DE3121055A1 - Three-way or four-way mixing valve - Google Patents

Description

31 * 1055

5208 " ⁴ "

CENTRA-BÜRKLE GmbH + Co
7036 Schönaich.

Three- or four-way mixing valve

The invention relates to a three-way or four-way mixing valve for heating systems according to the preamble of the claim

At. a known mixing valve of this type (DE-AS 26 21 904) leads from the heating return connection piece to the
Circular cylindrical housing interior having control plugs, laterally bypassing bypass channel, in which a throttle valve is rotatably arranged, into the heating flow connection piece. Through the heating return medium flowing over through this bypass channel from the heating return connection piece into the heating flow connection piece
the heating flow temperature curve of the mixing valve should be expanded to improve the control accuracy.

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It is also used in underfloor heating systems in which the boiler circuit has a three- or four-way mixing valve is connected to the heating circuit for controlling the heating flow temperature, known the maximum Heating flow temperature to low values permissible for underfloor heating, for example maximum 50 - 55 C, whereby the constant boiler flow temperature is much higher, for example 90 ° C by connecting the heating return line leading to the mixing valve via a separate bypass pipe connect with the heating flow line det, with a through valve in this bypass line for adjustable throttling of the flow through it Bypass flow is arranged. Due to the bypass flow, that of the heating flow connection piece is constantly The flow medium coming from the mixing valve also has a cooler heating return medium mixed in, so that the maximum downstream of the confluence of the bypass line in the heating flow line Resulting heating flow temperature in through the Adjustable through valve limited to values well below the boiler flow temperature will.

The aforementioned constructions to create a bypass line however, for the heating return medium overflowing from the heating return into the heating flow, structurally complex and expensive to manufacture.

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It is therefore the object of the invention to provide a three- or four-way mixing valve of the type mentioned at the beginning create, in which with little manufacturing effort a controllable bypass for the flow from the heating return into the boiler flow. Heating return medium is created.

According to the invention, this object is achieved on the basis of a three- or four-way mixing valve in the preamble of Claim "1 mentioned type solved by the features listed in the characterizing part of claim 1.

By bypassing in the solution according to the invention also, the control plug having circular cylindrical housing interior of the mixing valve with the help of the Control plug coaxially arranged bypass plug runs, results in a cost-effective to manufacture and compact design of the mixing valve, in which the. each desired maximum heating flow temperature can be set. In many cases, this setting can be made at the factory be made, in which case it is then not necessary that the possibility of there is a subsequent adjustment of the bypass plug, so that in this case there is no adjustment an outwardly guided adjusting shaft is required. in the

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In general, however, it is more advantageous / to provide that the bypass plug by means of its own adjusting shaft, which is led out of the housing, by hand or can be adjusted by a motor at any time, for example only at the installation site of the mixing valve Setting to the desired maximum heating flow temperature or at any time the to be able to adjust the maximum heating flow temperature.

Structurally special, it is easy here, the control shaft of the bypass plug out of the side of the mixing valve housing. that from the side of the mixing valve is turned away, by which the actuating shaft of the plug is led out to the outside. If, however, it is desirable that both control shafts are accessible from the same side of the mixer valve housing, this can be achieved structurally simply by making the actuating shaft of the control plug a hollow shaft through which the actuating shaft of the bypass plug is passed.

The recess of the bypass plug is particularly inexpensive to manufacture and also favorable to the flow by forming a concave indentation. In some cases, however, it can also be provided to form the recess of the bypass plug through a breakthrough penetrating it. Also needed the bypass chick no additional inlet and outlet openings in the circumferential wall of the housing interior, so that you can continue with a total of four (four-way mixing valve) or three

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(Three-way mixing valve) openings in the peripheral wall the interior of the housing is sufficient for the media flowing through it.

