DE3622139C2 - - Google Patents

Description

The invention relates to a water supply system for buildings according to the category of claim 1.

Such consumers are usually sinks, Bathtubs, showers, rinsing or the like. Is at a Ver need place after a long period of inactivity of the warm faucet open, so it takes depending on the Line length to the central domestic hot water preparation plant more or less long until warm water comes out the tap flows. To overcome this disadvantage eliminate, it is already known the hot water supply training as a cycle through which constantly warm water circulates so that when you open a warm faucet at a consumer point the warm or hot water is only the short connecting pipe from the hot water circuit to the hot water tap needs bridges and warm water very quickly is available. The disadvantage is the high installation effort, that is, there must be a double line,  double insulation and a hot water circulation pump are provided. The heat losses are there depending on the insulation used, not insignificant Lich, and a subsequent installation of a circus Lation management is practically excluded.

Furthermore, the method is now often used, with a single hot water supply this with elec sheathed heating tapes, through which the warm Water kept constantly at the required temperature becomes. There is also a subsequent installation here not possible, and the installation costs as well Electricity costs are high because constant heating is required is.

Finally, from FR-PS 5 23 879 a Wasserver care system known according to the type of claim 1, in the hot water temperature controlled by a water Drain valve of a drain line is supplied to the temperature in the hot water pipe system on one hold predetermined value. The disadvantage of the known Arrangement is that the abge on the valve conducted water is lost, so that a corresponding System with constant water loss works.

The invention is therefore based on the object To create water supply system for buildings at of just a single hot water supply to the consumer  places is required and at which no water loss while maintaining a predetermined temperature occurs in the hot water pipe system.

This object is achieved according to the invention in connection with the features of the generic term solved by the characterizing features of claim 1.

As a result, it flows when the temperature falls below a limit Water from the hot water system in the Cold water pipe system and is not lost, so that a water and energy saving system with a single hot water supply is created. To Generation of the necessary pressure difference, for example A pressure reducing valve is expediently 2 bar switched into the cold water pipe system.

By the measures listed in the subclaims are advantageous further developments and improvements the water supply system specified in claim 1 possible.

The water drain valve can act as a temperature controlled control valve without auxiliary energy, for example as a mechanical or pressure-controlled servo valve be, the control stroke or the control pressure from the tempe rature sensor can be generated. There are no external ones Line connections required.  

However, the drain valve can also be an electrical one Servo valve and the temperature sensor as electrical Be designed sensor. Here is an elek Electrical power supply required, but increased the switching accuracy, and more open up Control functions. So can the duty cycle Timing valve (opening time) of the water drain valve be provided, in particular between the temperature sensor and the water drain valve is switched. This can reduce energy costs. At the same time, this timer serves as security Direction against a defective temperature sensor.  

Furthermore, the opening of the water drain valve can Time switch preventing during predefinable time intervals device may be provided. This will be convenient with the timer via a logical link, in particular an AND gate, linked. With the help of the timer device can turn on the water drain valve example wise during the night when no warm water is needed will be prevented.

To further reduce the installation effort the water drain valve with the required inlet and outlet lines in an advantageous manner than at a consumer place trained installable unit. This can then in a hot water pipe or in a hot and cold water pipe can be used at a consumer point. This unit can optionally control and / or Include the sensor part so that no further installations required are. However, the sensor can also be used Improve the control characteristics in a larger one Distance from the drain valve.

The limit temperature at which the water drain valve automa table is turned on, is preferably substantially 40 ° C. Last but not least, of course depending on which water temperature is desired and which Temperature of the hot water through the central hot water water preparation system is heated.

Embodiments of the invention are in the drawing  shown and in the description below explained. It shows

Fig. 1 is a schematic representation of an entire set of water supply system with three consumers,

Fig. 2, a water drain valve in a unit for installation in a hot and cold water line and

Fig. 3 is a block diagram of an electrical control for a water drain valve for installation in a hot water pipe with a water drain connection.

