DE4336837A1 - Warm-water inflow control method for microprocessor-controlled domestic dishwashers and washing machines - Google Patents

Abstract

In a known water-supply arrangement for domestic appliances, cold, warm or hot water is fed to a washing machine from three separate delivery conduits controlled via solenoid valves. The solenoid valves are actuated in a programme-dependent manner; specifically independently of the water temperatures actually prevailing in the supply systems. Standing water cooled in the delivery conduits has little heat content and is likewise also introduced. In the method according to the invention, cooled mains feed water is rejected altogether and is used only when the temperatures are sufficiently high for a washing or rinsing process. By means of the electrical house BUS installation technique, consumers are informed of the heat content and temperature of the supply arrangement itself and of the appliance water feed conduit. Microprocessors within the appliance decide whether the use of external warm water affords energy advantages in relation to internal heating. The method according to the invention can be employed in electronically controlled domestic washing machines and dishwashers which, moreover, are designed for warm-water and/or cold-water connection.

Description

The invention relates to a hot water supply Control process for microprocessor-controlled household Dishwashers and washing machines according to the generic term of Claim 1.

Household dishwashers or washing machines for connection hot and / or cold water is always used when warm water is available cheaply. This is for example with external hot water supplies renewable energy sources such as solar or Heat recovery systems or when using Heat pumps the case. The device is supplied depending on the program.

DE 30 23 355 A1 is a "Water supply facility, especially for Household appliances "known. This is a washing machine from three separate solenoid valves Water supply lines of different temperatures specified, namely: cold, warm or hot water. As warm or Hot water suppliers come here Heat recovery system and a stand storage with integrated heat pump for use. The stand storage is can also be operated using conventional oil heating. Said solenoid valves are switched depending on the program.  

The water-related installation effort required for this is considerable and requires very long pipeline routes correspondingly high cooling losses, d. H. the in the The amount of first water flowing into the washing machine is still relative cold or low in heat. The required Afterheating must take place in the device itself, so that a Electrical energy savings in most cases questionable remains. This is especially the case if due to the program, little hot water is required. also the water supply takes place independently of the actually prevailing hot water temperature, d. H. at If the external heating fails, the device only gets cold Water offered.

In modern electrical installation systems they come from the Communications systems originating also in Living areas more and more for use. The ability the electrical house installation is around the area of information processing expanded. By additional Information, data, commands, etc. can be an optimal one Operation can be ensured for the user. (Out HEA picture service, series: home automation / installation bus system. October 89 edition).

With the help of the BUS technology, the central can now Hot water supply systems are currently available standing amount of hot water (l) or its heat content (KJ) exactly recorded, registered and called up.

The invention has the task of a hot water supply To create control procedures with its help external hot water use and using the named BUS technology is optimized so that the Own energy expenditure for water reheating in washing and Dishwashers is reduced to a minimum.  

This object is achieved according to the invention by the characterizing features of claim 1 solved. Further advantageous embodiments of the invention are the See subclaims.

The advantages that can be achieved with the invention result already from the type of task, namely in the optimal use of a hot water connection for Saving electrical energy; d. H. electrical power is largely due to low-carbon heat Carrier replaced.

The method according to the invention is described below of an embodiment explained in more detail:

The warm outlet of a renewable energy source supplied central hot water system, for example in The form of a pressure level accumulator is, among others, that of Inlets of the household appliances in question, one electronically controlled washing machine and one too electronically controlled dishwasher connected. The electrical installation for this is in Bus technology implemented and therefore not only limited on pure supply and switching but has one Multiple use of information in different places.

The first basic idea of the solution according to the invention is therein, external hot water for a washing or rinsing process to be introduced into the respective household appliance only when it at the tapping points with sufficiently high temperatures Available. That cooled down in the device supply line Stand water is either discarded and directly into the Drainage system initiated or it can in washing machines find use as so-called "ballast water". Ballast water flows into special device reservoirs and  replaces the unbalance attached to the tub Counterweights. For this purpose, changeover valves or Controlled water switches, which also prevent Hot water in the washing machine through the Detergent dispenser and dishwasher the water softening system flows. Otherwise, would important consumption parameters, such as Washing powder, fabric softener, ion exchange masses negative influenced. To avoid unnecessarily high loss of water avoid (or the discharge into the drainage system limit discarded water to a minimum) the rising inlet water temperatures become permanent monitored and water switches at the appropriate time and Changeover valves controlled again. Another Possibility of no inlet temperature registration requires consists of one, based on experience based or empirically determined and preset To be discarded as a lump sum for the fixed water supply. These Flat rate of water can be used by the user if necessary adjust yourself or the changing circumstances to adjust.

The second basic idea according to the invention is that both the washing machine and the Dishwasher Information regarding the existing heat content are transmitted, d. H. both Devices are continuously informed about how much hot water at what temperature in the central free-standing storage device at all is available. This is done with the help of mentioned house bus or information technology.

