WO2015189135A1 - Safety device for a domestic appliance, domestic appliance having such a safety device, and method for operating said domestic appliance - Google Patents

Abstract

The invention relates to a safety device (1) for a domestic appliance having a refrigerant circuit (2) containing a refrigerant that can be ignited, characterized by at least one apparatus (3) for sensing an escape of refrigerant from the refrigerant circuit (2) and for introducing a safety gas (4) that cannot be ignited or is difficult to ignite into the immediate surroundings (5) of the refrigerant circuit (2) when an escape of refrigerant from the refrigerant circuit (2) is sensed. The invention further relates to a domestic appliance having such a safety device (1) and to a method for operating said domestic appliance.

Description

 Safety device for a household appliance, household appliance with such and method of operating the same

The invention relates to a safety device for a domestic appliance with a refrigerant circuit containing an inflammable refrigerant, a domestic appliance with a refrigerant circuit containing an inflammable refrigerant and a method for operating a household appliance with a refrigerant circuit containing an inflammable refrigerant. Safety devices for household appliances are known in a variety of configurations. For example, safety devices are installed in household appliances with which a fire risk associated with a malfunction or other critical operating state of a household appliance can be reduced. From DE 10 201 1078 916 A1, a tumble dryer with a safety device, which is designed as a fire protection device known. In the fire protection device, fire-related parameters detected by a sensor are evaluated by an electronic device to detect the presence of a fire hazard or a fire. If there is a risk of fire or fire, measures to prevent and / or control a fire are initiated by means of the electronic device. Such a measure may consist of introducing a fire-retardant or fire-extinguishing substance into the tumble dryer. The fire protection device can be supplied with electrical energy along with the other components of the tumble dryer or have its own power supply.

WO 2008/125170 A1 relates to a fire protection system for tumble dryer, which has a temperature-sensitive unit for detecting a fire in a tumble dryer, which transmits a mechanical force pulse to a device for releasing a fire-extinguishing substance of the fire protection system upon detection of a brand in the tumble dryer, whereby the fire-extinguishing Substance is introduced into the tumble dryer. The fire protection system is independent of an electrical power supply of a suitably equipped clothes dryer, and also to be regarded as a safety device. US 6,655,047 B2 discloses a tumble dryer fire protection device which, upon detecting a presence of a fire in a clothes dryer, separates a heat source of the clothes dryer from an electrical power supply and introduces a fire-fighting substance into the clothes dryer while a blower of the clothes dryer supports the initiation of the fire-extinguishing Substance in the tumble dryer continues to be powered by electricity.

It is known to provide a clothes dryer in the form of a condensation dryer with a heat pump. With such a tumble dryer, a heat source of the heat pump can heat a supply air to be used for drying laundry and condense a heat sink of the heat pump into moisture contained in the drying of drying air. Such a tumble dryer consumes significantly less electrical energy than a dryer constructed according to another conventional concept. Within the heat pump, the heat absorbed by the heat sink is ultimately pumped to and discharged from the heat source. The heat pump may have a self-contained refrigerant circuit in which a refrigerant in an evaporator functioning as a heat sink is evaporated at a low pressure and liquefied after increasing its internal pressure by means of a high-pressure compressor in a condenser functioning as a heat source , After reducing its internal pressure in an expansion device, in particular a capillary, the liquefied refrigerant returns to the evaporator to be re-evaporated there. In the refrigerant circuit, a non-flammable refrigerant can circulate, which belongs predominantly to the substance group of halogenated hydrocarbons. Such refrigerants usually have climate-damaging properties and / or can be toxic.

It is also known to provide a refrigerant circuit with an inflammable refrigerant, which has significantly less climate-damaging properties compared to non-flammable refrigerants. However, an inflammable refrigerant leaking from a refrigerant circuit may form an explosive mixture together with an air surrounding the refrigerant circuit. For safety reasons, therefore, a quantity of refrigerant used in a refrigerant circuit must be limited. The object of the invention is to improve the safety in the operation of a provided with a refrigerant circuit household appliance. This object is solved by a safety device, a household appliance and a method according to respective independent claim. Advantageous embodiments of the invention are set forth in the dependent claims, which, taken alone or in various combinations with each other, constitute a preferred, advantageous or useful aspect of the invention.

