DE2149885C3 - Liquid heater for heating two or more separate liquids - Google Patents

Description

The invention relates to a liquid heater for heating two or more separate Liquids, with an evacuated, partially filled with an evaporable liquid heated, subdivided Container and arranged therein heat exchangers that can be heated independently of one another.

Such liquid heaters, which work according to the so-called "vacuum evaporation principle", are already in existence known, so z. B. from DE-AS 12 70 258 and FR-PS 20 37 961. They are used in particular as a water heater, at least two heat exchangers are provided, one of which for Heating the water of a circulation heating system is used, the other is designed as a boiler and for Domestic water heating is used. The heating fluid can, for. B. also be water. Such water heaters have various decisive factors compared to water heaters of other designs Benefits on.

To avoid malfunctions, the temperature of the boiler water should not exceed the limit at which to a large extent mineral deposits, in particular calcium deposits begin to form. The latter would otherwise lead to the well-known disturbances in the connected line system lead, in particular to clogging of the pipes and the valves of mixer taps. For longer The interruption in the consumption of Boiier water during the heating season was previously an increase in the Temperature of the boiler water above the critical limit for the elimination of minerals, if necessary up to the temperature of the heating steam, e.g. B. 95 ° C, not to work around.

In addition, the temperature of the boiler water has not changed directly during the heating period but only indirectly, i.e. H. by adding cold water.

From US-PS 32 26 941 a device for cooling a klystron is known uie the heat dissipated by the klystron in one or more evaporators a vaporizable liquid, z. B. Freon, evaporated The steam arrives through a gas line that can be shut off by means of a shut-off device the condensers, where it condenses and the heat released is released into the air. That Condensate flows through one or more condensate lines returned to the evaporators in a closed circuit. The whole facility however, works under overpressure, and in contrast to the object of the present invention is intended here not the temperature of the condensers, but that of the evaporator, and thus of the one to be cooled Klystrons, are regulated. If the temperature of the evaporator is to be increased, the shut-off device is activated closed, and the vapor of the initially still evaporating liquid displaces the rest of the Liquid from the evaporator, with which the cooling effect is ended until the shut-off device opens again and the liquid can flow back into the evaporator. The purpose of doing this is that to keep the temperature fluctuations of the evaporator caused by the regulation as small as possible. In order to the system can function according to the mentioned publication, care must also be taken.

that not vapor and liquid through the same line in the opposite direction between evaporator and condenser can flow. However, this is according to a preferred embodiment of the invention Liquid heater just the case.

The invention is based on the object of controlling the temperature of the boiler water independently of the temperature of the heating medium steam in such a way that mineral precipitations are prevented.
This is done according to the invention in that the parts of the evacuated container enclosing at least one heat exchanger can be separated by a shut-off element, the shut-off element being automatically controllable or program-controlled by means of a temperature sensor arranged in or on the separable heat exchanger or in or on a pipe connected to it .

In this way, the temperature of the liquid heated by the heat exchanger in question regardless of the temperature of the heating medium and the flow rate within relatively wide limits Vary in such a way that the temperature of the boiler water never in particular lime precipitation, exceeds critical limit.

At least one of ^fi 5 arranged in one of the container parts heat exchanger shall "in AEII manner known per se be formed as a boiler.

The individual parts of the evacuated container can

from each other by a simple partition, which has a relatively narrow passage opening provided and can be closed middle of the shut-off element, be separated.

Appropriately, however, is the heat exchanger part or the heat exchanger parts from the heating part the combustion chamber structurally separated and with this only by at least one by means of the shut-off element lockable connecting pipe connected, which is preferably designed to be separable by means of a flange connection. In this way, the individual Parts of the liquid heater .are manufactured and transported separately. The ones for the installation of the system in Wall openings required in a building can be kept correspondingly smaller, and for repairs the whole system does not need to be dismantled, but its parts can be dismantled individually be replaced.

Some exemplary embodiments of the liquid heater of the present invention are shown below according to the drawing where it is shown are shown, explained in more detail It shows

Fig. 1 shows a first embodiment with an over the combustion chamber arranged boiler part, which from the other parts of the evacuated container by a with a dividing wall provided with a shut-off device which can be closed by means of a shut-off element is separated,

Fig. 2 another type of shut-off device for the in F i g. 1 illustrated embodiment,

F i g. 3 shows a detail of the shut-off element construction Fig. 2 and

F i g. 4 shows a second embodiment with a boiler part arranged above the combustion chamber, which is controlled by the remaining parts of the evacuated container is separated by a connecting pipe.

Corresponding parts are provided with the same transfer symbols in all figures.

The liquid heater shown in Fig. 1 has one by the heat source 1, e.g. B. by gas, heated combustion chamber 2. This is formed by the lowest, filled with water 3 part of the evacuated container 4, the vapor space through which with a Passage opening 5 provided partition 6 is separated into two parts: the heating part 4Λ and the boiler part

ίο AB. In the heating part AA , the heat exchanger 7 of a circulation heating system is arranged, to which the return R is fed and the flow V is removed. In the boiler part AB designed as a boiler heat exchanger 8 is provided on which a feed pipe 9 for

5 fresh water and a discharge pipe 10 for hot water are arranged. To close the passage opening 5 in the partition 6 is a plate valve 11 from formed shut-off device provided, which by the arranged on the heat exchanger 8 temperature sensor 12 is actuated.

The exhaust gases escape from the combustion chamber 2 through the chimney 13.

In the case of the in FIG. 2, the temperature sensor 14 is designed as a bimetallic spiral This actuates a shut-off device which is provided with openings and is designed as a rotary slide valve 15, which, as in Fig. 3 shown in detail, cooperates with passage openings 16 in the partition

In the embodiment shown in FIG. 4, the heating part AA is structurally separated from the boiler part AB and is only connected to it by a pipe 17. This is provided with a flange 18 so that it can be separated and shut off by means of a shut-off element 19 which is actuated by the temperature sensor 20.

For this purpose 3 sheets of drawings

Claims (5)

Patent claims: 1. Liquid heater for heating two or more separate liquids, with an evacuated, partially filled with a vaporizable liquid, heated, subdivided container and arranged therein, independently heatable heat exchangers, characterized in that the at least one heat exchanger (7, 8) enclosing parts (4Λ, 4B) of the evacuated container (4) can be separated by a shut-off element (11, 15, 19), the shut-off element by means of an in or on the separable heat exchanger (8) or in or on one connected to it Pipe (10) arranged temperature sensor (12, 14, 20) is automatically controllable or program-controlled. 2. Liquid heater according to claim 1, characterized in that at least one of the heat exchangers (S) arranged in one of the container parts (4B) is designed in a manner known per se as a boiler. 3. Liquid heater according to claim 1 or 2, characterized in that the container parts (4A, 4B) are divided by a partition (6) provided with a passage opening (5, 16). 4. Liquid heater according to one or more of claims 1 to 3, characterized in that the container parts (4Λ 4B) are connected by a pipe (17) provided with a shut-off device (.3). 5. Liquid heater according to claim 4, characterized in that the Rohrlc'ümg (17) consists of two is composed of pipes provided with flanges (18).