AT502342B1 - VALVE - Google Patents

Description

2 AT 502 342 B1

The invention relates to a valve which is controlled by a Temperaturweggeber and intended for installation in the circulation of hot water pipes, wherein the valve has a valve closure piece having a cavity which communicates also in projectile position with a connecting piece, and that of a Surrounding sleeve is peripherally surrounded.

Such a valve is known from EP 718563 A1. This valve has a valve plug for presetting the flow, namely the maximum flow is set. These valves are intended for widely branched piping systems (heating networks) where many radiators are connected in parallel. It must be prevented that a single radiator is flowed through too much, otherwise the flow pressure collapses {there is a short circuit between supply and return, so to speak) and all other radiators are not (or only insufficiently) flowed through.

According to EP 718563 A1, a further valve closure piece is actuated by a thermostat. The above-mentioned valve plug (for presetting the flow) surrounds this (thermostat actuated) valve plug in the form of a sleeve. This sleeve is tight on all sides; i.e. when it is closed, there is no flow. The same applies if the thermostat actuated valve plug is closed (ie at the bottom) - there is no flow.

Valves, which are controlled by a Temperaturweggeber, designed for installation in the circulation of hot water pipes and reduce the volume flow from an externally adjustable by an operating water temperature to a residual volume, are also known. This residual volume flow is maintained even when the water temperature continues to rise and is not undershot. For example, reference is made to the following publications: DE 201 09 619 U, DE 298 05 921 U, DE 198 34 151 A, DE 299 24 249 U, DE 102 26 289 A, DE 298 23 960 U and DE 100 56 715 A.

In some of the known valves, the volume flow is increased again as the temperature continues to increase, for example, to provide more hot water to the water cycle for disinfection available. On the one hand, these valves have the disadvantage that the residual volume flow adjusting for a selected temperature value can not be changed due to one or more structurally defined gaps between a valve cone and valve seat, and secondly the valves additionally have a bypass via which the residual volume flow can be adjusted because of the actually thermally driven valve, the volume flow is shut off. Known valves in which a residual volume flow is manually adjustable, for example, regulating valves, but have no temperature-dependent valve function.

The size of the residual volume flow is chosen so that the heat losses of a hot water circuit can be compensated. As a result, a sufficient temperature level is maintained in the entire hot water cycle, so that the risk of contamination with bacteria (eg Legionella) is minimized. Larger drinking water systems have a plurality of hot water circuits connected in series, wherein in each circuit one of the above-mentioned valves is installed. Both different lengths of hot water supply lines from the heat generator to the individual hot water circuits and the size of the hot water circuits themselves require different residual volume flows in the hot water circuits, which are not adjustable in the known valve. The Polge is that some circuits may have too high a residual volume flow and therefore other circuits no longer receive the necessary amount of hot water to maintain the required temperature levels.

Based on this prior art, the invention is based on creating a valve generic type, with the different residual volume flows are adjustable in a simple manner. 3 AT 502 342 B1

This object is achieved by the invention, overcoming the above-described disadvantages, characterized in that the valve closure piece in the region of the adjusting sleeve has a window which is covered depending on the position of the adjusting more or less of this.

In this way, the residual volume flow through the adjusting sleeve, which surrounds the valve closure piece peripherally adjustable.

Preferred developments are specified in the subclaims.

Thus, the adjusting sleeve may have different sized flow openings distributed over the circumference, wherein in each case one flow opening covers the existing valve in the valve piece window and releases the corresponding volume flow. Also, the residual volume flow can be released from an adjusting sleeve having a ramp-shaped oblique opening cross-sectional profile over its circumference, which closes a portion of the window in the valve closure. The adjustment sleeve may be both rotatable about the valve plug to position the flow apertures distributed over the circumference of the adjustment sleeve in front of the window in the valve plug, and axially displaceable against spring force to lock the selected flow opening on the valve plug. For this purpose, toothing and / or latching elements are preferably arranged on the inside of the adjusting sleeve and on the outside of the valve closure piece corresponding thereto. The force acting on the adjusting spring force can hereby be generated by a spring which comes on the one hand in a groove on the adjusting sleeve and on the other hand in a groove on the end face of the valve upper part with their ends to the plant.

