening is shown closed by a removable threaded closure plug 46. In a modification for use with two-pipe systems, the threaded plug 46 is replaced by another removable threaded plug (not ί Shown) which completely blocks the bypass conduit 38. It will be noted that in the normal operation of the valve the crosssectional flow area of the bypass conduit 38 is independent of the position of the main control valve member 30 and of the throttling plug 36.

The valve member 30 forms part of a valve member unit 48 which is screwed into a threaded portion pf the bore 22.

The unit 48 comprises a casing 50 whioh is sealed with respect to the bore 22 by a rubber O-ring 52. Mounted in the casing 50 is a valve stem 54 of the valve member 30 and mounted on the valve stem 54 where it extends outside the casing 50 is a rubber valve head 56 arranged to seat against the seating 28 when in a closed position. A spring 58 acts between an end face 60 of the casing 50 and a plate 62 secured to the stem 54. The casing 50 is closed by a threaded plug 64 whioh provides an end stop for the plate 62. A stub 66 of the - 6 41798 stem 54 extends freely through the plug 64 and is arranged to be engaged by a plunger 102 of a thermostatic control head 70 (figure 2); alternatively, a manual control head 72 (Figure 3) is used. It will be realised that the effect of the spring 58 is to urge the valve head 56 to a left hand position (Figure 1) away from the seating 28, and that appropriate operation of the control head 70 or 72 causes corresponding movement of the valve head 56 towards the seating 28 via the valve stem 54 and against the action of the spring 58; reverse operation of the control head causes corresponding movement of the valve head 56 away from the seating 28 under the action of the spring 58.

Where the thermostatic head 70 is used it may be for example of a type marketed by A.B. Markaryds Metallarmature of Markaryd, Sweden, as suitable for Type TFBTFR-TFW thermostatic valves. A closely similar type of thermostatic head is marketed in. the United Kingdom by Honeywell. This type of thermostatic head comprises a heat -sensitive element- 100 which actuates the plunger 102 engaging the stub 66. The setting of the thermostatic head is variable by a manual control knob 74 which is screwed onto a body portion 104 of the head 70; so that rotation of the knob 74 causes axial adjustment of the heat sensitive element and plunger.__ The control head 70 is secured.to the housing lo by a nut .ihich screws onto a thread 78 on the housing 10.

While the valve embodying the invention is believed to be well suited for thermostatic operation using the head 70, it may also be conveniently used with the manual head 72 in appropriate circumstances and it will be realised that the two heads 70, 72 are readily -- 7 , interchangeable should it be desired for example to change from manual to thermostatic operation, and this can be done without draining the system in any way.

The manual control head 72 comprises an outer generally hollow knob member 80 in which is secured by a screw 81 a spring housing 82. The spring housing 82 contains a spring 84 which acts betv/een an annular recessed spring seating 86 provided by a rear end face of the housing 82 and an inner rearwardly facing recess 87 of a plunger 88 which is slidably mounted in the housing 82; the plunger 88 is urged by the spring against an annular inwardly directed flange 90 at the front of the housing 82. The housing 82 is screwed into a threaded connector 92 and rotation of the knob member 80 relative to the connector 92 causes axial movement of the housing 82 and of the knob member 80 relative to the connector 92. In Figure 3 the housing 82 and knob member 80 are shown in a left hand terminal position in which a flange 94 on the housing 82 engages a shoulder 96 in the connector 92. The connector 92 screws onto the thread 78 of the housing 10 so that the plunger 88 engages the stub 66 of the stem 54. Thus, it will be realised that rotation of the knob member 80 causes movement of the valve head 56 via the plunger 88 and the valve stem 54. The purpose of the spring 84 is to minimise the risk of excessive tightening of the valve head 56 against the seating 28, the strength of the spring 84 being such that the plunger 88 yields against the action of the spring when the valve head 56 is in engagement with the seating 28 and any attempt is made to turn the knob member 80 beyond a reasonably tight position. - 8 41798 When the valve is in use in. a single line central heating system, the plug 36 will normally be pre-set at an appropriate position, and this pre-setting is not changed during normal operation of the valve. The inlet 12 and the outlet 14 are connected in the single line and when the valve head 56 is spaced from its seating 28, hot water flows from the inlet 12 past the valve head 56 and through the passage 18 into the radiator. Hot water also flows directly from the inlet 12 to the outlet 14 through the bypass conduit 58. Return flow of hot water from the radiator is through the passage 20 and into the outlet 14.

When it __ . is required to completely isolate the radiator, for example for maintenance purposes, e.g. removal of the radiator, the plug 56 is moved to the left (Figure 1) so that the port 52 is closed by the -projecting end portion 36d; then with the valve head 56 against its seating 28, there is 100% bypass flow from the inlet 12 to the outlet 14 and the branch outlet 16 is isolated from the hot water supply.

