DE3121055C2 - - Google Patents

Description

The present invention relates to a three- or four-way mix Valve according to the preamble of claim 1.

A generic mixing valve is DE-AS 26 21 904 or DE-OS 27 23 258 removable. There leads from Heater return connector on the control plug having circular cylindrical housing interior laterally immediate bypass channel in which a throttle valve rotates is arranged in the heating flow connector. By through this bypass channel from the heating back Run connection piece in the heating flow connection piece overflowing heating return medium should the heating flow Temperature characteristic of the mixing valve to improve the Control accuracy can be spread. The well-known mixing valves require a structural modification to the mixing valve housing to form the bypass channel. Such special designs are complex and expensive.

DE-OS 27 23 258 also shows in Fig. 2 a solution in which the mixing valve housing has not been changed. Indeed there is also a change in the mixing valve housing inside space required, with a slide sleeve used arrives to modify the interior and the desired  Form bypass. For a variable bypass would be next the slide sleeve is a separate throttle device required. This solution is also a special one construction, which with great manufacturing effort connected is.

It is therefore an object of the invention, a three or Four-way mixing valve of the type mentioned at the beginning create, in which with low manufacturing a controllable bypass for the heating return heating return flowing into the boiler flow medium is created.

This object is achieved on the basis of a Three or four-way mixing valve in the preamble of Claim 1 mentioned type in the mark solved the part of claim 1 listed features.

By bypassing in the solution according to the invention the circular cylindrical also having the control plug Interior of the mixing valve with the help of Control plug runs coaxially arranged bypass plug, results in an inexpensive to manufacture and compact design of the mixing valve, in which means the rotatable bypass plug the desired one maximum heating flow temperature can be set can. In many cases this setting can be changed from here stellerwerk be made, in which case it then it is not necessary that the possibility of there is subsequent adjustment of the bypass plug, so that in this case it will not serve to disguise it de, actuating shaft led outwards is required. in the  in general, however, it is more advantageous to provide that the bypass chick has its own control shaft, which is led out of the housing, by hand or can be adjusted at any time by motor for example, only at the installation location of the mixing valve Setting to the desired maximum heating pre running temperature or at any time Adjust the maximum heating flow temperature can.

The Stell shaft of the bypass plug from the side of the mixing valve lead out from the side of the mixer Valves facing away, through which the control shaft of the chick is brought out to the outside. If ever but it is desirable that both control shafts from the same are accessible from the side of the mixing valve housing, this can be realized structurally simply by by the control shaft of the control plug a hollow shaft through which the actuating shaft of the bypass plug passes is carried out.

Particularly inexpensive to manufacture and also it is aerodynamically favorable to cut the recess of the bypass Chick to form by a concave arch. It can, however, be provided in some cases, through the recess of the bypass plug to form an urgent breakthrough. The bypass Chick no additional inlet and outlet openings in the Peripheral wall of the housing interior, so that you can continue with a total of four (four-way mixing valve) or three  (Three-way mixing valve) openings in the peripheral wall of the housing interior for those flowing through it Media gets along.

The bypass plug can preferably have an end face lie against an end face of the control plug, which build is particularly easy. However, there are others Embodiments conceivable, for example, that between the control plug and the bypass plug either of these Chick spacer is inserted, which is preferably form-fitting in the the interior of the Mischven containing the two chicks tilgehäuses is used. This spacer can around the aligned axes of rotation of the two Chick also rotatably arranged or against Turning be secured, for example an intermediate wall of the housing interior, which entails taking the By pass chick through the control chick even then changes when the bypass plug is rotated smoothly device. However, taking the bypass Chicks through the control chick in other ways Prevent easily, preferably by sufficient great stiffness of the bypass plug or by releasable clamping means, so that it as preferred, also directly on the control plug can apply and still not from the control plug can be rotated.

In general, the bypass chick is done after Installation of the mixing valve in the heating system by hand in which the desired maximum heating flow temperature turned position and then remains at Operation of the heating system constantly in this position.  