A second spring, which is also supported in the region of the end face of the upper valve part of an abutment, has opposite as Gegenlagereine the temperature Weggeber directed contact surface of the closure piece. It passes through the adjusting sleeve and pushes the valve plug against the existing in the valve housing valve seat.

If both the adjusting sleeve on the valve closure piece, as well as the closure piece on the valve seat, then flows through the regulating only the preset residual volume flow.

Another special feature of the invention is a driving device driven by Temperaturweggeber, which preferably has a plunger which passes through the adjusting sleeve and sealed the valve plug and valve top center and is formed at its remote from the temperature Weggeber end to a collar-shaped driving part. This plunger raises the valve plug and adjusting sleeve from the valve seat when the water temperature drops. Here, the temperature Weggeber facing inner surface of the collar-shaped driving part is located on a mating surface of the valve closure piece, which is supported by the above-described second spring between the valve plug and valve bonnet.

Another inventive feature is at least one to the plunger of the driving device eccentrically arranged plunger, which is housed in a guide bore of the valve plug and this passes through. This is on the one hand also on the inner surface of the collar-shaped driving part and on the other hand supported on the closure piece facing the inner surface of the adjusting sleeve.

Starting from the position of the valve with residual volume flow, the adjusting sleeve is first raised against the weaker spring relative to the valve plug in the direction to the Temperaturweggeber directed lifting movement of the driving ram by the plunger before the inner surface of the collar-shaped driving part comes to rest on the valve plug and this raises together with adjustment , This opens the 4 AT 502 342 B1

Valve closure member and the valve seat formed throttle point, so that no longer determined by the flow opening of the adjusting residual volume flow, but a much larger main volume flow is released. The amount by which the adjusting sleeve is raised relative to the valve plug by the plunger is determined by the protruding part of the plunger from the valve plug.

The advantage of this increase in this adjustment of the valve plug is that in this way the window in the valve plug completely released and can be flushed if dirty. So that the adjusting sleeve permanently comes to rest even when the pressure ram is raised, the compression spring is likewise positioned between the adjusting sleeve and the valve upper part.

By turning the guided in the valve bonnet and abutting the Temperatunweggeber control element, the stroke position, in which the valve plug piece lifts off the valve seat, can be adjusted.

Due to the known arrangement of measuring valve connection piece on the valve housing in front of and behind the valve seat, the checking of the residual volume flow with suitable measuring devices is possible.

An embodiment of the invention is illustrated in the drawing and described in more detail below. It shows:

Figure 1 seen an inventive valve in the central longitudinal section;

Figures 2 to 11 Details and features in detail, partially enlarged.

In the drawing, a valve 1 is shown. This consists of a valve housing 18 with coaxially arranged connection piece, so that the valve can be switched on in the cycle of a hot water pipe. In the flow passage, a valve seat 19 is formed in the valve housing 18.

Part of the valve is also a valve closure piece 3, a cross-pot-like adjusting sleeve 4 and 7, a valve top 28, a control element 2 and a Temperaturweggeber 16 which is disposed between the control element 2 and the valve plug.

The drawing shows a controlled by a Temperatunweggeber 16 valve 1 for installation in the circulation of hot water pipes. The volume flow can be reduced to a residual volume from an externally adjustable via the control element 2 water temperature. For this purpose, arranged on the valve plug 3 adjustment sleeve 4 is provided, which has different sized flow openings 5 and which is adjustable by rotation, so that in each case a flow opening covers the present in the valve plug 3 window 6. Thus, the desired residual volume flow is released. Alternatively, the residual volume flow can be released through the adjusting sleeve 7, which has a ramp-shaped oblique end edge and thus provides a corresponding opening cross-section 29 over the circumference, which closes a portion of the window 6 in the valve plug 3, depending on the rotational position of the adjusting 7. Um To lock the selected flow opening on the valve closure piece 3, 3 toothing and / or locking elements 8, 9 may be provided on the inside of the adjusting sleeve 4 and 7 and on the corresponding outer side of the closure piece 3. On the adjusting sleeve 4, 7 acts a spring force which is generated by a spring 10 which is supported on the one hand in a groove 11 on the adjusting sleeve 4, 7 and on the other hand in a groove 12 on the end face of the valve top 28. In addition, a further spring 14 is provided, which is also supported in the region of the end face 13 of the upper valve part 28 on an abutment 15 and opposite as an abutment on a side facing the Temperaturweggeber 16 contact surface 17th