According to the invention, a safety device for a household appliance with a refrigerant circuit containing an inflammable refrigerant is presented, characterized by at least one device for detecting an exit of refrigerant from the refrigerant circuit and for introducing a non-flammable or hardly flammable safety gas in an immediate vicinity of the refrigerant circuit upon detection of an exit of refrigerant from the refrigerant circuit.

The inventive introduction of a non-flammable or flammable safety gas in the immediate vicinity of the refrigerant circuit upon detection of leakage of refrigerant from the refrigerant circuit can be reliably prevented formation of an explosive mixture of leaking refrigerant and the air surrounding the refrigerant circuit. By introducing the safety gas into the immediate vicinity of the refrigerant circuit, in particular, the proportion of oxygen in the air in this environment is reduced or replaced. As a result, the security of a household appliance equipped with a safety device according to the invention with a refrigerant circuit is significantly improved.

The invention further has the advantage that electrical and electronic components of a household appliance equipped with a safety device with a refrigerant circuit need not be spark-protected, which is associated with a reduction in production costs. The security device may also have two or more corresponding devices. Upon detection of an exit of refrigerant from the refrigerant circuit, the safety device or its device described above can be used to introduce the safety gas into the immediate environment of the refrigerant circuit over a period of predetermined length or permanently. For example, the safety gas can be introduced into the immediate vicinity of the refrigerant circuit as long as it is detected that no more refrigerant escapes from the refrigerant circuit, or until the introduction of the safety gas in the immediate vicinity of the refrigerant circuit is turned off manually. The immediate environment of the refrigerant circuit is to be understood as the environment of the refrigerant circuit which is directly adjacent to the refrigerant circuit and completely surrounds the refrigerant circuit. The immediate vicinity of the refrigerant circuit may be limited to the outside by further components of a correspondingly equipped household appliance, in particular its housing, whereas the immediate environment of the refrigerant circuit is limited inwardly by the refrigerant circuit itself.

Detecting a discharge of refrigerant from the refrigerant circuit can be effected, for example, indirectly by detecting and evaluating a pressure prevailing in the refrigerant circuit. Alternatively or additionally, detection of leakage of refrigerant from the refrigerant circuit may be made directly by detecting a physical presence of refrigerant outside the refrigerant cycle.

According to an advantageous embodiment, the device has at least one pressure vessel containing the safety gas. The pressure vessel can be arranged outside or hidden inside a household appliance. The pressure vessel can be a conventionally available pressure vessel or a pressure vessel specially made for the realization of the safety device. The device may also have two or more corresponding pressure vessels.

According to a further advantageous embodiment, the device has at least one valve which can be connected in fluid-conducting manner to the pressure vessel and at least one self-activating mechanism operatively connected to the valve, wherein the self-triggering mechanism for detecting an exit of refrigerant from the refrigerant circuit is inserted. is directed, and wherein the self-actuation mechanism is operatively connected to the valve such that upon detection of leakage of refrigerant from the refrigerant circuit, the valve is transferred by means of the self-tripping mechanism from a closed rest state to an open release state and permanently maintained in the release state. By the self-trigger mechanism, the operation of the device or the safety device is independent of the operating state of a household appliance equipped with it. In particular, the operation of the safety device is independent of a power supply of such a household appliance because of its mechanical design. There is no electronic evaluation device or the like required. The valve may be arranged such that the safety gas exiting the valve passes directly into the immediate vicinity of the refrigerant circuit.

