DE2946357A1 - Single heating pipe controller - has housing with divided channel terminating with thermostat valve and connection to heater - Google Patents

Abstract

The control unit, for single pipe heating installations, which ensures a reliable flow division of the hot water into two equal streams, has the thermostat outside the rising warm air flow. The brass housing (1) has an axial channel (2) terminating at one end with the thermostat valve (3) while the other end forms the connector (4). The hot water inlet (5) and outlet (6) are separated by the partition (7) which divides channel (2) into partial channels (14/15). Channel (15) has no connection to the hot water outlet (6) into which the other partial channel opens up. In addition, the ends of the partition carry deflecting and flow dividing elements (8/9) with the top one having bore (10) controlled by valve disc (11). The element (9) is extended as a tube (12) projecting into the heater (13).

Description

Designation: Control valve for one-pipe heating systems Description: The invention relates to a control valve for one-pipe heating systems with a housing. That has a bypass duct and a flow channel, both channels having a hot water inlet in Are connected and has a connection piece for a radiator, which with the flow channel and a hot water drain in connection, in which also the bypass channel opens with a valve, preferably a thermostatic valve is provided by that of the flow channel opposite the hot water inlet is at least partially lockable.

From DE-OS 19 15 296 a control valve of the initially designated Kind of known, but from a complicated structure and therefore difficult to manufacture Casting consists. A major disadvantage of the known control valve is that that due to the complicated course of the individual channels in the control valve results in a significant flow resistance, so that a heating system in which several radiators one behind the other are supplied with hot water through a pipe are, a significant pump output must be provided so that even when The last radiator still has a perfect flow of hot water. Another disadvantage of the known control fittings is that the heat sensor of the thermostatically controlled control valve is located above the fitting and thus lies in an ascending, warm air current flowing through the underneath the outer surfaces of the valve housing lying on the thermostatic valve are warmed up, This makes it practically impossible to use the heating system and thermostats to some extent to be regulated precisely, as every change in the flow temperature immediately changes the valve position on the thermostatic valves. The actual However, room temperature has practically no influence on the control process. Another The disadvantage of the known fittings is that the complicated management of the individual channels, the distribution of the two hot water flows that is desired per se in the bypass channel and in the flow channel when the valve is fully open, which is basically both channels should have the same volume flow per unit of time, is not reachable.

The invention is based on the object of providing a control valve of the initially mentioned designated type to create, which is not only much easier to set up and thus cheaper to manufacture, but also providing a reliable breakdown of the Allows hot water flow in two equal partial flows, and in which the heat sensor a thermostatically controlled control valve outside of the fitting housing forming, ascending warm air flow.

This object is achieved according to the invention in that the housing has a continuous, axial channel which at one end through the valve and is limited at the other end by the connection piece that on the valve side The end of the hot water inlet flows into the canal through a side opening, that at the other end the hot water drain into the canal through a side opening opens that in the area between the hot water inlet and hot water outlet the channel is divided by a partition into two sub-channels, that the one sub-channel connects the hot water inlet with the hot water outlet as a bypass channel in the housing, that the other sub-channel as a flow channel at least up to the area of the radiator connection piece is performed and has no connection with the hot water drain and that the remaining cross-section of the channel in this area is in connection with the hot water drain.

The advantage of a control valve designed in this way is on the one hand in that the housing is much easier to manufacture, since only a continuous, preferably straight channel is present, which is open on both sides is, so that the necessary for subdivision into the bypass channel and the flow channel Partition can be made in a simple manner. This can be, for example be done by pouring or by inserting a separate dividing piece. Machining is also considerably simplified, as the threads required for the valve at one end of the housing and for the connection piece for the radiator at the other end attached to a corresponding machine tool in a clamping can be. Also the processing of the necessary valve seat in the area of the The confluence of the hot water inlet in the housing can be set up in the same way make. The same applies to the processing of the hot water inlet and the Side openings forming the hot water drain, which are used accordingly as connecting pieces are designed for pipelines. Tests have shown that the flow resistance on a control valve constructed in this way is considerably less than previously known Control valves and that the desired distribution of the running in Half of the hot water flow to the bypass channel and half to the flow channel when full open valve is also guaranteed.