The bypass plug can preferably have an end face rest against an end face of the control plug, which is structurally particularly simple. However, there are others too Embodiments are conceivable, for example that one of these two between the control plug and the bypass plug Chicks are inserted at a distance from each other holding spacer, which is preferably positively in the the interior of the mixer valve housing containing the two chicks is inserted. This spacer can around the aligned axes of rotation of the two chicks also rotatably arranged or against Turning to be secured, for example, a partition wall of the housing interior, which entrainment of the bypass plug prevented by the control chick even if the bypass chick is rotatably supported is. However, the bypass plug can also be carried along by the control plug in other ways prevent easily, preferably by sufficient

or by detachable clarifying agents great stiffness of the bypass plug / so that it, as preferably provided, can also rest directly on the control plug and yet not rotated by the control plug can be.

In general, the bypass plug is installed by hand after the mixing valve has been installed in the heating system in which the desired maximum heating flow temperature The resulting position is rotated and then remains constantly in this position when the heating system is in operation.

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However, it is also possible and in some cases advantageous to provide that the bypass plug by means of a Servomotor is preferably adjusted as a function of the outside temperature, preferably in such a way that by turning of the bypass plug by means of the servomotor, the more the bypass is throttled, the lower the outside temperature is. namely in heating systems the heating flow temperature is higher, the lower the Outside temperature and the maximum possible heating flow temperature can thus be determined as a function of automatically adjust the outside temperature continuously or in steps, thereby increasing the control accuracy the heating flow temperature becomes particularly high.

In four-way mixing valves, it is known to increase the boiler return temperature in the mixing valve a constantly open bypass of constant cross-section for overflow from the boiler flow into the boiler return Provide boiler flow medium that cannot be shut off by the control plug. The invention also enables such an additional bypass for what flows over from the boiler flow into the boiler return Boiler flow medium without additional structural effort by providing that the bypass plug also one for adding boiler flow medium to the one flowing into the boiler return connection piece Has heating return medium serving second recess.

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Since in heating systems for which the mixing valve according to the invention is intended, a circulating pump is normally arranged in the heating circuit, that is to say also the conveyance of the heating return medium through the bypass plug leading to the heating flow created bypass is used, whereas there is normally no circulation pump in the boiler circuit is arranged, the recess of the bypass plug can on the outlet side to achieve an injector effect on the boiler flow medium, which is controlled by the control plug and flowing into the heating flow connection, can be designed in the form of a nozzle, so that the bypass flow into the heating flow connection at such a high speed of the mixing valve flows in, that thereby a considerable injector effect on the. In this heating flow connection flowing in Boiler flow medium is created.

The medium circulated in such heating systems and serving as a heat transfer medium is generally to water, but the invention is not limited to this, but can also be used in connection with other heat transfer media can advantageously be provided, for example these media can be other liquids as water or steam or other gaseous media.

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5208-11-3121055

An exemplary embodiment of the invention is shown in the drawing. Show it:

Fig. 1 is a longitudinal section through a four-way mixing valve according to an embodiment of the invention, wherein Lines connected to it are shown in extracts,

Fig. 2 is a section through the mixing valve according to Fig. 1, seen along the section lines 2-2 and 3-3,

FIG. 4 each show a section through a three-way mixing valve similarity ^u lent the cuts according to Fig. 2 and 3.

The four-way mixing valve 10 shown in FIGS. 1-3 has a housing 11, on the circumferential wall 12 of which there are four radially Connect externally striving connection pieces 13, 14, 15, 16 in one piece, to which a boiler flow line by means of union nuts 17 18, a heating flow line 19, a heating return line 20 and a boiler return line 21 are connected. In Fig. 2 and 3, the heating system is in which this mixing valve is inserted, indicated schematically. It has a boiler circuit 22 with a heating boiler 23 and a heating circuit 24 with a circulation pump 25 and a heat exchanger 26. Of course, in the Heating circuit 24 still numerous other heat exchangers arranged in parallel and / or in series with one another be. These heat exchangers are preferably used to heat floors.

