EP2347308A1

EP2347308A1 - Electric device with a standby module

Info

Publication number: EP2347308A1
Application number: EP09744992A
Authority: EP
Inventors: Michael Rosenbauer; Martin Stickel
Original assignee: BSH Bosch und Siemens Hausgeraete GmbH
Current assignee: BSH Hausgeraete GmbH
Priority date: 2008-10-14
Filing date: 2009-10-13
Publication date: 2011-07-27
Also published as: WO2010043597A1; DE102008042832A1

Abstract

In an electric device, in particular in a dishwashing machine (1) or washing machine, comprising a standby module (7) for providing functions in a standby mode and comprising an energy supply module (13) for supplying electrical energy to the standby module (7) during standby operation, the energy supply module (13) comprises a thermoelectric generator (14) for extracting electrical energy from exhaust heat (AWM, AWH) from the electric device (1) during normal operation and comprises an electrical energy storage medium (15) for storing the electrical energy generated from the thermoelectric generator (14), so that the standby module can be supplied with the stored electrical energy during standby operation.

Description

Electric appliance with a standby module

The present invention relates to an electrical appliance having a standby module for providing functions in a standby mode and having a power supply module for supplying the standby module with electrical energy during the standby mode.

Known electrical appliances with a higher energy requirement, in particular domestic electric appliances, such as dishwashers or washing machines, have one or more electrical consumers which are supplied with energy via an external energy supply network at least during the performance of an operating program corresponding to the purpose of the electrical appliance. For example, a commercially available household dishwashing machine is connected to a public power supply network via a mains socket with a plug arranged thereon during the execution of a washing program. In older electrical appliances while a main switch is provided which connects the electrical load of the electrical appliance in an on-state with the power line, so in a normal operation, the full range of functions of the electrical appliance is provided, which allows the implementation of appropriate operating programs. By contrast, the main switch in an off state completely disconnects the electrical loads from the power line, so that on the one hand any unnecessary power consumption is prevented by the electrical device; On the other hand, however, no functionality is available:

In newer electrical appliances, however, a standby mode (standby mode) is provided in many cases outside of normal operation. This means that the electrical appliances also have a limited range of functions even outside normal operation. For this purpose, such electrical appliances have a standby module which provide such standby functions. However, such a standby module must also be supplied with electrical energy outside normal operation of the electrical appliance. While older electrical appliances predominantly have an electromechanical control, modern electrical appliances in many cases have an electronic control. While an electromechanical control usually does not have to be supplied with electrical energy outside of its operation, in many cases an electronic control requires it to be constantly supplied with electrical energy in order to store information such as control programs, setting data and / or operating data. to store electronically. For this reason, it is necessary to supply the control device of such an electrical appliance outside of normal operation with electrical energy.

In order now to supply a standby module or a control device of an electrical appliance outside of normal operation, ie in standby mode, with electrical energy, it is known from practice to design the main switch of such a device such that in its off state, only in standby mode disconnects unnecessary consumer from the public power grid, wherein a power supply module for supplying the standby module and / or the control device is further supplied with electrical energy. However, this solution has the disadvantage that the electrical appliance located in the standby mode always draws electrical energy from the public power grid. Thus, the power consumption of such electrical appliances in standby mode is typically a few watts. Especially in household appliances, such as dishwashers or washing machines, which are operated only a few hours per week in normal operation, this power consumption in standby mode leads to a significant deterioration of the total energy balance. In addition, a failure of the public power grid, which although rare, but still occurs, leading to a failure of the functions of the standby mode. Furthermore, stored information can be lost.

Another solution for supplying the standby module and / or the control device during the standby mode with electrical energy provides that the corresponding power supply module is equipped with a battery. In this way, the negative effects of a power failure can be prevented in principle. It is also possible with smaller electrical appliances, to completely disconnect them during the standby mode from the power grid. For larger electrical appliances, which have a higher energy consumption in standby mode, this solution is uneconomical, since the specific cost of energy from a battery are many times higher than that of energy from a public power grid. In addition, the battery consumes after a certain time, so that even here the standby function or the stored information can be lost if the battery is not changed in time.

It is therefore an object of the present invention to provide an electrical appliance in which the energy balance is improved and the availability of functions in a standby mode is ensured.

