阅读说明：本技术 安全装置和旅行适配器 (Safety device and travel adapter ) 是由 克里斯托夫·赫特 海科·赫特 于 2019-09-25 设计创作，主要内容包括：本发明涉及一种用于保护电路的安全装置(100)。所述安全装置包括用于在特定温度下中断所述电路的温度保险丝(10)以及用于容置用于在所述电路中的特定电流强度下中断所述电路的保险丝(21)的插槽(20)。所述温度保险丝(10)和所述插槽(20)在所述电路(40)中串联,其中所述插槽(20)和所述温度保险丝(10)相邻布置。(The invention relates to a safety device (100) for protecting a circuit. The safety device comprises a temperature fuse (10) for interrupting the circuit at a certain temperature and a socket (20) for receiving a fuse (21) for interrupting the circuit at a certain amperage in the circuit. The temperature fuse (10) and the socket (20) are connected in series in the circuit (40), wherein the socket (20) and the temperature fuse (10) are arranged adjacently.)

1. A safety device (100) for protecting an electric circuit, in particular of a travel adapter (200), comprising a thermal fuse (10) for interrupting the electric circuit at a specific temperature and a socket (20) for housing a fuse (21) adapted to interrupt the electric circuit at a specific amperage in the electric circuit,

it is characterized in that the preparation method is characterized in that,

the temperature fuse (10) and the socket (20) are connected in series in the circuit, wherein the socket (20) and the temperature fuse (10) are arranged adjacently.

2. The safety device (100) according to claim 1, characterized in that the temperature fuse (10) can be reset.

3. The safety device (100) according to claim 2, characterized in that the temperature fuse (10) is constructed with an automatic reset.

4. The safety device (100) according to claim 2, characterized in that the temperature fuse (10) is constructed with a manual reset.

5. The safety device (100) according to any one of claims 1 to 4, wherein the socket and the temperature fuse (10) are arranged substantially parallel and adjacent.

6. Safety device (100) according to one of claims 1 to 5, characterized in that the receptacle (20) and the temperature fuse (10) are arranged in a common housing (30), wherein the common housing (30) advantageously has a partition wall (31), wherein the receptacle is arranged on a first side (32) of the partition wall and the temperature fuse is arranged on a second side (33) of the partition wall.

7. A travel adapter (200) comprising the security device (100) according to any one of claims 1 to 6.

8. The travel adapter (200) of claim 7, wherein the travel adapter has at least one first standard socket having at least one first contact socket and one second contact socket and at least one second standard plug having at least one first contact pin and one second contact pin, wherein one of the contact pins of the second standard plug is electrically connected or electrically connectable with one of the contact sockets of the first standard socket by means of the security device (100).

9. The travel adapter (200) of claim 8, wherein the first standard receptacle has a third contact receptacle for a ground pin and the second standard plug has a third contact pin as a ground pin.

10. The travel adapter (200) according to any of claims 7-9, comprising a fuse (21).

Technical Field

The invention relates to a safety device for protecting an electric circuit and to a travel adapter having a safety device for protecting an electric circuit.

Background

Many different forms of travel adapters have been disclosed in the prior art. The travel adapter is a device into which at least one plug of a first standard can be inserted, and the travel adapter itself can be inserted at least into a standard socket of a plug different from the first standard.

Thus, the travel adapter typically has a socket side for inserting a plug and a plug side for inserting the travel adapter into the socket.

Thus, openings for the pins of the plug are provided on the socket side. The plug side accordingly has a plug for insertion into the socket.

During use, an electrical circuit is formed between the opening and the plug.

Such a device is known, for example, from EP 0616389 a 2. EP 0616389 a2 shows a travel adapter in which the opening is directly connected to the latch. In other words, there is a closed circuit between these openings and the pins.

A plurality of different plug configurations may be provided on the plug side of the travel adapter to enable the travel adapter to be used with a plurality of different standard receptacles.

Such travel adapters are known, for example, from WO 2009/152630 a1 and WO 2009/152629 a 1. Both of these publications disclose travel adapters having a plurality of different standard latches, wherein each latch of a standard can be pushed out of the travel adapter's housing together. In this case, the electrical circuit between the opening on the socket side and the respective bolt on the plug side is closed only when the respective bolt is in the desired final position. In this case, the circuit is open when the travel adapter is not in the operating state and is closed only when the travel adapter is in the operating state.

When referring to an electrical circuit, here and hereinafter not only an open circuit but also a closed circuit is referred to.

WO 02/063722 a2 also discloses a travel adapter having a slidably arranged latch. Furthermore, the travel adapter of WO 02/063722 a2 also has a fuse to protect the circuit against over-currents.