In the water supply system shown in FIG. 1, water is supplied to a building via a main water pipe 10 . In this a pressure limiter valve 11 is connected, which limits the pressure to 6 bar, for example. The main water pipe 10 branches via a check valve 12 , 13 to a cold water pipe system 14 and a hot water pipe system 15 . The cold water line system 14 opens at three consumer points 16 - 18 each at a cold water tap 19-21 . Such consumers represent 16-18 can be, for example, sinks, bathtubs or showers that are shared on different floors. The hot water line system 15 is based on a central domestic hot water preparation system 22 , which can be electrical, gas heating, oil heating, district heating or the like, and opens at the consumer points 16-18 at a hot water tap 23-25 .

The above description relates to a known water supply system, as it is used and found in many ways. The hot water line system can also be provided with a pressure expansion tank, not shown, and / or a pressure relief valve. The cold water line system can also have further cold water connections 26 , for example for garden lines, washing machines or the like. The number of consumer points is not limited.

In such a water supply system of water drain valves now be switched at the user points 16- 18 between the hot water piping system 15, the cold-water line system 14 and 27-29. These water drainage valves 27-29 are electrically controlled valves in the system shown. Temperature sensors 30-32 are attached to the respective feed lines of the hot water line system 15 in the vicinity of the water drain valves 27-29 . Depending on the temperature signal, the water drain valves 27-29 are controlled in such a way that when the temperature falls below a predetermined limit, for example 40 ° C., the corresponding valve opens, so that water flows from the hot water pipe system 15 into the cold water pipe system 14 . This is only possible in that a lower water pressure prevails in the cold water line system, which is generated by a pressure limiting or differential pressure valve 33 switched on at the inlet in this cold water line system. For this purpose, for example, a pressure reduced by 2 bar, ie a pressure of 4 bar, is set. So that water can flow into the cold water line system 14 , an expansion tank 34 is further connected to the cold water line system 14 , which receives the supplied water. The respective water drain valve 27-29 remains open until the limit temperature at the temperature sensor is reached or exceeded again. In this way, warm or hot water is always immediately available.

Alternatively, or in addition to the expansion vessel 34 and a pressure relief device may be provided, via which the inflowing water can flow, at least when an upper threshold pressure is reached, that is, if more water is flowed, can absorb than the expansion tank 34th

Instead of several water drain valves 27-29 , in the simplest case, only a single water drain valve can be provided at the consumer point, which is the farthest away from the central domestic hot water preparation system 22 . It is assumed that the main supply line for the warm water is routed past all consumer points.

Instead of the electrical control of the water drain valves 27-29 , a mechanical control or a pressure control can also take place, a suitably designed temperature sensor then generating the control stroke or the required control pressure.

Thus, if necessary, arranged in the individual floors Nete cold water meter when opening a water drain valve not counting backwards, you must either use one appropriate bypass line must be provided or must be so is that counting down is not possible.

In Fig. 2 an installable bare assembly 35 is shown, which includes a water drain valve 44 . Also included are a hot water through line 36 and a cold water through line 37 which are connected to each other inside via the water drain valve 44 . The hot and cold water passage lines 36 , 37 are provided on the outside of the housing with corresponding hot water inlet and outlet connections 38 , 39 and cold water inlet and outlet connections 40 , 41 , so that the unit 35 after removal, correspondingly longer Pipes from the cold water pipe system 14 and the hot water pipe system 15 can be instal easily installed. The unit 35 is expediently downstream of wall valves 42 , 43 , via which the hot and cold water supply to the individual consumer generally takes place.

The water drainage valve 44 shown in FIG. 2 is designed as a pressure-controlled valve, a pressure line 45 leading to a temperature sensor 46 at the hot water inlet. As already stated, this temperature sensor 46 can also be located further away, ie outside the construction unit 35 .

The block diagram shown in FIG. 3 represents one of the electrical temperature sensors 30 , which is connected via a monostable timer 50 to an input of an AND gate 51 , the second connection of which is connected to a timer 52 . The output of the AND gate 51 is connected via a switching amplifier 53 to one of the elec trically controlled water drain valves 27 .