According to the invention, this object is achieved in an electrical appliance of the type mentioned above in that the energy supply module a thermoelekt- ric generator for recovering electrical energy from waste heat of the electrical appliance during normal operation and an electrical energy storage for storing the generated by the thermoelectric generator electrical energy to supply the standby module during standby operation with the stored electrical energy.

A thermoelectric generator comprises in particular at least one Peltier element, which in turn consists of a p-doped and an n-doped semiconductor element. If the two semiconductor elements are arranged in parallel and short-circuited at one end by means of a metal bridge, an electrical voltage is created between the non-short-circuited ends of the semiconductor elements, provided that these ends are at a different temperature level than the metal bridge. Thus, if one side of such an arrangement is heated in normal operation by means of the waste heat of the electrical appliance and the other side is not, so elec tric energy is generated, which can be stored in the electrical energy storage to supply the standby module in standby mode. The electrical appliance according to the invention can be operated in the standby mode, even if it is completely disconnected from the public power supply network, so that the functions provided in standby mode are maintained even in the event of a failure of the energy supply network. The electrical energy required for the standby mode is generated by means of the thermoelectric generator during normal operation of the electrical appliance and then stored in the electrical energy storage. During the standby mode, this stored electrical energy is then supplied to the standby module. Since this electrical energy is recovered by means of the thermoelectric generator from otherwise unused escaping energy from waste heat, there is a significant improvement in the overall energy balance of the electrical appliance.

Advantageously, the standby module comprises a control part for switching a main switch having an on state and an off state, the on state for connecting the electric device to an external power supply and the off state for completely disconnecting the electric device from the external one electrical energy supply is provided. By "complete disconnection" is meant such a disconnection which prevents an energy supply of the electrical appliance from the external electrical energy supply. For example, if the external electrical energy supply is a household alternating current network, then it is sufficient for the main switch to interrupt one of the two wires of the power line is formed.

In such a trained electrical appliance, a separation of the electrical appliance from the external power supply can be automatically caused during normal operation. This enables the realization of energy saving functions. However, it is possible to restore the connection to the external electrical power supply during the standby mode, without requiring a manual operation of the main switch by an operator for this purpose. This results in new automation options.

The standby module preferably has a receiving module for receiving information from a remote control. This makes it possible for an operator, in particular, to transmit operating commands and / or setting data to the electrical appliance. even if it is only in standby mode. For example, the standby module can be designed to switch the main switch to the on state on the basis of an operating command received by the receiving module. Thus, a switch-on can be realized to connect the electrical appliance with the electrical power supply from the standby mode. This allows the activation of normal operation without the operator having to manually operate the main switch of the electrical appliance. Conversely, a switch-off is conceivable, which allows an operator to switch the main switch in the off state by means of the remote control, so as to prevent unnecessary energy consumption.

It is likewise advantageous if the standby module has a timer. This allows the timed execution of given tasks, even if the electrical appliance is temporarily completely disconnected from the external electrical energy supply. In this case, the standby module can be designed to switch on the main switch on the basis of a time signal generated by the timer. For example, the switching of the main switch in the on state and the subsequent implementation of an operating program of the electrical device can be timed. Because the timer is built into the standby module, settings such as time and date or preset start times will not be lost if the unit is disconnected from the external electrical power supply or if it fails.

In a preferred embodiment, the standby module may include a display. The display can be designed to display the current time and / or to display predetermined times for performing tasks. Adjustment values and / or operating data can also be displayed. In this case, the respective information is displayed even when the electrical appliance is disconnected from the external electrical power supply, which is advantageous in particular when operating the electrical appliance.

In a particularly preferred embodiment, the standby module for automatically switching the main switch to the off state is formed after the end of an operating program. This will become the standby mode automatically activated, whereby an unnecessary power consumption of the electrical appliance is automatically prevented outside the operating program. This results in a further energy savings.

In particular, the standby module may include an information store. This can in particular be a memory for control programs, setting data and / or operating data. A control program is a software for controlling the electrical appliance or one of its components. Adjustment data is data that can be specified by a service person or operator. Operating data continue to be such data that can be detected during operation of the electrical appliance. This includes, for example, the hours worked. If, as provided, the information memory is integrated into the standby module, the information memory is also supplied with electrical energy independently of the external energy supply. As a result, a loss of information is effectively prevented.