The housing 11 also has a bottom 29 and a removable one Cover 30 open. In the circular cylindrical interior 27 of the housing 11, in the Ümfangswandung 35 inflow and outflow

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Openings 13 ', 14', / the connecting pieces 13 to 16 open radially, a control plug 31 and a bypass plug 32 are arranged coaxially one above the other, which are rotatably mounted about aligned axes of rotation that fall into the longitudinal center axis of the interior 27. ^{The total of four openings 13 11} , 14 ″, 15 ″, 16 ″ of the inflow and outflow openings 13 ′ to 16 ′ present in the circumferential wall 35 of the interior 27 are opposite to both the circumference of the control plug 31 and the circumference of the bypass plug 32 , so that for the bypass plug 32 in the Ümfangswandung 27 no additional openings are required for the heating return medium to be transferred from it from the heating return to the heating flow, so that the connecting pieces 14, 15 each only have a single flow opening 14 ', 15' despite the through need the bypass plug 32 created bypass.

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

The output shaft of an actuating shaft is normally attached to the first actuating shaft 33 in a manner not shown.

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motor coupled, which servomotor of the automatic rotary adjustment of the Steucärkükens 31 for control the temperature of the heating flow water mixed from boiler flow water and heating return water serves / which via the heating flow line 19 to the heat exchanger 26 and then as heating return water flows back into the heating return connection piece 15 of the mixing valve 10. Furthermore, from the boiler flow connection piece 13 and the heating return connection piece 15 also water into the boiler return connection piece 16 flow in, which flows back as boiler return water to boiler 23 and there again heated to the boiler flow temperature and then again via the boiler flow line 18 into the boiler flow connection piece 13 of the mixing valve 10 flows in.

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

The control plug 31 can when operating the heating system by means of the above-mentioned servomotor a control or regulation automatically and continuously

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be adjusted so that, for example, the heating flow temperature controlled or regulated depending on the outside temperature according to a predetermined heating curve or a room temperature controller can also be used to control the servomotor. Others too Opportunities exist. In simpler cases, manual adjustment of the control plug 31 can also be done by a manually operated lever or rotary knob which is attached to the first adjusting shaft 33 / provided.

The control plug 31 has two mutually parallel / extending perpendicular to the axis of rotation of the control plug End plates 40, 41 which are connected to one another by a central diagonal partition wall 42 are. To linearize the respective heating flow temperature characteristic curve of the mixing valve / which the functional relationship between the angular position of the control plug 31 and the heating flow temperature corresponds, this middle partition wall 42 is on the exclusively supplied with boiler flow water Side constricting the outflow cross-sections for the boiler flow medium in a manner known per se Control cams deformed. The other long side, which is only exposed to heating return water this central partition wall 42, however, has no such control cams. To this mixing valve 10 optionally to be able to provide for right-hand or left-hand connection of the boiler flow line also has the

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Control plug 31 has a plane of symmetry in which its axis of rotation falls and that which passes through this axis of rotation The longitudinal center plane of the partition 42 intersects perpendicularly. You can hereby selectively the basic setting of the control plug 31 Provide that any of the four connecting pieces 13 - 16 are used as boiler flow connecting pieces can serve. The basic position of the bypass plug 32 is then changed accordingly. The bypass plug 32 is used to increase the maximum heating flow temperature to adjustable values below the boiler flow temperature by setting this rotatable bypass plug 32 has a concave recess 43 through which the heating return water is constantly in operation can flow over from the heating return connection piece 15 into the heating flow connection piece 14, so that from the boiler flow connection piece 13 in the heating flow connection piece 14 through the control plug controlled outflowing boiler flow water constantly from the Bypass outflow. Heating return water is added, regardless of whether the control plug is also 31 allows heating return water to flow into the heating flow connection piece 14 or not. Even in the borderline case when the control plug 31 is set in the position 31 'indicated by dash-dotted lines in FIG. 2, in the it. no heating return water lets through into the heating flow, so the bypass plug continues Heating return water in the heating flow connection

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nozzle 14 overflow / so that it is when the bypass is open impossible, is that the heating flow temperature the boiler flow temperature can reach. It can be by turning 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 steadily up to through the bypass plug 32 Adjust the set maximum value, whereby the boiler flow temperature is constant, for example 90 ° C. In the case of 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 recess in a circular cylindrical recess in the bottom 29 of the housing 11 form-fitting rotatable disc, on the flat upper end face the lower plane Front side of the control plug 31 rests. So that the control plug 31 does not pass the bypass plug 32 through the If the friction rotates along with it, the bypass plug 32 can be rotatably mounted with sufficient difficulty. Are preferred however, separate means are provided to counteract the bypass plug 32 in the rotation set in each case Rotate to secure what in this embodiment by means of a thread on the adjusting shaft 34 arranged Kiemnut 44 can be done by means of her the bypass plug 32 on the housing bottom can clamp in any angular position.