In an advantageous embodiment of the invention, it is also provided that the flow channel extends tubularly beyond the area of the connecting piece and protrudes into the radiator. This makes it possible to use it in the radiator hot water flow to be introduced only at a sufficient distance from the connecting piece in to let this enter, so that due to the tubular extension generated injector effect practically achieved a forced flow through the radiator and the hot water only passes through after a certain period of time and heat release the connection piece flows back into the hot water drain of the housing and is there mixed with the partial flow passed through the bypass channel and to the next radiator flows.

In a particularly advantageous embodiment of the invention it is provided that the plane of the partition dividing the channel is perpendicular to the axes the junction of the hot water inlet and hot water outlet is aligned and the cross section of the hot water inlet in about half and the cross-section of the hot water drain completely covered, with the so formed Partial channels of the sub-channel facing away from the junctions serves as a flow channel whose the end associated with the confluence of the hot water inlet is provided with a valve seat is. A fitting housing designed in this way is in a simple manner by conventional casting or pressing process to produce, the partition wall in one piece can be connected to the other parts of the housing or as a separate one Component can be inserted into the axial channel of the housing.

In an advantageous embodiment of the invention, it is also provided that in the openings of the fatigue of the hot water inlet and hot water outlet Deflection and flow divider elements for the hot water are arranged, which are connected to the Partition wall are connected. These deflection and flow divider elements can also be integrally connected to the other parts of the housing or as a separate one Elements after casting or pressing, for example through the openings of the hot water inlet and the hot water drain should be pushed into the housing.

In a particularly advantageous embodiment of the invention it is provided that the subdivision of the channel into two sub-channels by an insertable into the channel and is formed in this fixable component. This configuration has the advantage that the channel in the housing can initially be made as a cylindrical bore, that is, on any internals in the channel during the manufacture of the housing is dispensed with and that a corresponding fitting part is then inserted into the bore is inserted.

This fitting part not only divides the duct into two Partial channels, but is expediently corresponding at its valve-side end machined as a valve seat and at its end on the radiator side with a corresponding provided tubular extension. The processing of the housing body is thereby Reduced to just a few operations, as is because of the simplified design of the housing piece considerably simplifies the production by casting or pressing thus reducing the reject rate.

The assembly of the insertable component is inexpensive because of the and nevertheless precise processing possibilities with the help of simple devices accomplish. The deflection and flow divider elements are expedient directly on the attached component.

In a preferred embodiment of the invention it is provided that the insertable component is formed by a body, the cross-section of which the Cross-section of the channel and corresponds to an axial bore as a flow channel and has a channel-like recess on its outer surface as a bypass channel.

In a further advantageous embodiment of the invention it is provided that the housing is provided with a device through which the valve is independent the flow cross-section of the flow channel can be reduced. This allows in an advantageous manner when arranging several radiators on a pipe string the flow rate to the respective radiator by reducing the cross-section reduce in the flow channel so that the flow in the direction of the pipe string seen from the front radiator with a lower amount of hot water per unit of time are acted upon than the radiators in the end of the pipe string and thus a better distribution of the amount of heat available to all radiators is guaranteed.

When using a retractable component for education of the flow channel and bypass channel is in an expedient embodiment for this provided that the component is secured against axial displacement in the housing The invention is explained in more detail with reference to schematic drawings of exemplary embodiments explained. 1 shows an embodiment with a cast-in partition; FIG. 2 shows a cross section through the fitting housing along the line II-II in FIG. 1; 3 shows an embodiment with an inserted component; 4 shows a cross section through the fitting housing according to the line IV-IV in FIG. 3.