It can be expedient, in particular, to connect the standby module to a control device for controlling the electrical appliance for exchanging information. Such information may also be, in particular, control programs, setting data and / or operating data. In this way it is possible to store information generated by the control device or required by the control device in the standby module. Likewise, such information can be used by the standby module for their own tasks.

Preferably, the electrical energy storage is a battery. A battery is a rechargeable, electrochemical energy storage. When charging, for example, electrical energy is converted into chemical energy and when discharged, chemical energy is converted into electrical energy. Although, in principle, coils and capacitors can also be used as electrical energy stores, these are only of limited suitability for medium to long-term energy storage. Thus, the losses occurring in coils are generally too high. Furthermore, coils and capacitors achieve only a low energy density. Particular preference is therefore given to lithium-ion batteries and lithium Polymer batteries. These achieve the highest energy densities among the currently known accumulator types, so that their use can be used to realize a compact electrical energy store.

Advantageously, the thermoelectric generator for using the waste heat of a motor of the electrical appliance is provided. Although the engines of modern electrical appliances have a good efficiency, they still generate a significant amount of waste heat. For medium and larger engines, therefore, facilities for dissipating the waste heat are provided. Such a device, in particular a heat sink, can be connected to a thermoelectric generator. In this way it is possible to easily use at least a large part of the waste heat of the engine for generating electrical energy.

It is also preferred that the thermoelectric generator is provided for utilizing the waste heat of a heater of the electrical appliance. Thus, many electrical appliances have powerful heaters, so that in many cases, a sufficiently large waste heat flow is available.

The invention provides a mains-independent power supply for the standby operation of electrical appliances. The starting point for the invention is that more and more electrical appliances are equipped with a standby function. Specifically, this means that the devices can perform certain functions even when switched off. For example, in many home appliances (eg cooker, microwave, stereo, video), the time is displayed without the appliance being in operation, or a power-on feature that allows a device to be operated remotely (eg, TV To turn on the video). The prerequisite for such a standby mode is that the corresponding devices are always connected to the public power supply network in order to supply the components required for the function with voltage. After programming, the standby function is available. In the event of a power failure, however, the selected settings are deleted in most cases, as there is no mains-independent power supply. In a few cases (eg kitchen radio) can a battery is inserted into the device, which takes over the power supply in the event of a power failure and thus secures the settings. Disadvantage of the battery solution is that a battery is used up and if the battery is not changed in time, the settings can be lost here.

Furthermore, it must be noted in the connection technology of these devices that there is always a connection to the mains, that is, for example, that the main switch of such a device can not completely disconnect from the mains.

The aim is therefore in particular to develop a power supply independent of the network with an energy storage to the standby operation of an electrical appliance z. B. even with prolonged separation from the mains (device not in operation) or to ensure a power failure.

For this purpose, the essential components used are, in particular, a thermoelectric or Peltier element for generating voltage with the thermal effect and a sufficiently large accumulator for storing the generated voltage.

During the operation of an electrical appliance, energy loss in the form of waste heat (heating or engine waste heat) occurs in most cases. This waste heat is irretrievably lost in the energy balance. With favorable placement of the thermal or Peltier element in the vicinity or on the source of waste heat, the elements can generate a voltage by the thermal effect. Since this voltage is not needed during operation, because then the device is powered by the mains, the voltage obtained is expediently stored again in a battery. After completion of a program sequence or stop the electrical appliance or a power failure is then switched to standby mode. The necessary energy is then taken from the battery by the electrical appliance.

This results in particular the following advantages:

- mains-independent power supply for small consumers, - Standby mode possible even though the device is disconnected from the mains,

- use of waste heat loss,

- improving the energy balance,

- one-time setting of functions (eg time, date, etc.),

- A set start time (for example, when the electrical appliance should be started) or a running timer function is not lost in the event of a power failure.

Other developments of the invention are given in the dependent claims.

The invention and its developments are explained in more detail with reference to drawings. Show it:

1 shows a dishwasher as an example of an inventive electrical appliance in a schematic representation, and

Figure 2 shows the thermoelectric generator of the dishwasher of Figure 1 in more detail.

