DE2917845A1 - Domestic refrigerator-freezer with heat exchanger - is used for service water heating and cooperates with hot water storage - Google Patents

Abstract

The heat radiating exchanger (18) is incorporated in a heat insulated hot water storage vessel (15) in a manner enhancing heat convection into the water. In addition a heat conductor system (14, 23) is incorporated, which is fully switched on at an almost max. temp. rated for the water storage vessel. When this temp. has considerably dropped under the rated value it is fully switched off, or at least to the greater extent. Pref. the heat conductor system consists of a known heat exchanger (14) radiating to the ambient atmosphere and connected behind the heat exchanger (18) incorporated into the hot water storage vessel, in the direction of the flow (22) of the vaporised medium of the cooling machine. Alternately, the heat conductor system is formed by suitably communicating two hot water storage vessels. This conductor system may contain a thermostatically controlled solenoid valve, whose excitation current is switched by a thermostatically controlled contactor.

Description

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Brnst Hoffmann, Dipl.-Ing., Im Defdahl 311, kS Dortmund 1 Household refrigerated cabinet or freezer

The invention relates to a household refrigerator or a freezer, the heat to be given off for generating warm water can be used. Ek is known to eich and also obvious, the heat to be given off by very large cooling units for heating purposes or to generate hot water to use. One difficulty is that the amount of heat given off by the cooling unit depends exclusively on each. required cooling and in no way matched to the respective needs of the hot water supply is. For this reason it is not possible to do that Cooling and water heating simply go hand in hand to couple, as there is z. B. the cooling would fail if, purely by chance, no warm Vaster is consumed. With very large cooling units, it is worthwhile for such extreme cases also to build in complicated auxiliary equipment to avoid a failure to avoid. Pur smaller devices, such as B. Haushal refrigerators or freezers, complicated auxiliary equipment could not prevail, which is why the one to be handed in Heat has not yet been used.

The invention is based on the object to be delivered Heat from domestic refrigerators or freezers for

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use a hot water supply so ru that one temperature of the warm water is achieved, which is only slightly below the temperature of the evaporated medium of the cooling unit and it is also ensured with technically simple means that the cooling unit cools sufficiently in any case, even if no hot water is used.

This object is achieved in that the heat exchangers emitting the heat are used for the supply of hot water heat-insulated water storage is built in a heat transfer-promoting manner to the water and also a drainage device for the heat that is grown at the maximum or slightly lower specified target temperature the water tank is fully switched on and at a temperature of the water tank that is significantly below the maximum Setpoint temperature is completely or mostly switched off. Particularly easy and reliable the dissipation device for the heat is developed in that it is connected to a heat exchanger known per se There is release of heat to the ambient air, and this Heat exchanger the heat exchanger attached to the water tank in the direction of flow of the evaporated medium of the Kiihlaggregates seen, is downstream. By switching on the full heat released during condensation is first transferred to the water in the water storage tank and only then when the temperature of the water tank is so high that the steam from the evaporated medium of the cooling unit does not ■ or condensation, the steam continues to flow into the discharge

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device designated heat exchanger, where then the Daapf only condensed.

The discharge device is warmed up for preheating Water sharing, vnJ it has a balancing effect at power peaks if it is designed in such a way that it consists of at least one upstream of the first water reservoir, seen in the direction of flow of the warm water there is a second water storage tank, the walls of which give off the heat directly to the ambient air and which also as the first water storage tank contains a heat exchanger for the vaporized medium to the water.

Especially with somewhat larger devices, such as B. Freezers, is another design of the discharge device advantageous. This is characterized by the fact that it a thermostatically controlled valve for supplying cold water to the water tank, while at the same time the corresponding slope hot water drains. In the case of water storage tanks that are used for the normal pressure of the household water pipe are built, the thermo -atic valve is a drain valve and so-called low-pressure tanks are Inflow valve, and the warm water flows there, as is well known through an overflow. Oaβ thermostatic ^ valve can, As is known per se, they can be driven directly by a medium which expands when the temperature rises. 1 · is advantageous, however, and the · thermostatic «valve is less susceptible to malfunctions because ·· a

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Solenoid valve iat, the excitation current of which is sent to a water storage tank built-in thermostatic on and off switch is switched on and off.

The present invention has the advantage that with simple means insensitive to interference, the water temperature isi water storage can be brought to over k5 ° C, and the energies are so well utilized that even small refrigerators the heat for slightly larger amounts of water, such as. B. used for showers * can deliver. Because of the high water temperature, the water is also suitable in the kitchen for dishwashing water.

An embodiment of the invention is shown in the drawing and is described in more detail below «Es Figures 1 to 3 show a refrigerator with different designs of discharge devices.