On the basis of the washing or rinsing program selected by the user, the respective device then checks whether the use of the warm inlet water available provides an energetic advantage. For this purpose, the microprocessors present in electronically controlled household appliances compare the expected amount of hot water M _W (l) with the line loss factors η (%) that are predefined or derived from previous tests and decide whether the use of warm inlet water seems sensible or whether self-heating with device-internal heating would be more advantageous.

This decision will be criteria on which the following relationships are based stand:

The amount of heat W _sp (Wh) taken from the free-standing tank is calculated as:

W _sp = (T _sp - T₀) · (M _W + M _A ) · c (Wh)

here mean:
T _sp = hot water temperature in the stationary tank (° C).
T₀ = cold water inlet temperature (water network supply line) (° C).
M _W = amount of water (l) required by the washing machine or dishwasher.
M _A = the rejected quantity of water (l) discharged into the drainage system.
c = specific heat.

K = temperature increase (in Kelvin).  

The amount of heat W _G (Wh) supplied to the consumer (washing machine or dishwasher) is calculated as follows:

W _G = M _W (T _sp - T₀) ηc (Wh)

here mean:

η = line loss factor, where

Tspg = the temperature of the hot water (° C) in the consumer after a sufficient amount of water W _a (l) has been fed in or:
W _a (l) = the amount of water (l) that has to be removed from the water pipe until T _spg (° C) is reached.

The final decision regarding the use of external hot water depends on the respective type of heating, it is expressed by the factor ε, where ε describes the efficiency of the hot water preparation.
ε ≈ 1 for electrical hot water preparation (e.g. electrical standing storage with approx. 30% overall efficiency including electricity generation)
ε ≈ 3 for oil or gas water heating (e.g. natural gas or oil-fired boilers with approx. 80% overall efficiency).
ε 10 for solar thermal systems (e.g. solar generator as rainproof roof area; overall efficiency of <90%).

Final criterion:

Only if

W _G <εW _sp (Wh)

or in other words: external hot water is only used for the operation of washing machines or dishwashers if the amount of heat W _G supplied to the consumer is greater than the product of the hot water preparation efficiency ε and the amount of heat W _sp taken from the stand storage. (Otherwise self-heating takes place). This last criterion enables optimal substitution of electrical energy by heat.

The efficiency ε can be specified to the microprocessor exactly or only approximately. The values T₀ (cold water temperature), M _W (amount of appliance water required) and η (pipe loss factor) can be measured during operation or specified as fixed values.

Claims (13)

1. Hot water supply control method for microprocessor-controlled domestic dishwashers and washing machines, the hot water connection of which can be supplied from a central system heated by renewable energy sources and whose electrical connection can be carried out using the house bus installation technology, characterized by the following features,

• a) that the temperatures of the consumption water flowing in from the central system, the dishwasher or washing machine are measured,
• b) that inflowing consumer water with insufficiently high temperatures and the stagnant water cooled in the consumer supply line are discarded or not used,
• c) that inflowing consumption water is used only at sufficiently high temperatures for a rinsing or washing process.

2. Hot water supply control method according to claim 1, characterized by the following features,

• a) that an empirically determined inflow water fixed quantity (M _A ) is discarded as a whole,
• b) that the fixed supply water fixed quantity (M _A ) can be adjusted.

3. hot water supply control method according to claim 1, characterized in that both the washing machine as also the dishwasher with the help of the house bus installation technology Information regarding the in the Central system existing heat content or the available Amount of heat are transmitted. 4. Hot water supply control method according to claim 1, characterized in that with the aid of the microprocessors, the amounts of water (M _W ) that are expected to be required by the washing machine or dishwasher are compared with line loss factors (η). 5. Hot water supply control method according to claim 4, characterized in that the required amounts of water (M _W ) are given to the microprocessors as fixed sizes. 6. hot water supply control method according to claim 4, characterized in that the line loss factors (η) given to the microprocessors as fixed quantities become. 7. hot water supply control method according to claim 4, characterized in that the line loss factors (η) can be derived from previous experiments. 8. hot water supply control method according to claim 4, characterized in that based on the comparison a decision is made as to whether warm consumption water achieves energetic advantages become.   9. hot water supply control method according to claim 8, characterized in that if not achieved energetic advantages the consumers are self-heated. 10. Hot water supply control method according to Claims 8 or 9, characterized in that the Deciding a water heating efficiency (ε) is taken as a basis. 11. Hot water supply control method according to claim 8 or one of the following, characterized in that hot water from the central supply system is only used if the amount of heat supplied to the consumer (W _G ) is greater than the product of the amount of heat removed from the central system (W _sp ) and the water heating efficiency (ε). 12. Hot water supply control method according to claim 1, characterized in that the cold water inlet temperature (T₀) measured during operation and the microprocessors is specified. 13. hot water supply control method according to claim 1, characterized in that the cold water inlet temperature (T₀) is given to the microprocessors as a fixed quantity.