As previously indicated, the inlet 12 and the outlet 14 are interchangeable in function, in which case flow to the radiator will be through the passage 20, return flow through the passage. 18, and bypass flow as before but in the reverse direction. In this case, however, it will be realised that the radiator will be controlled past the valve Head. 56. It will be noted that the arrangement of the valve is generally symmetrical which facilitates this reversibility of operation.

The valve is so arranged and dimensioned that the percentage of bypass flow with respect to total flow through the valve is in the range from 100% with no flow through the branch outlet down to 50% with the valve head 56 and plug 36 in their fully open positions.

Figure 4 shows connection of the valve embodying the invention to the radiator 106 (only part of which is shown) via the coupling 20b. The coupling 20b comprises an upwardly extending portion 110 co-axial with the branch outlet 16 and iii which is located the partition’20d, the partition 20d providing a substantially unbroken extension of the partition 17 (see Figure 1). The coupling 20b also comprises a portion 112 at right angles to the portion 110 and the portion 112 is externally threaded for screwing into a corresponding internally threaded, portion 114 of the radiator 106. The portion 112 also comprises an axial inner pipe member 118 which extends through the partition 20d; the pipe member 118 extends along a lower portion of the radiator in known manner to provide for adequate distribution of the inlet flow of hot water into the radiator 106; return flow from the radiator 106 takes place in the annular space / between the pipe 118 and the portion 112 of the coupling 20b.

The.angular position of the coupling 20b about the axis of the portion 112 is variable by .-1041798 screwing it into or out of the threaded portion 114 within the limits’ of adequate water-tightness to provide for different positions of the valve relative to the radiator 10o, according to shirting requirements and the like.

Claims (14)

CLAIMS:

1. A fluid flow control valve comprising a valve housing having an inlet, a main outlet and a branch outlet arranged for flow of fluid from the inlet to the branch outlet and 5 return flow through the branch outlet to the main outlet, a bypass conduit for bypass flow direct from the inlet to the main outlet, a fixed partition dividing the branch outlet into side by side flow and return passages, a main control valve member mounted in the housing for linear movement to 10 vary the flow through the branch outlet in the normal operation of the valve, and a second valve member operable independently of the main control valve member and variably settable to limit the flow through the branch outlet, the cross-sectional flow area of the bypass conduit being independent of the 15 positions of the main and second valve members in the normal • operation of the valve.

2. A fluid flow control valve as claimed in Claim 1 in whioh said main control valve member is manually movable.

3. A fluid flow control valve as claimed in Claim 1, 20 including a temperature responsive member controlling the position of the main control valve member.

4. A fluid flow control valve as claimed in any preceding Claim, in which the axes of the inlet, the branch outlet and the main outlet are co-planar. 25 5. A fluid flow control valve as claimed in any preceding

Claim, wherein the flow passage has a sidewall which presents a port and a valve seating around the port with which the main control valve member is co-operable; the return passage has a sidewall which presents a port and a valve seating around the port with ° whieh the second valve member is co-operable; the ports being closable by the respective valve members to isolate the branch outlet.

6. A fluid flow control valve as claimed in any preceding Claim, wherein the arrangement of the valve is generally symmetrical for reversibility of the functions of the inlet and the main outlet and the functions of the flow and return passages.

7. A fluid flow control valve as claimed in any preceding Claim, wherein an access opening is provided for and the valve comprises plug means for closing the access opening and for leaving the bypass conduit open for flow therethrough.

8. A fluid flow control valve as claimed in any of Claims 1 to 6, wherein an access opening is provided for in the bypass conduit, and the valve comprises removable plug means completely blocking the bypass conduit, the plug means being replaceable by plug means for closing the access opening while leaving the bypass conduit open for flow therethrough.

9. A fluid flow control valve as claimed in any preceding Claim in combination with a coupling adapted to couple the valve to a central heating radiator, the coupling comprising a first portion connectible to the branch outlet co-axially therewith and a second portion leading from the first portion at right angles thereto and connectible to the radiator, the arrangement being such that the angular position of the coupling about the axis of the second portion When connected to the radiator is variable.

10. A fluid flow control valve as claimed in any of Claims 1 to 8 in combination with a central heating radiator.

11. A central heating system comprising a fluid fiow control valve as claimed in any of Claims 1 to 9, wherein the branch outlet of the valve is in communication with a radiator, and the inlet of the valve is in communication with a flow line along which central heating fluid flows in the operation of the system. - 13 41798

12. A single line central heating system comprising a main flow line along which central heating fluid flows in the operation of the system; and a fluid flow control valve as claimed in any of Claims 1 to 7 with its inlet and main outlet 5. Connected in the main flow line and its branch outlet in communication with a radiator.

13. A fluid flow control valve substantially as hereinbefore described with reference to, and as shown in Figures 1 and 2 or Figures 1 and 3 of the accompanying drawings. 0

14. A fluid flow control valve in combination with a coupling member substantially as hereinbefore described with reference to, and as shown in Figure 4 of the accompanying drawings.