Claims (17)

It passes through the adjusting sleeve 4, 7 and pushes the valve plug 3 against the present in the valve housing 18 valve seat 19. If both the adjusting sleeve 4, 7 rests on the valve plug 3 and the closure piece 3 on the Valve seat 19, flows through the regulating valve only the preset residual volume flow. It is further provided a driven by Temperaturweggeber 16 driving device, which has a plunger 20, which engages the adjusting sleeve 4, 7 and sealed the valve plug 3 and the upper valve member 28 centrally and formed at its remote from the temperature Weggeber 16 end to a collar-shaped driving part 21 is. This plunger raises the valve closure piece 3 together with adjusting sleeve 4, 7 with decreasing water temperature from the valve seat 19. Here, the temperature Weggeber facing inner surface 22 of the collar-shaped driving part is located on a mating surface 23 of the valve closure piece, which is supported by the above-described second spring 14 between the valve plug 3 and valve top 28. Parallel to the plunger 20 of the driving device is arranged off-center at least one pressure plunger 24, which passes through a guide bore 25 of the valve closure piece 3 and on the one hand also on the inner surface 22 of the collar-shaped driving part 20 abuts and on the other hand on the closure piece 3 facing inner surface 26 of the adjusting sleeve 4, the 7th supported. Based on the position of the valve with residual volume flow (see Figure 9), the adjusting sleeve 4, 7 is raised against the weaker spring 10 against the valve plug 3 during a temperature drop in the direction of the Temperaturweggeber 16 directed lifting movement of the driving rod 20 by the plunger 24 first the inner surface 22 of the collar-shaped driving part on the valve closure piece 3 comes into abutment (Figure 10) and this together with adjusting sleeve 4, 7 further raises. As a result, the throttle point formed by the valve plug 3 and the valve seat 19 opens, so that no longer the determined by the flow opening 5 of the adjusting sleeve 4, 7 residual volume flow, but a much larger main volume flow is released (see Figure 11). The amount "A" by which the adjusting sleeve 4, 7 is raised relative to the valve closure piece 3 by the pressure ram 24 is determined by the length of the protruding part 27 of the pressure ram 24 from the valve closure piece 3. The advantage of this increase in the adjusting sleeve 4, 7 of the valve closure piece 3 is that in this way the window 6 can be completely released in the valve plug 3 and, if necessary, flushed through with contamination. In order for the adjusting sleeve 4, 7 to come into permanent contact with it even when the pressure ram 24 is raised, the pressure spring 10 is clamped between the adjusting sleeve 4, 7 and the valve top 28. By turning the guided in the valve top 28 and applied to the Temperaturweggeber 16 control element 2, the stroke position, in which the valve plug 3 lifts off the valve seat 19, can be adjusted. The housing may additionally have metering valve connecting pieces 30, 31, in order to enable the checking of the residual volume flow with suitable measuring devices. The invention is not limited to the embodiment, but in the context of the disclosure often variable. All new egg-popping and combination features disclosed in the description and / or drawing are considered to be essential to the invention. Claims 1. A valve (1) controlled by a temperature transmitter (16) and designed for installation in the circulation of hot water pipelines, where <Jas Valve (1) has a valve spool (3) , which has a cavity, which is also in projectile position with a connecting piece, and which is peripherally surrounded by an adjusting sleeve (4, 7), characterized in that the valve closure piece (3) in the region of the adjusting sleeve (4, 7) a Window (6), which is covered depending on the position of the adjusting sleeve (4, 7) more or less of this. 2. Valve according to claim 1, characterized in that the adjusting sleeve (4) has different sized flow openings (5) distributed over the circumference, wherein in each case a flow opening (5) in the valve closure piece (3) provided window (6) covers and the corresponding Volumetric flow releases. 