However, it is also possible and in some cases before partial to provide that the bypass chick by means of a Servomotor preferably depending on the outside temperature is adjusted, preferably such that by turning the bypass plug by means of the bypass actuator the lower the outside, the more throttling is achieved temperature is. And that is the case with heating systems The lower the heating flow temperature, the higher the Outside temperature is and it can be so maximum possible heating flow temperature depending outside temperature steadily or gradually adjust automatically, which increases the control accuracy the heating flow temperature becomes particularly high.

With four-way mixing valves, it is known to be reinforced Raising the boiler return temperature in the mixing valve a constantly open bypass with a constant cross-section for overflowing from the boiler flow to the boiler return provision of the boiler feed medium, which is not can be shut off by the control plug. The he invention also enables such an additional by pass from the boiler flow to the boiler return flowing boiler flow medium without structural extra effort by providing that the bypass chick too one for admixing the boiler flow medium to the flowing into the boiler return connector Heating return medium serving second recess points.  

As in heating systems for which the invention Mixing valve is intended, usually in the heater circuit a circulation pump is arranged, that is also the promotion of heating return medium the one leading to the heating flow through the bypass Chick created bypass serves, whereas normally no circulation pump in the boiler circuit is arranged, the recess of the bypass plug outlet side to achieve an injector effect to the one controlled by the control plug, in the Heating flow connection incoming boiler flow meter be formed nozzle-shaped, so that the bypass Flow at such high speed in the heating flow connection of the mixing valve flows in, that this has a significant injector effect the one in this heating flow connection flowing boiler flow medium arises.

When circulated in such heating systems as Medium used for heat transfer medium is in all mean for water, but the invention is on it not limited but can also be used in conjunction with other heat transfer media can advantageously be provided, for example, these media can be other liquids as water or steam or other gas shaped media.

In the drawing is an embodiment of the Erfin shown. It shows

Fig. 1 shows a longitudinal section through a four-way mixing valve according to an embodiment of the invention, wherein lines connected to it fragmentary are presented with,

Fig. 2 and 3 each show a section through the mixing valve of FIG. 1 taken along section lines 2-2 and 3-3, respectively,

FIGS. 4 and 5 each show a section through a three-way mixing valve similarity Lich the cuts according to Fig. 2 and 3.

The illustrated in FIGS. 1-3 four-way mixing valve 10 includes a housing 11 connected to the peripheral wall 12 has four radially outwardly bracing connection ports 13, 14, 15, 16 integrally line to the means of union nuts 17, a Boiler flow 18, a Heating flow line 19 , a heating return line 20 and a boiler return line 21 are closed. In FIGS. 2 and 3, the heating system, in which this mixing valve is inserted, indicated schematically. It has a boiler circuit 22 with a boiler 23 and a heating circuit 24 with a circulating pump 25 and a heat exchanger 26 . Of course, numerous other heat exchangers can be arranged in parallel and / or in series with one another in the heating circuit 24 . These heat exchangers are preferably used to heat floors.

The housing 11 also has a bottom 29 and a removable lid 30 . In the circular cylindrical interior 27 of the housing 11 , in the circumferential wall 35 inlet and outlet openings 13 ', 14', 15 ', 16' of the connecting piece 13 to 16 radially mün, are a control plug 31 and a bypass plug 32 coaxially one above the other arranged, which are rotatably mounted about mutually aligned axes of rotation, which fall in the longitudinal center axis of the interior 27 . The existing in the peripheral wall 35 of the interior 27 a total of four mouths 13 '', 14 '', 15 '', 16 '' of the inlet and outlet openings 13 ' to 16' are both the scope of the control plug 31 and the scope of the bypass -Chick 32 opposite, so that for the bypass chick 32 in the circumferential wall 27 no additional openings are required for the heating return medium to be transferred from it from the heating return to the heating pre-run, so that the connecting pieces 14, 15 only have a single flow opening 14 ', 15 ' need bypass created by the bypass chick 32 .

At the top of the control plug 31 is a first actuating shaft 33 and on the underside of the bypass plug 32 , a second actuating shaft 34 is integrally formed with each, of which the first actuating shaft 33 is sealed out through a hole in the cover 30 and led out second actuating shaft 34 is also sealed by the housing bottom 29 and led out downwards. The two chicks 31, 32 are arranged coaxially with one another, so that the axes of rotation and thus also the longitudinal central axes of their adjusting shafts 33 and 34 are aligned with one another.