The refrigerator H has, as usual, the motor-driven compressor 12, the evaporator 13 and the heat exchanger 1h. According to the invention, the water storage 15 is still set on the refrigerator H. This has two water connection nozzles, of which one nozzle 16 serves as an inlet and the nozzle 17 serves as an outlet. The nozzles 16 and 17 are connected in the usual way to a water line. From the compressor IS, the line 19 leads upward into the water reservoir 15, containing the evaporating means of the cooling circuit, whereby a heat exchange 18 is formed in several turns. Of the

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Heat exchanger 18 is connected to the upper end of heat exchanger 1 * 1 via line 20. From the lower part of the heat exchanger 14, the line leads, as usual, via a throttle 21 into the evaporator 13 and from there back into the compressor 12, whereby the circuit of the evaporating agent is closed. The water storage 15 is thermally insulated, which is not shown in the drawing. Since the water storage 15 always has some heat losses despite the thermal insulation, the heat exchanger lk does not need to be built as large as is customary in refrigerators with the same cooling capacity. The evaporating agent has its highest temperature when it flows from the condenser 12 in the direction of the arrow 22 to the heat exchanger 18. It gives off the heat there to the water of the water reservoir and condenses in the process. As soon as the water reservoir 15 has reached its maximum target temperature, the evaporating agent can no longer condense in the heat exchanger 18 because of the excessively high temperature and it flows on to the heat exchanger. l4, where it then condenses. The heat exchanger \ k is cooled by the ambient air.

In Fig. 2, the heat exchanger ik does not give off its heat directly to the ambient air, but first to the water reservoir 23, which is not thermally insulated, so that the heat flows from the latter to the ambient air. By water storage 23, viewed in the direction of flow of the warm water, the water storage 15 is connected upstream, so that the water that runs into the water storage 15 is usually already somewhat preheated. - 8th -

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The water reservoir 23 has such a large surface that is not heated that it can dissipate the heat normally generated during cooling even when no warm water is consumed. The cold water of the water pipe flows into the water reservoir 23 via the inlet 2k.

The heat exchanger ld or as a heat exchanger functional water storage tanks 23 can be saved entirely, if the consumption of warm water is too low and the heat supply from the cooling unit is too high, it is switched on artificially small water consumption is generated. This is done in Fig * by the solenoid valve 25 "that when the temperature of the Water reservoir 15 is opened and per hour one liter of cold water into the water reservoir 15 from the supply line lets flow. A corresponding amount of water is passed through an overflow line in a known manner in the case of low-pressure accumulators discharged. The line to the solenoid valve 25 is so greatly reduced by a throttle hole that only a little per hour Water flows. The solenoid valve 25 is activated by the thermostatic switch 26 located on the water tank 15 on and off. It is of course possible that instead of the solenoid valve 25, a thermostatic valve controls the flow of water directly. In the embodiment according to the Pig. 3 it is useful if the water tank is only slightly thermally insulated, so that the heat loss on the water tank 15 is sufficient for the normal case of cooling and the solenoid valve 25 opens only in extreme cases, .do that im On average, there is very little water consumption.

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The water reservoir 15 can of course also be connected to another Place as drawn on the fridge or z. B. also be placed separately from the refrigerator. Rs can of course also be combined with an additional electrical heating in the water tank 15 possible.

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I ι · · * refrigerator W. compressor 12th Evaporator 13th Heat exchanger i 1Ί Heat storage 15th Support ι6)
17) Heat exchanger 18th management 19th management 20th Throttle! 21st arrow 22nd Water storage (second) 23 Intake 24 magnetic valve 25th Thermostat switch 26th Cold water inlet pipe 27

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Claims (1)

2917345 Irnat Hoffmann, Dipl.-Ing., Im Defdahl 311, 46 Dortmund ι Claims Domestic refrigerator or freezer d adby characterized in that the heat exchanger (18) emitting the worms is connected to a ; Heat-insulated water storage tank (l5) serving hot water supply is built on to the water in a manner that requires heat transfer is and also a · discharge device (1A, 23, 25) for the WMrme is grown at the maximum or slightly below specified target temperature of the water storage tank (l5) fully switched on iat and at a temperature of the water storage tank (15), which is well below the maximum target temperature is completely or for the most part switched off. Domestic refrigerator or freezer according to claim 1, characterized in that the dissipation device for the heat consists of a heat exchanger (l4) known per se for releasing the worms to the ambient air and this heat exchanger (l%) is the heat exchanger (l8) attached to the water tank (l5) viewed in the flow direction (22) of the evaporated medium of the cooling unit, is connected downstream. Hruahaltaktdühlkammer or. Freezer according to the requirements 1 and 2, characterized in that the discharge device also has at least one «, seen in the direction of the flow of hot water the first water reservoir (15) upstream of the second water reservoir (23), whose container wall · the heat 030046/0227 directly to the ambient air and, like the first water storage tank (l5), a heat exchanger for the evaporated Contains medium. Domestic refrigerator or freezer according to claim 1 characterized in that the dissipation device for the heat from a thermostatically controlled valve (25) to There is a supply of cold water to the water tank (l5)] Household refrigerator or freezer according to claim k characterized in that the thermostatically controlled valve (25) is activated directly when the temperature rises expanding agent is driven. Domestic refrigerator or freezer according to claim k, characterized in that the thermostatically controlled valve is a solenoid valve (25), the excitation current of which is switched on and off by a thermostatic on and off switch (26) attached to the water tank (15). 030046/0227