3. Valve according to claim 1, characterized in that the adjusting sleeve (7) has a ramp-shaped in the circumferential direction inclined opening cross-sectional profile (29) which closes a portion of the window (6) in the valve plug (3) and releases the corresponding volume flow. 4. Valve according to one of claims 1 to 3, characterized in that the adjusting sleeve (4, 7) about the central axis of the valve closure piece (3) is rotatable to the flow openings (5) in front of the window (6) in the jacket of the valve closure piece ( 3), and that the adjusting sleeve (4, 7) is axially displaceable against spring force to lock the selected flow opening (5) in position on the valve plug (3). 5. Valve according to claim 4, characterized in that on the inside of the adjusting sleeve (4, 7) and on the corresponding outer side of the valve closure piece (3) toothing elements and / or latching elements (8, 9) are arranged to the selected flow opening ( 5) relative to the valve plug (3) to lock. 6. Valve according to claim 4 or 5, characterized in that on the adjusting sleeve (4, 7) acting spring force is generated by a spring (10) between the adjusting sleeve (4, 7) and an end face (13) of a valve shell (28) of the valve (1) is clamped. 7. Valve according to claim 6, characterized in that the spring (10) with its ends on the one hand in a groove (11) of the adjusting sleeve (4, 7) and on the other hand in a groove (12) on the end face (13) of the valve bonnet ( 28) is present. 8. Valve according to one of claims 1 to 7, characterized in that a second spring (14) is provided, which at the end face (13) of a valve upper part (28) of the valve (1) and as an abutment on a temperature Weggeber ( 16) directed towards the bearing surface (17) of the closure piece (3), wherein the spring (14) presses the valve closure piece (3) against a valve housing (18) provided in the valve seat (19). 9. Valve according to claim 8, characterized in that the second spring (14) passes through the adjusting sleeve (4, 7). 10. Valve according to one of claims 1 to 9, characterized in that one of the Temperaturweggeber (16) actuated or driven entrainment device is provided by means of which the valve closure piece (3) together with the adjusting sleeve (4, 7) at falling temperature from the valve seat (19). can be lifted or lifted off. 11. Valve according to claim 10, characterized in that the entrainment device has a plunger (20), which engages through the adjusting sleeve (4, 7) and also the valve closure piece (3) and the valve upper part (28), preferably in the center, and at its the temperature Weggeber (16) facing away from end portion to a driving part (21), preferably 7 AT 502 342 B1 a covenant is formed. 12. Valve according to claim 11, characterized in that the temperature Weggeber (16) facing inner surface (22) of the driving part (21) on a counter surface (23) of the valve closure piece (3) is applied, wherein the system by the second spring (14 ), which is clamped between the valve plug (3) and valve bonnet (28). 13. Valve according to one of claims 1 to 12, characterized in that at least one pressure ram (24) is provided, which passes through the valve closure piece (3) and is supported with its ends on the one hand on parts of the driving device and on the other hand on the adjusting sleeve (4) , 14. Valve according to claim 13, characterized in that the pressure ram (24) is arranged eccentrically to the centrally arranged plunger (20). 15. Valve according to claim 13 or 14, characterized in that the pressure ram (24) passes through a guide bore (25) of the valve closure piece (3) and projects beyond it, wherein one end of the pressure ram (24) on the inner surface (22) of the driving part ( 20) and the other end is supported on the valve closure piece (3) facing inner surface (26) of the adjusting sleeve (4, 7). 16. Valve according to one of claims 1 to 15, characterized in that the operating element (2) in the upper valve part (28) is rotatably guided and on the Temperaturweggeber (16) is applied, so that by rotation of the operating element (2) the stroke position at the valve closure piece (3) from the valve seat (19) lifts, is adjustable. 17. Valve according to one of claims 1 to 16, characterized in that the valve housing (18) has Meßventilanschlussstutzen (30, 31) for checking the residual volume flow. For this purpose 9 sheets of drawings