DE29810022U1 - Stratified storage - Google Patents

Description

Rapido Heat Technology GmbH

Stratified storage

The present invention relates to a stratified storage tank with a water tank according to the introductory part of the independent claim.

Such stratified storage tanks are commercially available and, when equipped with a heating element, are used to heat limited amounts of water inside the storage tank, preferably in its upper part.

In addition, such storage tanks are also used as buffer storage tanks. In these buffer storage tanks, heating water is stored in order to heat the heating system of a house or cold water in a domestic water tank. The purpose of a buffer storage tank is essentially to store heat energy at times when this energy cannot be generated or supplied, for example in solar systems during the night or during hours of weak sunshine. In addition, buffer storage tanks have the advantage for heat generators heated with liquid or gaseous fuels or with electricity that they significantly reduce the switching frequency of the heat source, i.e. the burner or the heating element. The heat generator therefore works for a relatively long time, sometimes ¹ /2 to 1 hour without interruption, and charges the buffer storage tank. After this, the heat generator is also idle for long periods because the heating system is

Heat is supplied from the water and energy from the buffer storage. Only when this is discharged is the heat generator switched on again.

If buffer storage tanks are combined with different charging options, for example with boilers or similar heat generators and additionally with solar collectors and/or heat pumps, the water is fed into the buffer storage tank at different temperature levels. Care must be taken to ensure that the stratification in the buffer storage tank between warmer and colder water layers is not disturbed. If this happens, the stratified storage tank no longer works.

It is therefore the object of the present invention to provide a stratified storage tank of the type described in more detail above, in which it is possible to feed the water fed into the stratified storage tank into the height range of the stratified storage tank so that its temperature corresponds to the temperature of the incoming water.

This problem is solved in a stratified storage tank of the type described above by the characterizing features of the independent claim.

In this way, it is possible to feed water flows from a boiler or circulating water heater into the upper area of the stratified storage tank, since a high temperature can usually be expected here. Water flows fed in by a heat pump are generally at a slightly lower temperature level and water flows that come from a solar collector can only be at an even lower temperature level in times of weak solar radiation. These water flows are therefore fed into lower levels of the stratified storage tank.

In order to achieve the effect of a clean stratification in the stratified storage tank, it is known to provide heat exchangers at different heights of the storage tank, which are connected to the various heating elements of the stratified storage tank.

The invention makes it possible to feed water from a wide variety of heat suppliers into the storage tank using a single water inlet line, and the feed level is adjusted automatically.

Further embodiments and particularly advantageous developments of the invention emerge from the dependent claims. Two embodiments of the invention are explained in more detail with reference to Figs. 1 and 2 of the drawing.

Show it:

Fig. 1 is a sectional view of a stratified storage tank and Fig. 2 is a variant thereof. In both figures, the same reference numerals represent the same details.

The stratified storage tank according to Fig. 1 has a storage tank 1 surrounded by insulation (not shown) and an outer casing, the interior 2 of which is filled with water. A top 3 of the water tank is penetrated by an extraction line 4, which begins with its inlet 6 in the uppermost area 5 of the storage tank. The extraction line 4 leads either to a heating system in a house, consisting of radiators or an underfloor heating system and/or to a domestic water tank.

A bottom 7 of the storage tank 1 is penetrated by a water inlet pipe 8, which continues inside 2 of the storage tank 1 as a movable feed pipe 9. It has a mouth end 10. The water inlet pipe 8 is connected either to a cold water supply network or to a solar collector, a heat pump or a boiler.

or circulating water heater. A changeover valve can be provided so that several of these heat sources can be connected alternatively or together.

A temperature sensor 11 is arranged at the mouth end 10 of the feed pipe 9, which is connected via an electrical line 12 to a control element 13, which in turn operates on a servomotor 14. The servomotor 14 is connected to the mouth end 10 via a cable 15, which is preferably aligned so that it lets water out of the feed pipe 9 into the interior 2 of the container 1 in a horizontal direction. The feed pipe 9 is designed as a hose, a corrugated pipe or a sliding pipe in the area of the interior 2 of the stratified storage tank 1. This makes it possible to change the height of the mouth end 10 in the interior 2 by operating the servomotor 14.

The temperature sensor 11 signals the temperature of the water at the location of the temperature sensor 11 or the outlet end 10. A second temperature sensor 17 is arranged in the water inlet pipe 8 and is also connected to the control element 13 by a line 18. If there is a difference between the two temperatures measured by the temperature sensors 17 and 11, the control element 13 acts on the servomotor 14 in such a way that the outlet end 10 of the movable feed pipe 9 is moved at the height level 16 so that the temperatures are the same. This ensures that the water coming from the feed pipe 8 into the interior 2 of the container 1 is always fed in at the height level which corresponds in temperature to the temperature of the incoming water. This disturbs the stratification inside the stratified storage tank to a minimum.

The actuator 15 can be designed as a cable or as a rod. The actuator 14 can be arranged externally in the area of the insulation or the outer casing of the stratified storage tank, it can also be an underwater motor that is installed inside 2

of the storage tank. This saves you having to seal the actuator.

According to Fig. 2, it is also possible to design the inlet 6 of the hot water extraction line 4 so that it is height-adjustable. A second control element 13' is thus given a target temperature for the water in the extraction line 4, and the servomotor 14' moves this inlet 6 to the height level 16' that corresponds to the desired target temperature.

Claims (1)

Rapido Heat Technology GmbH Expectations Stratified storage tank with a water tank (1) and a water inlet line (8) opening into the latter and a hot water extraction line (4), characterized in that an outlet end (10) of the water inlet line (8) is arranged in a height-adjustable manner in the water tank (1). Stratified storage tank according to claim 1 , characterized in that a servomotor (14) is provided which is connected to the mouth end (10) by means of an actuator (15). Stratified storage tank according to claim 2, characterized in that the actuator (15) is designed as a cable or as a rod. Stratified storage tank according to one of claims 1 to 3, characterized in that a temperature sensor (11) is arranged at the mouth end (10) of the water inlet line (8), which is connected via a line (12) to a control element (13) for the servomotor (14). Stratified storage tank according to one of claims 1 to 4, characterized in that the water inlet line (8) is designed to be movable in its region located in the interior (2) of the storage tank (1). Stratified storage tank according to claim 5, characterized in that the water inlet line (8) consists of a corrugated pipe, a hose or a sliding pipe. Stratified storage tank according to one of claims 1 to 6, characterized in that an inlet (6) of the hot water extraction line (4) is also arranged in a height-adjustable manner in the interior (2) of the storage tank (1).