At the first actuating shaft 33 , the output shaft is normally coupled to an actuating motor in a manner not shown, which serves the automatic rotary adjustment of the control plug 31 for controlling the temperature of the heating inflow water mixed from the boiler feed water and heating return water, which via the heating feed line 19 to the heat exchanger 26 and then flows back as heating return water in the heating return connecting piece 15 of the mixing valve 10 . Furthermore, water can flow from the boiler inlet connection piece 13 and the heating return connection piece 15 into the boiler return connection piece 16 , which flows back as boiler return water to the boiler 23 and is heated there again to the boiler flow temperature and then again via the boiler flow line 18 into the boiler flow connector 13 of the mixing valve 10 flows.

A manually operable adjusting knob 36 is attached to the area of the second adjusting shaft 34 which projects beyond the housing 11 . On the outside on the bottom 29 of the housing 11 there is a scale, not shown, on which the respective angle setting of the bypass plug 32 is displayed by means of a pointer 37 arranged on the rotary knob 36 .

The control plug 31 can be adjusted continuously during operation of the heating system by means of a control motor by means of a control or regulation so that, for example, the heating flow temperature is controlled or regulated depending on the outside temperature according to a predetermined heating curve or it can also be a room temperature controller to control the Servo motor serve. There are also other options. In simpler cases, manual adjustment of the control plug 31 can also be provided by means of a manually operable lever or rotary knob which is fastened on the first actuating shaft 33 .

The control plug 31 has two mutually parallel end plates 40, 41 which extend perpendicular to the axis of rotation of the control plug and which are connected to one another by a central diagonal partition wall 42 . For the linearization of the respective heating flow temperature characteristic curve of the mixing valve, which corresponds to the functional relationship between the angular position of the control plug 31 and the heating flow temperature, this middle partition wall 42 is on the side which is exclusively exposed to the boiler flow water in a manner known per se to the outflow cross sections for the boiler flow medium constrict the control curves deformed. The other longitudinal side of this central partition wall 42 , which is acted upon only with heating return water, on the other hand, does not have any such control cams. In order to be able to provide this mixing valve 10 optionally for right-hand connection or left-hand connection of the boiler supply line, the control plug 31 also has a plane of symmetry into which its axis of rotation falls and which intersects the longitudinal center plane of the partition wall 42 going perpendicularly through this axis of rotation. This allows you to provide the basic setting of the control plug 31 so that any of the four connection spigots 13-16 can serve as a boiler feed connection. The basic position of the bypass plug 32 is then changed accordingly. The bypass plug 32 is used to limit the maximum heating flow temperature to adjustable values below the boiler flow temperature by this rotatable bypass plug 32 has a concave recess 43 , through which the heating return water from the heating return connection stub 15 is continuously in operation Heating flow connection stub 14 can flow over, so that the boiler flow water flowing from the boiler flow connection stub 13 into the heating flow connection stub 14 and controlled by the control plug is constantly mixed with the heating return water flowing out of the bypass, regardless of whether the control plug 31 heating return water flows into the heating flow At the inlet connection 14 or not. Also in the borderline case, if the control plug 31 in the dashed line in Fig. 2 indicated position 31 'is set, in which it does not let any heating return water in the Heizvor before run, so the bypass plug continues to prod heating return water in the heating flow connection 14 overflow, so that it is impossible with the By pass open that the heating flow temperature can reach the boiler flow temperature. By rotating the control plug 31 between its angular position blocking the inflow of boiler flow water into the heating flow up to its maximum open position, the heating flow temperature can be continuously adjusted up to the maximum value set by the bypass plug 32 , the boiler flow temperature being constant, for example 90 ° C is. For underfloor heating, the heating flow temperature is preferably limited to values of approx. 50 to 55 ° C by means of the bypass plug 32 .