The embodiment shown in Fig. 1 consists of an elongated one Housing 1, which is cast, for example, from brass. The housing 1 is towards may be- Understand a longitudinal extension with a continuous channel 2, which is closed at one end by a thermostatic valve 3 and at his the other end opens into a connection piece 4 for a radiator. On the valve side At the end of the housing 1 a side opening 5 is provided, which acts as a connecting piece is designed for a hot water inlet. At the other end of the housing 1 is preferably In the same plane a side opening 6 is provided, which is expedient designed as a connection piece for the hot water drain from the control valve in question is. The channel 2 is in its area between the hot water inlet 5 and the hot water outlet 6 divided by a partition 7 into two sub-channels. Each at the ends the intermediate wall 7 are deflection and flow divider elements 8, 9 in the housing used, which is conveniently something in the hot water inlet 5 or the hot water outlet 6 protrude. The deflecting divider element 8 is provided with a bore 10 and processed on the outside so that it is used as a seat for the valve disk 11 of the Thermostatic valve 3 is used. The flow divider element 9 also has a bore on, in which a tubular extension 12 is used, which over the connecting piece 4 out into the heating element 13 protrudes, which is only hinted at here is. This arrangement turns the channel 2 into a bypass channel 14 and a feed channel 15 divided, the bypass channel 14, the hot water inlet 5 directly to the Hot water drain 6 connects. The inflowing hot water is through the flow channel 14 15 over the tubular extension 12 as a result of the injector effect far into the radiator interior pressed in, so that after a corresponding flow through the radiator that partially cooled hot water flows to the hot water outlet 6 according to the arrow 16 and can mix there with the hot water flowing in from the bypass duct 14 and can be fed to the next radiator. The cross-sections of the bypass duct 14 and the flow channel 15 are mutually dimensioned so that when fully open Thermostatic valve through both channels the same amount of hot water per unit of time flows, d. H. thus half of the amount flowing through the hot water inlet 5 in each case Amount of hot water. The actually flowing to the radiator 13 through the flow channel 15 However, the amount of hot water depends on the cross-section released by the thermostatic valve the inlet opening 10.

The sectional view in Fig. 1 also shows know, that the temperature sensor 17 of the thermostatic valve 3 outside of the through the fitting housing generated convection flow of the surrounding room air and thus a very allows much more precise adjustment than the previously known control valves for one-pipe heating systems, where for manufacturing reasons the thermostatic valve had to be placed above the housing.

The partition 7 and the deflection and flow divider elements 8, 9 can either be used subsequently as separate components' what possible without difficulty, for example in the case of a rectangular duct cross-section is as shown in FIG. But you can also like the well-known control valves be manufactured in one piece by a casting process.

In Fig. 3 is a particularly preferred embodiment of the control valve shown. In this embodiment, the channel 2 is in the housing 1 as a continuous cylindrical bore formed into which the hot water inlet 5 and the hot water outlet 6 also open out as cylindrical bores. One end of the case 1 is in turn completed by a thermostatic valve 3, while the other end in turn is provided with a connection piece 4 for a radiator 13.

The division of the channel 2 into a bypass channel 14 and a flow channel 15, however, is made here by a separate component 18, which is inserted into the channel bore 2 is inserted. The component 18 is essentially by a cylindrical Formed body, the cross section of which corresponds to the cross section of the channel 2 and which has an axial bore that forms the flow channel 15. A gutter-like one On the other hand, it forms a recess on one of its outer surfaces in cooperation with the Inner wall of the channel bore 2 the bypass channel 14.

The channel-like recess can in this case by a transverse to the cylinder axis guided flattening are made so that corresponding at both ends of the component Web 19 and 20 remain as deflection and flow divider elements. The confluence of the flow channel 15 at the valve-side end is in turn machined as a valve seat, what for example by a conical design of the bore end on this Side can be effected.

The end face of the component 18 at the other end can, as in the Drawing shown, curved accordingly run so that here the deflection of the return flow entering the channel bore 2 the radiator (arrow 21) is deflected and thus the pressure losses are reduced. The hole in component 18 serving as flow channel 15 is through at this end an inserted tube 22 is extended accordingly, so that here again the the hot water supplied to the radiator is fed into it far enough to To avoid flow short circuits "in the area of the connecting piece 4.

Be; This embodiment is based on the hot water inlet 5 or Hot water drain 6 facing away from the housing 1 a threaded hole 23 is provided, can be inserted through the oval screw 24 with which the component 18 in the housing 1 can be fixed immovably. In the illustrated embodiment is to understand the component 18 in the area of the screw 24 with a through hole 25, through which the formed as a cylindrical pin 26 screw tip into the Flow channel 15 can be screwed in. In this way it is possible to help with the screw 24 independently of the thermostatic valve 3, the flow cross-section of the flow channel 15 to reduce, so that the quantitative division of the hot water inlet 5 supplied hot water flow on the bypass duct and the flow duct can be changed in favor of the bypass channel 14 when the thermostatic valve is fully open can. The mode of operation of the embodiment shown in FIG. 3 corresponds the embodiment explained with reference to FIG.