If the predefined limit temperature of, for example, 40 ° C. is undershot, the temperature sensor 30 emits a corresponding signal by which the monostable timer 50 is triggered and controls the water drain valve 27 for a predetermined time via the AND gate 51 and the switching amplifier 53 , so that it is opened for the specified time. In this way, excessive drainage of water is prevented, so that there is also security against the temperature sensor 30 becoming defective. The control of the water drain valve 27 is, however, only when the timer 52 allows it. Through this timer 52 times can be given who the during which no water drain is allowed. These are, for example, night times when little warm water is required and a correspondingly longer waiting time is reasonable. The corresponding times can be set.

The different types of building units can be self understandable optionally with different controllable Valves. The can Temperature sensor inside or outside of such Unit be arranged. The installation location for one of the like assembly is also not on the specified Installation location limited, but may vary depending on the expediency be selected in the area of a consumer agency. So is also a combination with the Faucets, for example a shower, possible.

Claims (15)

1.Water supply system for buildings, with a cold water line system and a hot water line system starting from a central hot water preparation system, consumer stations each having a cold water line and a hot water line and the hot water line system ( 15 ) having a controllable water drain valve ( 27 - 29 ; 44 ) is provided, which can be put into the open state by a temperature sensor ( 30 - 32 ; 46 ) arranged on the hot water pipe when the temperature falls below a predefinable limit temperature, characterized in that the water drain valve ( 27 - 29 ; 44 ) is arranged in the area of at least one consumer point and opens into the cold water line system ( 14 ) that means ( 33 ) for generating a pressure difference between the hot water line system ( 15 ) and the cold water line system ( 14 ) is provided such that the hot water pipe system has a higher pressure than the cold water pipe system, and that the cold water pipe system ( 14 ) with an expansion tank from ( 34 ) and / or a pressure relief device is seen ver. 2. Plant according to claim 1, characterized in that a pressure limiting or differential pressure valve ( 33 ) is connected as a means for generating the pressure difference in the cold water pipe system ( 14 ). 3. Plant according to claim 1 or 2, characterized in that the water drain valve ( 44 ) is designed as a mechanically or pressure-controlled servo valve, wherein the control stroke or the control pressure from the temperature sensor ( 46 ) can be generated. 4. Plant according to claim 1 or 2, characterized in that the water drain valve ( 27 - 29 ) is designed as an electrical servo valve and the temperature sensor ( 30 - 32 ) as an electrical sensor. 5. Plant according to claim 4, characterized in that a the duty cycle (opening time) of the water drain valve ( 27 - 29 ) limiting timer ( 50 ) is provided. 6. Plant according to claim 5, characterized in that the timer ( 50 ) between the temperature sensor ( 30 ) and the water drain valve ( 27 ) is connected. 7. Installation according to one of claims 4 to 6, characterized in that an opening of the water drain valve ( 27 ) during predeterminable time intervals preventing time switching device ( 52 ) is provided. 8. Plant according to claim 7, characterized in that the timing element ( 50 ) and the time switching device ( 52 ) via a logic element ( 51 ) are linked together. 9. Installation according to one of claims 4 to 8, characterized in that a switching amplifier ( 53 ) is connected upstream of the water drain valve ( 27 ). 10. Installation according to one of the preceding claims, characterized in that the water drain valve ( 44 ; 27 ) with the necessary supply and discharge lines is designed as a unit ( 35 ) which can be installed at a consumer point. 11. Plant according to claim 10, characterized in that the structural unit ( 35 ) also includes the control and / or sensor part ( 46 ; 30 ). 12. Plant according to claim 10 or 11, characterized in that the structural unit ( 35 ) each has a cold water inlet and outlet connection ( 40 , 41 ) and a hot water inlet and outlet connection ( 38 , 39 ). 13. Plant according to one of the preceding claims, characterized in that a check valve ( 12 , 13 ) is arranged on the input side of the cold and hot water pipe system ( 14 , 15 ). 14. Plant according to one of the preceding claims, characterized in that the limit temperature essentially Lichen is at 40 ° C. 15. Plant according to one of the preceding claims, characterized in that the pressure difference essentially is less than 2 bar.