Alternatively, the device may have at least one sensor which can be connected to the refrigerant circuit for detecting an outflow of refrigerant from the refrigerant circuit, at least one electronic evaluation device which can be connected to the sensor in communication and at least one valve that can be connected to the electronic evaluation device and fluid-conductively connected to the pressure container. Status signals generated by the sensor and associated with the respective state of the refrigerant circuit can be received by the electronic evaluation unit and evaluated for detecting an exit of refrigerant from the refrigerant circuit. For this purpose, the electronic evaluation unit can be set up to compare the received status signals with a predetermined threshold value. If a status signal exceeds or falls below the threshold value, the electronic evaluation device can transfer the valve from its closed rest state into its open release state and hold it in the release state, so that the safety gas escapes from the pressure vessel via the valve and into the immediate vicinity of the refrigerant circuit can be initiated. Such a device can be connected to an available power supply or have its own power source.

Advantageously, the self-triggering mechanism has at least one pressure-sensitive unit which can be arranged on the refrigerant circuit and which can be acted upon by a pressure prevailing in the refrigerant circuit. If the refrigerant circuit has a leak that exhausts refrigerant from the refrigerant circuit, the pressure drops within the refrigerant circuit. If the pressure prevailing in the refrigerant circuit falls below a threshold which is significant for the escape of a critical, ignitable amount of refrigerant from the refrigerant circuit, the pressure-sensitive unit triggers, whereby a self-triggering of the device is effected by a by the release of the pressure-sensitive unit generated force pulse is transmitted to other components of the self-actuation mechanism or directly to the valve. As a result, a sufficient amount of safety gas to prevent a risk of fire is suddenly and automatically introduced into the immediate vicinity of the refrigerant circuit.

It is furthermore considered advantageous if the self-activating mechanism has at least one liquid-sensitive unit which can be arranged on the refrigerant circuit in such a way that the unit comes into physical contact with a refrigerant emerging from the refrigerant circuit. The liquid-sensitive unit triggers by physical contact with the refrigerant, thereby causing the device to self-trigger by transmitting a force pulse generated by the actuation of the liquid-sensitive unit to further components of the self-activating mechanism or directly to the valve. As a result, a sufficient amount of safety gas is introduced into the immediate vicinity of the refrigerant circuit abruptly and automatically to avoid an explosion hazard.

A further advantageous embodiment provides that the device has at least one gas outlet which can be connected to the valve and can be arranged in the region of the refrigerant circuit such that, when the valve is in its open release state, a safety gas emerging from the pressure vessel via the valve and the gas outlet is present in the immediate vicinity Environment of the refrigerant circuit. The arrangement of the gas outlet is largely independent of the arrangement of the pressure vessel and the valve, which has particularly advantageous effect on the freedom of design in an arrangement of the safety device within a household appliance. The device may also have two or more corresponding gas outlets in order to be able to introduce the safety gas more homogeneously into the immediate surroundings of the refrigerant circuit. Preferably, the safety gas has an inert gas. Preferably, the inert gas is carbon dioxide. Carbon dioxide is inexpensive to buy compared to other inert gases. Nitrogen is conceivable as an alternative to carbon dioxide. According to a further advantageous embodiment, the safety device has at least one self-triggering mechanical device for permanently disconnecting the household appliance from a power supply having at least one arranged on a power supply line electrical switch and at least one operatively connected to the electrical switch self-triggering mechanism, wherein the self-triggering mechanism on the pressure vessel disposable pressure-sensitive unit, which is acted upon by the pressure prevailing in the pressure vessel, and wherein the self-triggering mechanism is operatively connected to the electrical switch, that the electrical switch is transferred from its closed contact state to its open state of separation and permanently held in the disconnected state, if the pressure prevailing in the pressure vessel falls below a pressure limit. The electrical switch is designed here as an opener, which irreversibly prevents any power to a correspondingly equipped household appliance and thus sparks. Due to the mechanical configuration of this device, the device or the safety device is independent of the operating state of a household appliance equipped with it. In particular, because of its mechanical design, the operation of the safety device is altogether independent of a power supply of such a household appliance. The household appliance can be designed, for example, as a tumble dryer, in particular a condensation dryer with a heat pump.

According to the invention, a domestic appliance with a refrigerant circuit containing an inflammable refrigerant is also presented, characterized by at least one safety device according to one of the aforementioned embodiments or any combination thereof. With this household appliance, the advantages mentioned above with respect to the safety device are connected accordingly.