None of these prior art travel adapters are suitable for continuous operation. Due to their small housing size and structural arrangement, these travel adapters tend to become hot and can overheat as the case may be. In some cases, this may pose a hazard to the travel adapter and its surroundings.

US 9,843,145B 2 discloses a plug with a thermal safety device. This thermal safety device comprises a thermal fuse which connects the feed line for the plug with the first contact pin in the plug by means of a bimetallic strip. The thermal protection device further comprises a fuse arranged in series between the temperature fuse and the first contact pin of the plug, wherein the fuse is firmly connected to the first contact pin and the temperature fuse in the plug.

A disadvantage of this solution is that the fuse forms a connection line between the first contact pin and the temperature fuse, which is then arranged firmly in the plug.

Disclosure of Invention

It is therefore an object of the present invention to overcome one or more of the disadvantages of the prior art. In particular, a safety device and/or a travel adapter with a corresponding safety device should be provided, which is able to protect the circuit against overheating.

The solution of the invention to achieve the above object is defined by the means defined in the independent claims. Other embodiments are found in the dependent claims.

The safety device according to the invention for protecting an electric circuit, in particular an electric circuit of a travel adapter, comprises a thermal fuse for interrupting the electric circuit at a specific temperature and a socket for receiving a fuse adapted to interrupt the electric circuit at a specific amperage in the electric circuit. The temperature fuse and the socket are connected in series in a circuit, wherein the socket and the temperature fuse are arranged adjacently.

Here and in the following, a temperature fuse refers to a fuse that switches from a certain temperature. A bimetal switch, which is regarded as an example of a temperature fuse, for example, can bend at a certain temperature and accordingly interrupt the circuit.

The arrangement of the sockets for fuses in series with the temperature fuse enables on the one hand to protect the circuit from over-currents when the circuit is closed and on the other hand to prevent excessive temperatures in the circuit. In other words, if the load of the circuit is, for example, close to its maximum allowable amperage, this circuit may become hot. If this happens for a long time, there is a risk that the circuit heats up to above the allowed temperature. This can be prevented by the proposed series/concatenation. If the temperature of the circuit rises to the nominal temperature of the temperature fuse (e.g., 60 c), the temperature fuse reacts and interrupts the circuit. Due to the adjacent arrangement of the socket and the temperature fuse, the heat radiated by the heating of the fuse arranged in the socket according to the invention directly influences this fuse. Accordingly, the temperature fuse monitors a temperature change of the fuse disposed on the slot, so as to more rapidly or sign the temperature change in the safety device and prevent the circuit from overheating.

This interrupts the circuit before the critical temperature is reached. The heating rate of the fuses in the circuit is typically faster than the rest of the components of the circuit. In other words, the temperature change of the fuse is advanced with respect to the temperature change of the circuit. A temperature fuse, for example, of 120 c size is suitable for monitoring a fuse of 10 a size.

A socket is understood to mean a device in which a fuse can be accommodated and held in an exchangeable manner. In this case, this fuse may be detachably or detachably arranged in the slot. The socket may have a first contact clip and a second contact clip that stably hold the fuse on the first contact and the second contact, thereby electrically connecting the first contact clip with the second contact clip. This provides an easy to maintain overcurrent protector, which in turn reduces service costs.

In a preferred embodiment, it can be provided that the thermal fuse can be reset.

The resettable thermal fuse enables multiple use of the circuit.

The temperature fuse may be constructed with an automatic reset.

As soon as the temperature of the circuit is again within the permissible range, this circuit can be closed again by this automatic reset.

However, as an alternative, the temperature fuse may be constructed with a manual reset.

This ensures that the circuit does not close again on its own and that the device to which the circuit is connected enters the operating state on its own.

The safety device is preferably constructed in such a way that the socket and the temperature fuse are arranged substantially parallel and adjacent. Parallel substantially includes completely parallel build solutions and build solutions that deviate at most 10 ° from parallelism in angle.

The parallel and adjacent arrangement of the thermal fuse and the slot of the fuse enables the thermal radiation to act directly on the thermal fuse. This allows improved thermal monitoring of the fuse by means of the temperature fuse.

The socket and the thermal fuse are preferably arranged in a common housing.

This housing may refer to, for example, a housing of a superordinate assembly, such as a housing of a travel adapter. However, it is also conceivable to provide a second housing, preferably a separate housing, in which the socket and the thermal fuse are arranged, in this upper housing.

This increases the influence of the heat radiation of the fuse located in the slot during use according to the invention on the temperature fuse.

In a preferred embodiment, the common housing, in which the socket and the temperature fuse are arranged, is isolated from the environment.