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For the overflow of heating return water into the Heating flow connection piece, the bypass plug 32 has the recess 43, which has a flat bottom and has a circular arc-shaped rear wall and at the top through the lower end face of the control box 31 is covered.

This recess 43 can, for example, by means of a milling cutter, which is parallel to the rotary axis of the during milling Bypass plug 32 was moved, be made, but in practice the bypass plug 32 in general is expediently produced by casting and then only requires little post-processing. This recess 43 extends over a central angle of approximately 90 °, so that the bypass plug 32 from the position of maximum flow cross-section shown in Figure 3 by turning in angular positions reduced flow cross-section up to two. Limit positions in which its recess 43 facing only the connector 14 or only the connector 15 can be pivoted, so in which there is no Heating return water in the heating flow connection piece 14 lets through, so that in each of these Limit positions then the controllable by the control plug 31 maximum heating flow temperature of the Corresponds to the boiler flow temperature.

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The in the same, perpendicular to the axes of rotation of the chicks 31, 32 directed plane · longitudinal center axes of the four Connection pieces 13 - 16 are each offset at 90 ° to each other, so that the central angle of its recess 43 related to the axis of rotation of the bypass plug 32 of about 90 ° approximately that of the longitudinal center axes of the heating return connection piece 15 and des Heating flow connection piece 14 corresponds to the enclosed central angle. This achieves, among other things, that when the bypass plug is set in any of the limit positions mentioned, in which there is no Heating return water to the heating flow connection piece 14 lets through, it is then in a complete shut-off position in which there is no connection at all between adjacent connecting pieces creates, so that then only the control plug 31 can let water through. When the angle of rotation of the bypass plug 32 is not limited, it can also be set in angular positions in which its Recess 43 water-conducting connections from the nozzle 13 to the connector 14 or 16 or from the connector 15 to the connector 16 so that it may be also for purposes other than limiting the heating flow temperature can serve, for example, the increased admixture of boiler flow water to Boiler return water: If this is not desired, you can adjust the angle of rotation of the bypass plug 32, for example limit by means of stops.

If it is desired that the from the recess 43 of the Bypass plug 32 in the heating flow connection piece 14 incoming heating return water has a stronger injector effect on the through the control plug 31 controlled boiler flow water flowing into the heating flow connection piece to accelerate it exercises, it can be provided that this recess 43 on the heating flow connection piece 14 adjacent end region is narrowed like a nozzle to the speed of the outflowing heating return to increase water.

The control plug 31 is also used to add boiler feed water to the heating return water flowing into the boiler return connection piece for the purpose of Raising the boiler return temperature. To this temperature increase to enlarge, it can also be provided that. the bypass plug 32 diametrically opposite the Recess 43 has a second recess, which is indicated by dash-dotted lines in Fig. 3 at 50 and through which boiler feed water constantly overflows into the boiler return connection piece 16 can.

At. an embodiment not shown can it can also be provided that the housing has no connecting pieces formed on it, but on In their place only housing openings are provided, in the separate connection piece or directly the pipes in question can be inserted or attached.