According to the invention, a method for operating a domestic appliance with a refrigerant circuit containing an inflammable refrigerant is also proposed, wherein a discharge of refrigerant from the refrigerant circuit is detected and detected upon detection a leakage of refrigerant from the refrigerant circuit a non or flammable safety gas is introduced into the immediate vicinity of the refrigerant circuit. With this method, the advantages mentioned above with respect to the safety device are connected accordingly.

According to an advantageous embodiment, upon detecting a leakage of refrigerant from the refrigerant circuit, the household appliance is permanently disconnected from a power supply. In this way, in particular a formation of sparks on electrical and electronic components of the household appliance can be prevented.

According to a further advantageous embodiment, a safety device according to one of the above-mentioned embodiments or any combination thereof is used to carry out the method. This is associated with the above advantages.

In the following, the invention will be explained by way of example with reference to the attached figure with reference to a preferred exemplary embodiment, wherein the features illustrated below may represent an aspect of the invention both taken alone and in different combinations with one another. It shows

Fig. 1: a schematic representation of an embodiment of a

 Safety device.

Fig. 1 shows a schematic representation of an embodiment of a safety device 1 in a household appliance, not shown with a flammable refrigerant refrigerant circuit 2. The safety device 1 comprises a device 3 for detecting a leakage of refrigerant from the refrigerant circuit 2 and for introducing a non or hardly flammable safety gas 4 in the immediate vicinity of the refrigerant circuit 2 5 upon detection of leakage of refrigerant from the refrigerant circuit 2. The safety gas 4 has an inert gas, in particular carbon dioxide on.

The device 3 has a pressure vessel 6 containing the safety gas 4. Furthermore, the device 3 comprises a fluid-conducting connected to the pressure vessel 6 Valve 7 and a self-actuation mechanism 8 operatively connected to the valve 7. Furthermore, the device 3 comprises a gas outlet 9 connected fluidly to the valve 7 and arranged in the region of the refrigerant circuit 2 such that valve 7 is in its open release state via the valve 7 and the gas outlet 9 from the pressure vessel 6 escaping safety gas 4 passes into the immediate environment 5 of the refrigerant circuit 2.

The self-triggering mechanism 8 is arranged to detect leakage of refrigerant from the refrigerant circuit 2 and operatively connected to the valve 7 such that upon detecting leakage of refrigerant from the refrigerant circuit 2, the valve 7 is transferred from the closed rest state to the open enable state by the self-timer mechanism 8 and kept permanently in the release state. For this purpose, the self-triggering mechanism 8 comprises a pressure-sensitive unit 10 which is arranged on the refrigerant circuit 2 and which is acted on by the pressure prevailing in the refrigerant circuit 2. The operative connection between the valve 7 and the pressure-sensitive unit 10 is indicated by the dashed line 1 1. Alternatively, the self-trigger mechanism 8 may include a liquid-sensitive unit, not shown, which can be arranged on the refrigerant circuit 2 such that the unit comes into physical contact with a refrigerant exiting from the refrigerant circuit 2.

The safety device 1 further comprises a self-triggering mechanical device 12 for permanently disconnecting the household appliance from a power supply. The device 12 has an electrical switch 14 arranged on a power supply line 13 and at least one self-activating mechanism 15 operatively connected to the electrical switch 14. The self-triggering mechanism 15 comprises a pressure-sensitive unit 16 which is arranged on the pressure vessel 6 and which is acted on by the pressure prevailing in the pressure vessel 6. The operative connection between the electrical switch 14 and the pressure-sensitive unit 16 is indicated by the dashed line 17. The self-trigger mechanism 15 is operatively connected to the electric switch 14 so that the electric switch 14 is transferred from its closed contact state to its open disconnected state shown and permanently held in the disconnected state when the pressure prevailing in the pressure vessel 6 pressure falls below a pressure limit. reference numeral

1 security device

 2 refrigerant circuit

 3 device

 4 safety gas

 5 environment

 6 pressure vessels

 7 valve

 8 self-timer mechanism

 9 gas outlet

 10 pressure-sensitive unit

 1 1 active compound

 12 device

 13 power supply line

 14 switches

 15 self-timer mechanism

 16 pressure-sensitive unit

 17 active compound

Claims

1 . Safety device (1) for a domestic appliance with a refrigerant circuit (2) containing an inflammable refrigerant, characterized by at least one device (3) for detecting an exit of refrigerant from the refrigerant circuit (2) and for introducing a safety gas (4) which is not inflammable or hardly inflammable. in the immediate vicinity (5) of the refrigerant circuit (2) upon detecting leakage of refrigerant from the refrigerant circuit (2).