The heat generated in the closed housing can build up, which in turn leads to an accelerated triggering of the temperature fuse over time. The switching curve of the safety device, in other words the triggering curve of the safety device, can be adjusted or influenced accordingly by means of a corresponding embodiment of the closed housing.

The common housing, in particular the housing constructed as a second housing, advantageously has a partition wall, wherein the insertion slot is arranged on a first side of the partition wall and the temperature fuse is arranged on a second side of the partition wall. The partition wall can physically separate the fuse from the temperature fuse, but is nevertheless arranged adjacent to one another in a sufficiently close manner that the heat generation on this fuse acts directly on the temperature fuse.

The partition wall advantageously has a partition wall thickness, so that the distance between the socket on the first side and the temperature fuse on the second side can be defined by the partition wall thickness, thereby achieving a compact safety device. The greater the thickness of the partition wall and the greater the distance mentioned above, the less the temperature of the thermal fuse is influenced by the temperature radiated by the fuse.

The socket and the temperature fuse are advantageously arranged opposite one another on the partition wall, so that the common housing is compact and space-saving.

The partition advantageously divides the common second housing into a first chamber and a second chamber. In this case, the socket for the fuse is disposed in the first chamber, and the temperature fuse is disposed in the second chamber. Therefore, the slot and the temperature fuse are spatially separated from each other, so that, for example, a grandchild fault of the fuse located in the slot in the first chamber cannot mechanically affect the temperature fuse located in the second chamber.

The common second housing is advantageously arranged in the travel adapter in a manner detachable from the travel adapter. This enables the common second housing to be removed from the travel adapter and at least the fuse to be simply arranged in, for example clamped into, the slot.

Another aspect of the invention relates to a travel adapter comprising a security device as described above.

This makes it possible to provide a travel adapter which is protected against overcurrent and overheating and which enables reliable operation of the travel adapter and/or of the device connected thereto.

The travel adapter is preferably a travel adapter having at least one receptacle of a first standard and at least one plug of a second standard. The receptacle of the first standard has at least a first contact receptacle and a second contact receptacle. The plug of the second standard has at least one first contact pin and one second contact pin. One of the contact pins of the plug of the second standard is electrically connected or connectable with one of the contact sockets of the socket of the first standard by means of a safety device.

In other words, an electrical circuit with a safety device as described above is provided between one of the contact pins of the plug of the second standard and one of the contact sockets of the socket of the first standard. As mentioned in the introduction, this circuit may have an open and a closed state.

In this case, it is conceivable that the remaining contact pins and the remaining contact sockets are also connected to each other by an electric circuit.

By this arrangement a bipolar travel adaptor is provided which can be used in a number of countries having different socket standards and which is capable of safe operation.

The socket of the first standard may have a third contact socket for a grounding pin and the plug of the second standard has a third contact pin as a grounding pin. The contact sockets for the grounding pin and the contact pins designed as grounding pins can also be connected to one another via an electrical circuit.

This provides a three-pole travel adapter that can be used in many countries depending on the standard chosen for the socket and plug.

The travel adapter preferably comprises a fuse. This provides a fully functional and ready-to-use travel adapter.

In a preferred embodiment, the plug is supported on the travel adapter in a movable or rotatable manner. This enables on the one hand the transport of the entire compact object and on the other hand the separation of the circuit. Furthermore, a plurality of plugs of different standards can be provided and in particular can be mounted in a movable or rotatable manner. This makes it possible to push the corresponding country-specific plug out of the housing and to close the circuit contained in the travel adapter accordingly, depending on the country in which this travel adapter is used.

Drawings

The invention will be described in detail below with reference to the drawings, which show only exemplary embodiments. Wherein:

FIG. 1 is a perspective view of a travel adapter;

FIG. 2 is a second perspective view of the travel adapter of FIG. 1;

FIG. 3 is a schematic view of a security device;

FIG. 4 is a detailed view of the security device in the travel adapter.

Detailed Description

FIG. 1 is a perspective view of a travel adapter 200. The travel adapter 200 has a receptacle side 210 and a plug side 220. A plurality of plugs of the first standard are provided on the plug side 220. The individual contact pins of the plug of the first standard are each arranged behind an associated opening in the housing 201 of the travel adapter 200. For clarity, only one standard (here, the U.S. standard) of styli 221, 222, 223 is labeled.

FIG. 2 is a perspective view of the travel adapter 200 shown in FIG. 1. The receptacle side 210 is visible in fig. 2. The socket side 210 likewise has a plurality of openings in which contact elements for receiving the contact pins of a plug are arranged. These openings together with the contact elements form a contact receptacle. For the sake of clarity, only a single standard contact receptacle is provided with reference numerals, here italian standard contact receptacles 211, 212 and 213.