Elements with the same functions and the same mode of operation are each provided with the same reference numerals in FIGS. 1 and 2.

1 shows a dishwashing machine, in particular household dishwasher 1, as an example of an inventive electrical appliance in a schematic view, wherein only those components of the dishwasher 1 are shown, which are required for understanding the invention. Connections between the individual elements of the dishwasher 1, in which the transfer of energy is in the foreground, are shown by solid lines. Compounds in which, however The transmission of information is essential, are shown as a dotted lines to distinguish.

During a washing program in which items to be washed, not shown, are cleaned, the dishwasher 1 draws electrical energy from a public energy supply network EVN. For this purpose, the dishwasher 1 has a power line 2, which may be fixed or connected via a plug to the power supply network EVN. The power line 2 is further connected to a main switch 3, which has an on-state and an off-state, wherein the state establishes a connection of the electrical device to the power supply network EVN and the off state completely disconnects the electrical device from the power supply network EVN , The separation of the dishwasher 1 from the power supply network EVN takes place in such a way that an energy extraction from the power supply network EVN is completely prevented. When the main switch 3 is switched to the off state, the dishwasher is in a standby mode in which at least a limited range of functions is available. If, however, the main switch 3 is switched to the on state, then the dishwasher is in normal operation, which makes it possible to carry out a wash program.

In normal operation, a control device 4 for controlling the dishwasher 1, a motor 5 for driving a pump and a heater 6 for heating a rinse water is supplied with electrical energy from the power supply network EVN. The control device 4 is designed to control the motor 5 and to control the heater 6. The standby mode provided in the dishwasher 1 can be activated outside the execution of a wash program.

In order to realize the functional scope provided in standby mode, a standby module 7 is provided. This first comprises a control part 8 for controlling the main switch 3 of the dishwasher 1. The control part 8 is provided in particular for activating the standby mode or to end the standby mode by switching the main switch 3. To receive the standby mode, the control part 8 switches the main switch. 3 in the off state. As a result, the absorption of electrical energy by the previously connected to the power grid EVN consumers 4, 5, 6 is suppressed. Conversely, the control part 8 switches the main switch 3 in the on state to end the standby mode, for example, if the execution of a wash program is to take place.

Furthermore, the standby module 7 has a receiving module 9 for receiving information from a remote control FB. In this case, the standby module for switching the main switch 3 in the on state is formed on the basis of a first received by the receiving module 9 Bedienbefehles and switching the main switch 3 in the off state based on a second received from the receiving module 9 operating command. Overall, such an operator is enabled to activate or deactivate the standby mode by means of the remote control FB. However, it is also possible to transmit operating commands from the remote control FB via the receiving module 9 and the control part 8 to the control device 4. Thus, the functions of the dishwasher 1 in the implementation of a wash program can be influenced by the operator, without the control device 4 would have its own receiving module for the signals of the remote control FB.

Furthermore, the standby module 7 comprises a timer 10. Time signals are generated by the timer 10 and transmitted to the control part 8. These can be used, for example, to end the standby mode at a time specified by the operator, for example by means of the remote control FB, and to start a wash program. From the timer 10 continue to transmit signals to a display 11. In this way, the display 1 1, for example, display the current time or predetermined start times for a wash program. In addition, the display 11 is connected to the control part 8 so that further information, in particular setting data and / or operating data, can be displayed. The type of information displayed may be selected, for example, via the remote control FB by the operator.

Furthermore, the standby module 7 comprises an electronic memory 12. In this information memory 12, both information can be stored, which of the standby module 7, as well as such information that are generated and / or required by the control device 4, storable. These may in particular be control programs, setting data and / or operating data.

In order to be able to supply the components 8, 9, 10, 11 and 12 of the standby module 7 with electrical energy even if the dishwasher 1 is disconnected from the energy supply network EVN by a corresponding switching position of the main switch 3, a power supply module 13 is provided. This comprises a thermoelectric generator 14 which generates electrical energy from the waste heat AWM of the engine 5 and from the waste heat AWH of the heater 6 during a wash program. This electrical energy is at least partially stored during normal operation in a battery 15 and used during a later standby mode for supplying the components 8-12 of the standby module 7. This ensures that all functions of the standby module 7 are made available even when the main switch 3 is in its off state. In particular, the information stored in the memory 12 is not lost in such a case. Even a failure of the power supply network EVN leads neither to a failure of functions of the standby module 7 nor to a loss of information.