The bypass plug 32 consists of a thick, in a circular cylindrical recess of the bottom 29 of the Ge housing 11 rotatably inserted disc, on the flat upper end face of the lower flat end face of the control plug 31 rests. So that the control plug 31 does not rotate the bypass plug 32 due to the friction, the bypass plug 32 can be rotatably mounted with sufficient difficulty. However, separate means are preferably provided to secure the bypass plug 32 against rotation in the respectively set rotation, which in this exemplary embodiment can be done by means of a clamping nut 44 arranged on a thread of the adjusting shaft 34 , by means of which the bypass plug can be used 32 can clamp on the housing base 29 in any angular position.

For the overflow of heating return water in the heating flow connection piece, the bypass plug 32 has the recess 43 , which has a flat bottom and an arcuate rear wall and is covered on the top by the lower end face of the control plug 31 .

This recess 43 can be made, for example, by means of a milling cutter, which was moved parallel to the axis of rotation of the bypass plug 32 during milling, but in practice, however, the bypass plug 32 is generally advantageously produced by casting and then only to a lesser extent Post-processing is required. This recess 43 extends over a center angle of approximately 90 °, so that the bypass plug 32 from the position shown in FIG. 3 maximum flow cross-section by turning in angular positions reduced flow cross-section to two limit positions in which its recess 43 only the nozzle 14 or only the nozzle 15 faces, can be pivoted, in which there is no heating return water in the heating flow connection to connection pipe 14 , so that in each of these limit positions the maximum heating flow temperature controllable by the control plug 31 corresponds to the boiler flow temperature.

The in the same, perpendicular to the axes of rotation of the chicks 31, 32 extending longitudinal central axes of the four connecting pieces 13-16 are offset by 90 ° to each other, so that the central angle of the bypass chick 32 related to its recess 43 of approx 90 ° approximately corresponds to the central angle enclosed by the longitudinal central axes of the heating return connecting piece 15 and the heating flow connecting piece 14 . This ensures, among other things, that if the bypass plug is set in any of the limit positions mentioned, in which it itself does not let any heating return water to the heating flow connection pipe 14 , then it is in a full permanent shut-off position, in which it has none at all Connect connection between adjacent connection creates, so that only the control plug 31 can pass water. If the angle of rotation of the by-pass plug 32 is not limited, it can also be set in angular positions in which its recess 43 produces water-conducting connections from the socket 13 to the socket 14 or 16 or from the socket 15 to the socket 16 , so that it may also be can also serve other purposes than the limitation of the heating flow temperature, for example the increased admixture of boiler flow water to the boiler return water. If this is not desired, the angle of rotation of the bypass plug 32 can be limited by means of stops, for example.

If it is desired that from the recess 43 of the bypass plug 32 in the heater feed connection 14, the inflow of heating return water exerts a stronger injector effect on the boiler feed water controlled by the control plug 31 and flows into the heater feed connector to accelerate it, can be provided be that this Ausneh mung 43 is nozzle-like narrowed at the heating flow connection stub 14 adjacent end portion to increase the speed of the outflowing heating return water.

The control plug 31 is also used for admixing Kes selvorlaufwasser to the heating return water flowing into the boiler return connection for the purpose of raising the boiler return temperature. In order to increase this temperature increase, it can further be provided that the bypass plug 32 has a second recess diametrically opposite the recess 43 , which is indicated by dash-dotted lines in FIG. 3 at 50 and through which the boiler feed water continuously flows into the boiler return connecting piece 16 can overflow.

In an embodiment, not shown, can also be provided that the housing none on it molded connection piece, but on only housing openings are provided in their place are in the separate connection piece or directly the relevant line pipes used or indicated can be set.  

In Figs. 4 and 5 are two sections through a three-way mixing valve 10 'similar to the sections according to FIGS. 2 and 3, so that the contrast to FIG. 2 and 3 is essentially that the housing 11' of the in FIGS. 4 and 5 illustrated three-way mixing valve 10 'only three connection ports 13, 14 and 15 needed for the boiler supply line 18, the heating medium flow conduit 19 and the heating return line 20.