Fig. 3 is a schematic diagram of the security device 100. The security device 100 is shown schematically in the travel adapter 200. In the present case, the safety device 100 is arranged between the contact receptacle 211 and the contact pins 221. In the present case, the connection between the contact receptacle 211 and the contact pins 221 forms the electrical circuit 40. A thermal fuse 10 and a socket 20 for a fuse 21 are arranged within the circuit 40. In the present case, the socket 20 is disposed adjacent to the temperature fuse 10.

The heat dissipation from the fuse 21 in the direction of the thermal fuse 10 is illustrated by the arrows.

FIG. 4 is a detailed view of the security device 100 in the travel adapter 200, as viewed from side X shown in FIG. 1. The housing 201 of the travel adapter 200 is shown transparent so that the security device 100 is visible within the housing 201. The safety device 100 is located in a housing 201 in the second housing 30, so in other words this second housing is a common housing for the socket 20 and the temperature fuse 10. The second housing 30 may be separated from the housing 201 and thus spatially separated. The second housing 30 has two chambers 34, 35, not shown in detail, wherein one chamber 34 is designed as a socket 20, in which the fuse 21 is arranged. A second chamber 35 extends parallel to the slot 20, in which the thermal fuse 10 is arranged. The second chamber 35, in which the temperature fuse 10 is arranged, is separated from the receptacle 20 by a partition 31, wherein the receptacle 20 is arranged on a first side 32 of the partition 31 and the temperature fuse 10 is arranged on a second side 33 of the partition 31. This arrangement enables the fuse 21 to be physically separated from the temperature fuse 10, but still arranged in sufficient proximity that the heat generation on the fuse 21 acts directly on the temperature fuse 10. In this case, the fuse 21 may be detachably or detachably disposed on the socket 20. The receptacle 20 has a first contact clip 22 and a second contact clip 23 which on the one hand hold the fuse 21 on a first contact 24 and a second contact 25, so that the first contact clip 22 and the second contact clip 23 are connected together. The list of reference numerals is also an integral part of the disclosure, as is the technical content of the claims and the drawings. Like reference numerals refer to like elements and reference numerals with different indices refer to functionally identical or similar elements.

List of reference numerals

100 safety device

200 travel adapter

201 casing

210 socket side

211 contact socket

212 contact socket

213 contact socket

220 plug side

221 contact pin

222 contact pin

223 contact pin

10 temperature fuse

20 inserting groove

21 fuse

22 first contact clip

23 second contact clip

2421 first contact

2521 of a second contact

30 second housing

31 partition wall

3231 first side

3331 second side

40 circuits.

The claims (modification according to treaty clause 19)

1. A safety device (100) for protecting an electric circuit of a travel adapter (200), comprising a thermal fuse (10) for interrupting the electric circuit at a specific temperature and a socket (20) for housing a fuse (21) adapted to interrupt the electric circuit at a specific amperage in the electric circuit,

it is characterized in that the preparation method is characterized in that,

the temperature fuse (10) and the socket (20) are connected in series in the circuit, wherein the socket (20) and the temperature fuse (10) are arranged adjacently.

2. The safety device (100) according to claim 1, characterized in that the temperature fuse (10) can be reset.

3. The safety device (100) according to claim 2, characterized in that the temperature fuse (10) is constructed with an automatic reset.

4. The safety device (100) according to claim 2, characterized in that the temperature fuse (10) is constructed with a manual reset.

5. The safety device (100) according to any one of claims 1 to 4, wherein the socket and the temperature fuse (10) are arranged substantially parallel and adjacent.

6. Safety device (100) according to one of claims 1 to 5, characterized in that the receptacle (20) and the temperature fuse (10) are arranged in a common housing (30), wherein the common housing (30) advantageously has a partition wall (31), wherein the receptacle is arranged on a first side (32) of the partition wall and the temperature fuse is arranged on a second side (33) of the partition wall.

7. A travel adapter (200) comprising the security device (100) according to any one of claims 1 to 6.

8. The travel adapter (200) of claim 7, wherein the travel adapter has at least one first standard socket having at least one first contact socket and one second contact socket and at least one second standard plug having at least one first contact pin and one second contact pin, wherein one of the contact pins of the second standard plug is electrically connected or electrically connectable with one of the contact sockets of the first standard socket by means of the security device (100).

9. The travel adapter (200) of claim 8, wherein the first standard receptacle has a third contact receptacle for a ground pin and the second standard plug has a third contact pin as a ground pin.

10. The travel adapter (200) according to any of claims 7-9, comprising a fuse (21).