Figure 2 shows the thermoelectric generator 14 of Figure 1 in more detail. It comprises a cold region 16, which is kept at ambient temperature, for example by means of a heat sink, and a hot region 17, which is heated by the waste heat AWM of the engine 5 shown in FIG. 1 and the waste heat AWH of the heater 6 shown in FIG such that the temperature of the warm region 17 is above the temperature of the cold region 16.

In this case, a plurality of p-doped semiconductor elements 18 extend from the cold region 16 into the hot region 17. Likewise, a multiplicity of n-doped semiconductor elements 19 extends from the cold region 16 into the hot region 17. P-doped elements 18 and n-doped elements 19 are alternately arranged and at one end via a metal bridge 20 with an adjacent Element and at the other end connected to the other adjacent element. The two outer elements are connected only on one side with a metal bridge 20. The result is a meander-shaped structure at the ends of a DC voltage can be tapped, which is effected by the temperature difference between the cold region 16 and the hot area 17. This DC voltage is, as explained with reference to Figure 1, used to load the battery 15 shown there.

The present invention is not limited to the described and illustrated embodiments. Variations within the scope of the claims are possible.

LIST OF REFERENCE NUMBERS

1 electrical appliance

2 power line

3 main switches

4 control device

5 engine

6 heating

7 standby module

8 control part

9 receiving module

10 timer

11 display

12 information store

13 power supply module

14 thermoelectric generator

15 electrical energy storage

16 cold area

17 warm area

18 p-doped semiconductor elements

19 n-doped semiconductor elements

20 metal bridge

Claims

claims

1. electrical appliance, in particular dishwasher (1) or washing machine, with a standby module (7) for providing functions in a standby mode and with a power supply module (13) for supplying the standby module (7) during the standby mode with electrical energy, characterized in that the energy supply module (13) has a thermoelectric generator (14) for recovering electrical energy from waste heat (AWM, AWH) of the electrical appliance (1) during normal operation and an electrical energy store (15) for storing at least a portion of the energy produced by the thermoelectric generator (14 ) to supply the standby module during the standby mode with the stored electrical energy.

2. Electrical device according to claim 1, characterized in that the standby module (7) has a control part (8) for switching a main switch (3) having an on-state and an off-state, wherein the on state for connecting the Electric appliance (1) with an external power supply (EVN) and the off-state for completely separating the electrical appliance (1) from the external electrical power supply (EVN) is provided.

3. Electrical appliance according to one or more of the preceding claims, characterized in that the standby module (7) has a receiving module (9) for

Receiving information, in particular of operating commands and / or setting data, a remote control (FB).

4. Electrical appliance according to one or more of the preceding claims, characterized in that the standby module (7) has a timer (10).

5. Electrical appliance according to one or more of the preceding claims, characterized in that the standby module (7) has a display (1 1).

6. Electrical appliance according to one or more of the preceding claims, characterized in that the standby module (7) is designed for automatically switching the main switch (3) in the off state at or after the end of an operating program.

7. Electrical device according to one or more of the preceding claims, characterized in that the standby module (7) comprises an information memory (12), in particular for control programs, adjustment data and / or operating data.

8. Electrical appliance according to one or more of the preceding claims, characterized in that the standby module (7) with a control device (4) for controlling the electrical appliance (1) for exchanging information, in particular control programs, setting data and / or operating data connected is.

9. Electrical appliance according to one or more of the preceding claims, characterized in that the electrical energy store (15) is a battery (15), preferably a lithium-ion battery or a lithium-polymer battery.

10. Electrical appliance according to one or more of the preceding claims, characterized in that the thermoelectric generator (14) for using the waste heat (AWM) of a motor (5) of the electrical appliance (1) is provided.

11. Electrical appliance according to one or more of the preceding claims, characterized in that the thermoelectric generator (14) for using the waste heat (AWH) of a heater (6) of the electrical appliance (1) is provided.