DE19910096C1 - Water, energy saving method for hot water supply systems involves temporarily storing output water, adding to mixer unit when output temp. reaches thermostatically regulated temp. - Google Patents

Abstract

The method involves feeding hot and cold water to the point of consumption (V) and mixing them under thermostatic control in a mixer unit (M). When the consumption point is turned on the water emanating from the mixer unit is first passed to a temporary store (ZS) whilst the temp. is below the thermostatically regulated desired temp. The water in the temporary store is added to the mixer unit when the water emanating from the mixer unit has reached the required temp.. An Independent claim is also included for an arrangement for saving water and energy for hot water supply systems.

Description

The invention relates to a method and an apparatus for Saving water and energy in hot water supply systems.

For hot water supply systems in buildings, in particular in residential buildings, hot water is supplied by a central boiler fed to the individual consumption points (tapping points) and issued there mixed with cold water. As long as the Ver the water cools the warmth water in the pipes. When opening the consumption So there is no hot water or at least not enough warm water available. Frequently therefore, when opening the point of consumption, first the water run unused into the drain until the desired one The target temperature of the water has been reached. This means one enormous waste of water and energy.

To cool the hot water in the piping system too prevent it is known to heat the water in a two-pipe circulate system so that the water does not stop and cools down. Even if there is no hot water at the point of use hot water is constantly needed in the entire pipe pipe system kept at high temperature. Due to the incomplete thermal insulation of the piping system this causes considerable energy losses. Also the consumption electrical energy from the circulation pump is considerable.

DE 35 22 344 A1 therefore proposes the circula tion pump of the hot water pipe only to be operated when hot water is drawn from a point of use, and the hot water temperature in the hot water network below the target temperature is. Is the hot water tap stopped or corresponds to the hot water temperature in the hot water network  Target temperature, the circulation pump is switched off. However, this does not solve the problem that First open the point of use under the hot water Target temperature emerges, which is then usually unused runs into the drain.

Furthermore, it has already been proposed (DE 36 22 139 A1, DE 37 23 089 A1, DE 44 41 271 A1, DE 195 18 910 C1) the consumption put a switch valve to assign, which when opening the Consumption point first the water output of this Ver locks the consumption point and that below the target temperature cooled water in the hot water pipe via a bypass pipe the cold water pipe conducts until the target temperature of the Hot water is reached. The installation of such a by pass line is expensive. Also, there is usually one additional pump necessary to cool the hot water in to initiate the cold water pipe.

Finally, cooling is known from DE 44 06 150 A1 to avoid the hot water in the hot water network, that the hot water piping into a storage tank be emptied when there is no hot water at the point of use is needed. If a premise is opened, then the hot water pipe network is filled again from this storage. This system is extremely complex and can only be found at Neuin installations are used.

The invention is based on the object of a method and 14 a device for saving water and energy in hot water To provide supply systems, which cost is cheap and easy retrofitting of existing ones Hot water supply systems enabled.

According to the invention, this object is achieved by a method with the features of claim 1 and by a device with the features of claim 2.  

Advantageous embodiments of the invention are in the Subclaims specified.

The basic idea of the invention is when opening the Consumption point is the water, which is not yet the thermo statically predetermined target temperature, not in the drain to flow, but to lei in a buffer As soon as the hot water supplied to the point of consumption Has reached the target temperature, this can be stored in the buffer conducted water, whose temperature is below this target temperature door is fed back into the mixer tap and used the.

The cooling of the hot water in the hot water pipes thus affects use at the points of consumption Not. No measures are necessary to keep the hot water in the pipes constantly at the high target temperature hold. Because the water only comes out of the point of consumption occurs when the thermostatically predetermined target temperature is reached, it is no longer necessary to open the The point of consumption first unused the water in the drain let flow until the target temperature is reached. There not only does it waste water counteracted, but also a waste of energy.

The cache only needs to be comparatively small Have volume to hold the amount of water that is on falls until the target temperature is reached. Such an intermediate Storage tanks with a volume of approx. 2 liters can be a problem los decentrally installed directly at the point of use become. The device according to the invention is therefore suitable in particular for inexpensive retrofitting of hot water supply systems.

Because the water fed into the temporary storage immediately is used and mixed with the outflowing water, the clipboard is empty during breaks in use. It be  there is therefore no risk of nucleation or bacterial development winding (see Legionnaires' disease) in the buffer. The water flowing out of the point of consumption always has hygienically perfect drinking water quality.

In the following the invention with reference to one in the drawing illustrated embodiment explained in more detail. The one Zige figure shows schematically a device for energy saving ren according to the invention.

The device according to the invention is decentralized to the current consumption point V of a hot water supply system of a building or a floor. The is preferred Use of the device in showers.

The device has a thermostatically controlled Mixer tap M on, the hot water from the hot water supplier supply system via a hot water line W is supplied. The Hot water line W is generally a branch line Two-pipe hot water circulation system or one-pipe warm water supply. Next the mixer tap M becomes cold water supplied via a cold water line K.

The water emerging from the mixer tap M is over a also switchable thermostatically diverting valve U to the Consumption point V issued.

The diverter valve U can come from the mixer tap M. Water switchable to the point of consumption V or to one Conduct buffer ZS. That in the intermediate storage ZS Collected water can preferably by means of a pump, e.g. B. a water jet pump in turn fed to the mixer battery M. become. The intermediate storage ZS, which has a volume of one to a few liters, is preferably with a provided upper ventilation.

The device works as follows:  

The mixer tap M is adjustable before and during removal a target temperature with which the water at the Consumption point V should emerge. If the point of consumption V open, e.g. B. the tap of a shower turned on, flows Hot water via the hot water line W and cold water via the cold water line K of the mixer tap M to. That in the Mixer tap M mixed water flows to the diverter valve U. Does not have the water emerging from the mixer tap M yet the set target temperature is reached because the water in the hot water line W has cooled, so the thermostatic control switched the diverter valve U so that the water flows into the intermediate storage ZS and there is collected. Has that emerging from the mixer tap M Water reaches the set target temperature, so it will Diverter valve U switched thermostatically and directs it Water from the mixer tap M to the point of consumption V. An the point of consumption V therefore only exits water when this water has the set target temperature. After this Switching of valve U for output via consumption place V is the stored in the buffer ZS Water whose temperature is below the set target temperature rature lies on the mixer tap M again that of the Ver need point V added water.

Claims (4)

1. A method for saving water and energy in hot water supply systems, in which the point of consumption warm water and cold water are fed and mixed thermostatically controlled by a mixer tap, characterized in that when the point of consumption is opened, the water emerging from the mixer tap is first passed into a buffer store is as long as the temperature of this water is below the thermostatically predetermined target temperature, and that the water collected in the intermediate storage is mixed via the mixer tap when the water exiting the mixer tap has reached the predetermined target temperature. 2. Device for saving water and energy in hot water Supply systems, with one assigned to the point of consumption neten thermostatically controlled mixer tap, the hot water and cold water is supplied, characterized in that the ver a buffer (ZS) is assigned to the location (V), in which the water from the mixer tap (M) is collected, when the temperature of this water is below the thermostatic set temperature of the mixer tap (M). 3. Device according to claim 2, characterized in that between the mixer tap (M) and the point of consumption (V) thermostatically controlled diverter valve (U) is switched, which is the water emerging from the mixer tap (M) Consumption point (V) supplies when this water the thermo statically predetermined target temperature, and the intermediate memory (ZS) feeds when the temperature of this water is below the target temperature. 4. Apparatus according to claim 2 or 3, characterized in that the interim  each store locally at the point of use (V) is installed.