DE3712878C1 - Valve arrangement for a water-heating installation - Google Patents

Abstract

In a valve arrangement for a water-heating installation, there is a mixing valve M having two feed valves (34, 36), which can be actuated in opposite directions by a common actuator 27, for feeding a mixing chamber (23) from a flow chamber (21) and a return chamber (22). Arranged in series with the return-side feed valve (36) is a throttle valve (D). The latter can be adjusted by the common actuator (27) in the opposite direction to said return-side feed valve. In this way, it is possible to supply mixed water to a plurality of heating circuits using only one circulation pump. <IMAGE>

Description

The invention relates to a valve arrangement for a hot water heating system, especially with underfloor heating, with a mixing valve that two operated in opposite directions by a common actuator bare check valves to feed a mixing chamber has a flow chamber and a return chamber.

When it comes to underfloor heating, it is known for everyone NEN heating circuit, for example through the pipe coil is given in one room, a mixing valve and one Circulation pump to be provided. The circulation pump causes one flow rate so high that between No uncomfortably large beginning and end of the heating surface Set temperature differences. Through the mixing valve can be the temperature of the water supplied to the circuit are kept so low that no surface is too high temperatures and no excessive heat deviations given. It is irrelevant that the pre running temperature often higher for other reasons must have, for example, if convection heating body should be supplied with hot water if un  Conveniently located rooms have a much higher heat need or if with a district heating the flow temperature is prescribed.

However, the comfort achieved in this way causes relatively high cost. Because for every circle must a circulation pump may be provided.

The invention is therefore based on the object Suit valve arrangement of the type described above ben when using only one circulation pump pe for several heating circuits in each heating circuit re temperature setting is possible and a predetermined temperature drop is not exceeded.

This object is achieved in the generic arrangement in that a Dros in series with the return-side feed valve selventil is arranged by the common actuator in the opposite direction to this return-side feed valve is adjustable.

The additional, but operated by the same actuator Throttle valve ensures that the associated heating circle depending on the position of the actuator Flow rate is supplied. With decreasing heat demand is therefore not only the mixing ratio but the flow rate also changed. With high heat requirements results at a high temperature of the mixed water large flow rate, so for this reason the tempe rature drop from the entrance to the exit of the circuit is low remains. If the heat requirement is low, the flow rate is also low. But because of the high proportion of Return water at the mixed water only the temperature is a little above room temperature ensured that the temperature drop in the circuit remains low.  

In a preferred embodiment, it is ensured that that the actuator is a valve stem, which besides the Feed valve shutters a throttle valve ver bears the end piece and that the wall came between return mer and mixing chamber has a valve seat on both sides. This results in a particularly simple type of actuation. Of course, the locking pieces can be relative held relative to each other on the valve stem be.

In particular, the feed valve closures in the mixing chamber and the throttle valve plug be arranged in the return chamber. An alternative with reverse direction of operation is that the feed valve closures in the flow and Return chamber and the throttle valve plug is arranged in the mixing chamber.

The actuator can be operated by a remote control be adjustable. For this comes in particular an electrically heated expansion element, be it a solid-state cartridge, e.g. B. wax cartridge, one with Liquid-vapor filling working element u. Like. The valve arrangement then needs not to be placed in the room, its temperature should be regulated. If an accommodation in this Space is possible, a normal thermostat attachment can be provided for the valve assembly.

Of particular advantage are several valve housings that are assigned to one heating circuit, one to one shared circulation pump supplied central distributor assembled. Such a central distributor can for all rooms of an apartment are provided and for example se be arranged in the hallway. He can go to the and return line of a house or district heating system be connected.  

In this context it is recommended that in each Housing the flow and return chamber with one each between the two opposite housing end panels the extending passage and the mixing chamber with a connecting piece, the axis of which is approximately parallel to the end walls runs, is connected. The valve arrangement Central distributor can therefore be placed close together arrange each other and stand directly with each other in connection.

It also serves the same purpose if every housing is provided with a second connection piece, the with another one between the case end walls extending passage is connected.

Embodiments of the invention are described below with reference to the drawings explained in more detail. It shows

Fig. 1 is a schematic representation of a Heizungsan position with the inventive valve arrangements,

Fig. 2 is a longitudinal section through an embodiment of a valve assembly according to the invention,

FIG. 3 is a longitudinal section through an alternative to this,

FIGS. 4 and 5 flow curves over the travel,

Fig. 6 is a longitudinal section through another Ausfüh approximate shape of a valve assembly according to the invention and

Fig. 7 is a horizontal section along the line AA of Fig. 6.

In Fig. 1, a heating system for a house with several floors is illustrated. It has a Heizkes sel 1 with flow line 2 and return line 3 . Each apartment W 1 , W 2 , W 3 etc. is connected to this Vorlauflei device 2 and the return line 3 in connection.

The apartment W 1 has three rooms 4, 5 and 6 , each with two heat exchangers 7 and 8, 9 and 10, 11 and 12 . For example, the heat exchangers 7, 9 and 11 are pipelines laid in the floor, while the heat exchangers 8, 10 and 12 are formed by convection heating elements attached to the room wall. Each heat exchanger is supplied with mixed water by a valve arrangement 13 via a line 14 . The return line 15 leads to a manifold 16 , in which a circulation pump 17 is installed. The output of the circulating pump is connected on the one hand to the return line 3 and on the other hand to a return-side distributor line 18 which is common to all valve arrangements 13 . All valve arrangements 13 together form a central distributor 19 , which can be accommodated, for example, in the hallway of the apartment, in a storage room or in another otherwise unused location.

A valve arrangement 13 is shown in FIG. 2. It has a housing 20 in which there is a flow chamber 21 , a return chamber 22 and mixing chamber 23 with a connecting piece 24 for the line 14 . Below is shown a chamber 25 which forms part of the collecting line 16 and is provided with a connecting piece 26 for a line 15 .