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4 and 5 are two sections through a three-way mixing valve 10 'similar to the sections according to FIGS. 2 and shown, so that the difference to FIGS. 2 and 3 in essentially consists in the fact that the housing 11 'of the three-way mixing valve 10' shown in FIGS. 4 and 5 A total of only three connecting pieces 13, 14 and 15 for the boiler flow line 18, the heating flow line 19 and the heating return line 20 is required. 4 shows a section at the level of the corresponding one Control plug 31 shown in section and FIG. A section at the level of the corresponding section shown Bypass plug 32. The flow openings 13 ', 14', 15 'of the nozzles 13, 14 and 15 are as shown designed so that the centers of their mouths adjoining the interior space 27 of the housing 11 ' are angularly offset from one another by approximately 120 °. In not shown As with the four-way mixing valve 10 according to FIGS. 1 to 3, the three-way mixing valve 10 " 4 and 5, the control plug 31 and the bypass plug 32 with mutually aligned axes of rotation coaxially arranged one above the other in the housing interior 27. The control plug 31 has a more than 180 ° on its circumference extending recess 31 ″, the conduction of heating flow water and heating return water is used in the heating flow and by turning the control plug 31, the Adjust the temperature of the heating flow water by influencing the mixing ratio. That independently bypass plug 32 adjustable in angle from control plug JT has'

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a concave recess 43 through which a bypass, unaffected by the control plug 31, from the heating return connection stub 15 into the heating flow connection stub 14
is created. This bypass plug 32 has the same task as in the four-way mixing valve 10 according to FIGS 15 '' of the flow openings 13 ', 14' and 15 'of the connecting pieces 13, 14 and 15 are formed
openings for the flow through the housing interior
Media on. In Fig. 4, the control plug 31 is shown in the middle position of its adjustment range.

Claims (12)

C · β · Ι 31 * 1055 Claims Three or four-way mixing valve for heating systems, especially for underfloor heating systems, for mixing preferably boiler flow medium consisting of water with Heating return medium to heating flow medium and, in the case of the four-way mixing valve, also to boiler return medium, with a housing having three or four connections, in a housing interior, in its peripheral wall Inlet and outlet openings of the connections open, a control plug serving for variable mixing control is rotatably arranged is, which is rotatable by means of a first adjusting shaft, and furthermore the heating return connection also is connected to the heating flow connection via a throttable bypass, characterized that in the housing interior (27) coaxially to the control plug (31) an independent of the control plug rotatable bypass plug (32) for creating the bypass from the heating return connection (15) to Heating flow connection (14) is rotatably arranged, which has a recess (43) for the bypass flow. 2. Mixing valve according to claim 1, characterized in that the bypass plug (32) can be rotated by means of a second adjusting shaft (34) which is led out to the outside. - 2 - 3. Mixing valve according to claim 2, characterized in that the second actuating shaft (34) is led out of that housing side (29) which. from that of the first (33) assigned housing side (30) is turned away. 4. Mixing valve according to claim 2, characterized in that that the first steUwe ^ le (33) is a hollow shaft through which the second adjusting shaft (34) is passed through coaxially. 5. 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 bulge. 6. Mixing valve according to one of claims 1 to 5, characterized in that the bypass plug (32) with a End face rests against one end face of the control plug (31). 7. Mixing valve according to one of the preceding claims, characterized in that the bypass plug (32) means of a servomotor, preferably depending on the external * - temperature is adjustable. 8. Mixing valve according to one of the preceding claims, characterized in that the on the axis of rotation of the bypass plug (32) related central angle of its recess (43) for the bypass flow is so small that the bypass plug is adjustable in at least one angular position in which its recess only the heating return or only the Opposite heating flow connection. I · · 4 ■ · C - 3 - 9. Mixing valve according to one of the preceding claims, characterized in that the respective set position of the bypass plug (32) can be clamped by means of clamping means (44) is.. 10. Mixing valve according to claim 9, characterized in that that the clamping means have a clamping nut (44) guided on a thread of the second adjusting shaft (34). 11. Mixing valve according to one of the preceding claims, characterized in that the recess of the bypass plug on the outlet side to achieve an injector effect on the heating flow connection (14) inflowing KesseIvorlauffluidum is nozzle-shaped. 12. Four-way mixing valve according to one of the preceding claims, characterized in that the bypass plug is also used for admixing boiler flow medium the second recess (50) serving the heating return medium flowing into the boiler return connection (16) having. 13 «Mixing valve according to one of the preceding claims, characterized in that the connections of its housing (11) are formed by connecting pieces (13-16) molded onto the housing. 14 »Mixing valve according to one of the preceding claims, characterized characterized in that the housing interior (27) is circular-cylindrical.