2. Safety device (1) according to claim 1, characterized in that the device (3) has at least one safety gas (4) containing the pressure vessel (6).

3. Safety device (1) according to claim 2, characterized by at least one self-triggering mechanical device (12) for permanently disconnecting the household appliance from a power supply, the at least one on a power supply line (13) can be arranged electrical switch (14) and at least one with the electrical Switch (14) operatively connected self-triggering mechanism (15), wherein the self-triggering mechanism (15) on the pressure vessel (6) can be arranged pressure-sensitive unit (16) which is acted upon by the pressure prevailing in the pressure vessel (6) pressure, and wherein the self-triggering mechanism (15) is operatively connected to the electrical switch (14) such that the electrical switch (14) is transferred from its closed contact state to its open disconnection state and permanently held in the disconnected state when the pressure prevailing in the pressure vessel (6) has a pressure limit below.

4. Safety device (1) according to any one of claims 2 and 3, characterized in that the device (3) at least one fluidically connected to the pressure vessel (6) connectable valve (7) and at least one with the valve (7) operatively connected self-tripping mechanism (8 ), wherein the self-triggering mechanism (8) is arranged to detect leakage of refrigerant from the refrigerant circuit (2), and wherein the self-triggering mechanism (8) is operatively connected to the valve (7) such that upon detecting leakage of refrigerant from the refrigerant circuit (2), the valve (7) is switched from a closed rest state to an open unlock state by means of the self-triggering mechanism (8) and kept permanently in the release state.

5. Safety device (1) according to claim 4, characterized in that the self-triggering mechanism (8) on the refrigerant circuit (2) can be arranged pressure-sensitive unit (10), which is acted upon by the in the refrigerant circuit (2) prevailing pressure.

6. Safety device (1) according to claim 4, characterized in that the self-triggering mechanism (8) has a liquid-sensitive unit which can be arranged on the refrigerant circuit (2) such that the liquid-sensitive unit is in physical contact with one of the refrigerant circuit (2). escaping refrigerant comes.

7. Safety device (1) according to one of claims 4 to 6, characterized in that the device (3) at least one fluid-conducting with the valve (7) connectable and thus in the region of the refrigerant circuit (2) can be arranged gas outlet (9) in that when the valve (7) is in its open release state, a safety gas (4) emerging from the pressure vessel (6) via the valve (7) and the gas outlet (9) reaches the immediate environment (5) of the refrigerant circuit (2).

8. Safety device (1) according to one of the preceding claims, characterized in that the safety gas (4) comprises an inert gas.

9. Safety device (1) according to claim 8, characterized in that the inert gas is carbon dioxide.

10. Domestic appliance with a refrigerant circuit containing an inflammable refrigerant (2), characterized by at least one safety device (1) according to one of claims 1 to 9.

1 1. Method for operating a household appliance with a refrigerant circuit (2) containing an inflammable refrigerant, wherein a discharge of refrigerant from the refrigerant circuit (2) detects and upon detection of a leakage of refrigerant from the refrigerant circuit (2) a safety gas (4) which is not flammable or hardly inflammable in the immediate vicinity (5) of the refrigerant circuit (2) is initiated.

12. The method of claim 1 1, characterized in that upon detection of leakage of refrigerant from the refrigerant circuit (2), the household appliance is permanently disconnected from a power supply.

13. The method according to any one of claims 1 1 and 12, characterized in that for its implementation a safety device (1) according to one of claims 1 to 9 is used.