An actuator 27 in the form of a valve rod through a bore 28 between the flow chamber 21 and the mixing chamber 23 and a bore 29 between the return chamber 22 and the mixing chamber 23rd From the actuator 27 three locking pieces 30, 31 and 32 can be taken. The United closure piece 30 forms, together with a valve seat 33, an inlet-side feed valve 34 . The closure piece 31 forms with a valve seat 35, a return side feed valve 36th The two feed valves 34 and 36 represent a mixing valve M. The closure piece 32 forms, together with a valve seat 37, a throttle valve D. A return spring 38 is located between the closure pieces 30 and 31 . A return spring 39 is provided between the closure piece 32 and the housing.

On the housing 20 , an actuating attachment 40 is set, which contains a wax cartridge 41 , which can be brought to predetermined temperatures by means of an electrical heating resistor 42 . Depending on the temperature, a piston 43 moves outward and adjusts the valve stem by a predetermined amount.

In the embodiment of Fig. 3, in which the unillustrated actuator works in the opposite direction Rich, reference numerals increased by 100 are used for corresponding parts. In this construction, the closure piece 130 of the flow-side feed valve 134 is in the flow chamber 121 and the closure piece 131 of the return-side feed valve 136 of the return chamber 122 . The closure piece 132 of the throttle valve D is housed in the mixing chamber 123 .

In Fig. 4, the flow rate Q is illustrated light over the travel y of the actuator and the actuator 27 . Curve I represents the flow through the bore 28 , that is the amount of the feed water, and curve II the flow through the bore 29 , that is the beige mixed return water. Curve III is the sum of curves I and II; this is the amount Q which is fed to the heat exchanger via the connector 24 . Because of the interaction of the return-side feed valve 36 and the throttle valve D , a curve II results which keeps the flow rate to zero in both end positions and has a maximum in the middle. If there is a high heat requirement, there is a large flow rate, which is mainly formed by the hot flow water. Because of the large amount, cooling in the heat exchanger is low. The flow rate also decreases as the heat requirement decreases. The flow rate is only small near the opposite end position. Nevertheless, the temperature drop in the heat exchanger is small because the mixed water temperature is close to the room temperature.

In contrast to conventional space heater valves, the valve arrangement described here has a constant gain, which means that as the travel y increases, the amount of heat transferred also increases steadily.

By coupling the closure pieces and / or by their shape in connection with the valve seat, the curves I and II can be freely selected to a large extent. Fig. 5 shows the case that the flow-side supply valve 34 opens only after a certain travel of the actuator 27 (curve I a) . Therefore, the lower part of the flow curve III a is covered solely by the return water, as can be seen from the shape of curve II a .

In the embodiment of FIG. 6, reference numerals increased by 200 for corresponding parts compared to FIG. 2 are used. The valve rod and the closure pieces are not shown. The flow chamber 221 is connected to a passage 202 , the return chamber 222 to a passage 218 and the chamber 225 to a passage 216 . The three passages extend on opposite end walls 244 and 245 . Valve housings 213 of this type can therefore be placed against one another with the interposition of a seal and connected with the aid of screws which reach through bores 246 . Because of the inclined axis of the chambers 221 to 223 , the actuating attachment, not shown, is easily accessible.

Claims (9)

1.Valve arrangement for a hot water heating system, in particular with an underfloor heating system, with a mixing valve which has two check valves which can be actuated in opposite directions by a common control element for feeding a mixing chamber from a flow chamber and a return chamber, characterized in that in series with the return-side feed valve ( 36; 136 ), a throttle valve (D) is arranged, the common actuator ( 27; 127 ) against sensible to this return-side feed valve is adjustable ver. 2. Valve arrangement according to claim 1, characterized in that the actuator ( 27; 127 ) is a valve stem which, in addition to the feed valve closure pieces ( 30, 31; 130, 131 ) carries a throttle valve closure piece ( 32; 132 ) and that the wall between Rücklaufkam mer ( 22; 122 ) and mixing chamber ( 23; 123 ) has a valve seat ( 35, 37 ) on both sides. 3. Valve arrangement according to claim 2, characterized in that the feed valve closure pieces ( 30, 31 ) in the mixing chamber ( 23 ) and the throttle valve-Ver closure piece ( 32 ) in the return chamber ( 22 ) are net angeord. 4. Valve arrangement according to claim 2, characterized in that the feed valve closure pieces ( 130, 131 ) in the flow and return chamber ( 121, 122 ) and the throttle valve closure piece ( 132 ) are arranged in the mixing chamber ( 123 ). 5. Valve arrangement according to one of claims 1 to 4, characterized in that the actuator ( 27 ) is adjustable by a remote-controllable actuator ( 41 ). 6. Valve arrangement according to claim 5, characterized in that an electrically heatable expansion element is used as the actuating member ( 41 ). 7. Valve arrangement according to one of claims 1 to 6, characterized in that a plurality of valve housings ( 13; 213 ), each associated with a heating circuit ( 7 to 12 ), to a central distributor ( 19 ) supplied by a common circulation pump ( 17 ) ) are assembled. 8. Valve arrangement according to claim 7, characterized in that in each housing ( 213 ) the flow and return chamber ( 221, 222 ) each having a passage ( 202, 218 ) extending between the two opposite housing end walls ( 244, 245 ). and the mixing chamber ( 223 ) with a connecting piece ( 224 ), the axis of which is approximately parallel to the end walls, is connected. 9. Valve arrangement according to claim 8, characterized in that each housing ( 213 ) is provided with a second connection piece ( 226 ) which is connected to a white passage between the housing end walls ( 244, 245 ) extending passage ( 216 ).