In this case, 4 Fig. 5 shows a section at the level of the corresponding to the control plug 31 shown in section and Fig. Is a section cut at the level of the corresponding bypass is provided chick 32nd The passage openings 13 ', 14', 15 'of the connecting piece 13, 14 and 15 are designed as shown so that the centers of their mouths adjacent to the interior 27 of the housing 11' are offset by approximately 120 ° from each other. In a manner not shown in greater detail, as in the four-way mixing valve 10 according to FIGS. 1 to 3, also in the three-way mixing valve 10 ' according to FIGS. 4 and 5, the control plug 31 and the bypass plug 32 are coaxially aligned with the axes of rotation Housing interior 27 arranged one above the other. The Steuerenkü ken 31 has on its circumference a recess extending over more than 180 ° 31 '' , which is used for directing the heating water and heating return water into the heating flow and by rotating the control plug 31 , the temperature of the heating water can be influenced by influencing the mixing ratio adjust. The independently adjustable by the control piston 31 bypass plug 32 has a concave recess 43 through which a bypass valve 31 uninfluenced bypass from the heating return connection 15 is created in the heating flow connection connector 14 . This bypass plug 32 has the same task as in the four-way mixing valve 10 according to FIGS. 1 to 3. The peripheral wall 35 of the housing interior 27 has in this three-way mixing valve 10 ' but only three through the mouths 13'',14'' and 15 '' of the flow openings 13 ', 14' and 15 'of the connecting piece 13, 14 and 15 formed openings for the media flowing through the housing interior. In Fig. 4, the control plug 31 is shown in the middle position of its adjustment range.

Claims (11)

1.Three- or four-way mixing valve for heating systems, in particular for underfloor heating systems, for mixing boiler flow medium, preferably consisting of water, with heating return medium to heating flow medium and, in the case of the four-way mixing valve, also for boiler return medium, with a housing having three or four connections, in a housing interior in the housing Circumferential wall inlet and outlet openings of the connections open radially, a disc-shaped control plug serving for variable mixture control is rotatably arranged on an axis perpendicular to the connections, which is rotatable by means of a first adjusting shaft, and the heating return connection is also connected to the heating flow connection via a throttled bypass is characterized in that in the housing interior ( 27 ) on the axis of the disk-shaped control plug ( 31 ) and next to it a disk-shaped bypass plug ( 32 ) is arranged, which via a second actuating shaft ( 34 ) can be rotated independently of the control plug ( 31 ) and has a recess ( 43 ) in order to form a controllable bypass from the heating return connection ( 15 ) to the heating flow connection ( 14 ). 2. Mixing valve according to claim 1, characterized in that the second actuating shaft ( 34 ) is led out of that side of the housing ( 29 ) which faces away from the housing side ( 30 ) assigned to the first actuating shaft ( 33 ). 3. Mixing valve according to claim 1, characterized in that the first actuating shaft ( 33 ) is a hollow shaft through which the second actuating shaft ( 34 ) is passed coaxially. 4. Mixing valve according to one of the preceding claims, characterized in that the recess ( 43 ) of the bypass plug ( 32 ) is formed by a concave arch. 5. Mixing valve according to one of claims 1 to 4, characterized in that the bypass plug ( 32 ) rests with an end face on an end face of the control plug ( 31 ). 6. Mixing valve according to one of the preceding claims, characterized in that the bypass plug ( 32 ) is preferably adjustable by means of a servomotor as a function of the outside temperature. 7. Mixing valve according to one of the preceding claims, characterized in that the central angle of its recess ( 43 ) for the bypass flow is so small that the bypass plug is in at least one angular position, based on the axis of rotation of the bypass plug ( 32 ) is adjustable in which its recess faces only the heating return or only the heating flow connection. 8. Mixing valve according to one of the preceding claims, characterized in that the respectively set position of the bypass plug ( 32 ) can be clamped by means of clamping means ( 44 ). 9. Mixing valve according to claim 8, characterized in that the clamping means have a clamping nut ( 44 ) guided on a thread of the second adjusting shaft ( 34 ). 10. Mixing valve according to one of the preceding claims, characterized in that the recess of the bypass plug is nozzle-shaped on the outlet side to achieve an injector effect on the boiler flow fluid flowing into the heating flow connection ( 14 ). 11. Four-way mixing valve according to one of the preceding claims, characterized in that the bypass plug has a second recess ( 50 ) serving for admixing boiler feed medium to the heating return medium flowing into the boiler return connection ( 16 ).