While in principle also for the insertable component 18 the usual Fitting materials, such as brass, can be used, it is special expedient to produce this component from a plastic, in particular from polysulfone.

This plastic is not only temperature resistant up to about 150 ° C, but also chemically resistant to the heating water. Such a plastic part can be produced with the required accuracy by injection molding or casting, so that the processing effort for the production of such a control valve is still being reduced.

It should be noted that the two embodiments described are only shown schematically that with regard to the choice of material, constructive Design and assembly of the individual components, modifications are possible are. For example, in an embodiment according to FIG. 1, it is entirely possible that the intermediate wall 7 runs in a plane passing through the axis of the hot water inlet 5 and the hot water outlet 6 is formed and so the hot water inlet opening 5 is divided in half by the partition 7. The valve seat on the one hand as well the guidance of the return flow must then be adjusted accordingly.

L e r s e i t e

Claims (10)

Designation: Control valve for one-pipe heating. Claims: Control valve for one-pipe heating with one Housing that has a bypass channel and a flow channel having, wherein both channels are in communication with a hot water inlet, and which has a connection piece for a radiator, which is connected to the flow channel and a hot water drain into which the bypass channel also opens, and which is provided with a valve, preferably a thermostatic valve that the flow channel can be at least partially shut off from the hot water inlet is, in that the housing (1) has a has continuous axial channel (2) which at one end through the valve (3) and at the other end by the connection piece (4) is limited that on the valve side The end of the hot water inlet (5) opens into the channel (2) through a side opening, the hot water drain into the sewer through a side opening at the other end (2) that opens in the area between the hot water inlet (5) and the hot water outlet (6) the channel (2) is divided into two sub-channels (14, 15) by an intermediate wall (7) is that the one sub-channel (14) as a bypass channel in the housing (1) is the hot water inlet with the hot water drain (6) connects that the other sub-channel (15) as a flow channel is guided at least as far as the area of the radiator connection piece (4) and has no connection with the hot water drain (5) and that the remaining cross-section of the channel (2) is in connection with the hot water drain (6) in this area. 2. Control valve according to claim 1, characterized in that g e k e n n z e i c h n e t that the flow channel (15) tube-like over the area of the connecting piece (4) is also extended and protrudes into the radiator (13). 3. Control valve according to claim 1 or 2, characterized in that g e k e n n z e i c h n e t that the plane of the intermediate wall (7) dividing the channel (2) is perpendicular to the axes of the junctions of the hot water inlet (5) and hot water outlet (6) is aligned and the cross section of the hot water inlet (5) in about half and the cross section of the hot water drain (6) completely covered, with the so formed Partial channels (14, 15) of the sub-channel (15) facing away from the junctions as a flow channel serves, the end of which is assigned to the confluence of the hot water inlet (5) with a Valve seat is provided. 4. Control valve according to one of claims 1 to 3, characterized g e k e nn z e i c h n e t that in the openings of the junctions of hot water inlet (5) and hot water drain (6) deflection and flow divider elements (8, 9; 19, 20) arranged for the hot water are connected to the partition (7) are. 5. Control valve according to one of claims 1 to 4, characterized g e k e n n z e i c h n e t that the division of the channel (2) into two sub-channels (14, 15) by a component that can be pushed into the channel (2) and fixed in it (18) is formed. 6. Control valve according to claim 5, characterized in that g e k e n n z e i c h n e t that the component (18) at one end with the valve seat and at the other end with a connection for a tubular extension (22) of the flow channel forming Partial channel (15) is provided. 7. Control valve according to one of claims 4, 5 or 6, characterized g e it is not indicated that the deflection and flow divider elements (19, 20) are attached the component (18) are attached. 8. Control valve according to one of claims 5 to 7, characterized g e k e It is noted that the insertable component (18) is formed by a body whose cross section corresponds to the cross section of the channel (2) and the one axial bore as a feed channel (15) and a channel-like recess has on its outer surface as a bypass channel (14). 9. Control valve according to one of claims 1 to 8, characterized g e k e It is noted that the housing (1) is provided with a device through which, independently of the valve (3), the flow cross-section of the flow channel (15) can be reduced is. 10. Control valve according to one of claims 5 to 9, characterized g e k e n n z e i c h n e t that the component (18) against axial displacement in the housing (1) is secured