DE20203777U1 - Portable electrical protection device - Google Patents

Description

Applicant: Heinrich Kopp AG

Alzenauer Str. 66 - 70
637 9g. Kahl am Main

PORTABLE ELECTRICAL PROTECTION DEVICE

The present invention relates to a portable electrical protection device for monitoring an electrical
Circuit of an end user, in particular an electrical adjustment device for hospital and nursing beds.

Although applicable to any electrical end user,
the present invention and the underlying
Problems related to an electrical adjustment device for hospital and nursing beds are explained.

· IWTEHNET:

ISARPATENT»

Health damage and even deaths of bedridden patients are becoming more and more common as a result of electric shocks and smoldering fires on defective hospital or care beds. Common causes are crushed and/or defective cables. If liquid comes into contact with a defective cable - and this is undoubtedly a risk for incontinent patients - smoldering fires can quickly develop in the bed sheets and mattresses or the patients can receive an electric shock. Other causes can include damage to the power cable and the connecting cables between individual drive components, inadequate protection against liquid on live components and irregular maintenance and inspection of the corresponding components.

To date, the following measures have been recommended to reduce the number of accidents described above: Disconnecting hospital and nursing beds from the power supply and returning to manual adjustment; Disconnecting the adjustment device from the power supply after the adjustment device has been operated; subsequently upgrading the device with a protective device against the effects of moisture; Strain relief of the cable line by means of appropriate cable guides.

However, the measures listed have the disadvantage that they can only be implemented with a high level of effort and/or cause high additional costs, which in itself is an exclusion criterion in the social sector.

It is an object of the invention to provide an electrical protection device for electrical circuits which can be cost-effectively integrated into existing electrical systems of end users and which protects the user of the respective end user from electric shocks and smoldering fires.

This object is achieved according to the invention by the features of patent claim 1.

Further embodiments of the invention emerge from the subclaims.

The electrical protection device according to the invention has a residual current device operating according to the reference current principle and an integrated overload or temperature protection device.

The protective device according to the invention thus protects the user of an end user against fault currents that can occur due to the described electrical faults, for example operating errors, wear and moisture, as well as the components used by the end user against overload currents, thereby preventing damage to these components as well as excessive temperatures and thus smoldering fires.

According to a preferred further development, the overload or

Temperature protection device between the output terminal

and the residual current device is connected to the phase conductor or the neutral conductor.

According to a further preferred embodiment, the overload or temperature protection device is designed as a fuse which interrupts the circuit in the event of a predetermined overload or threshold current flow within the circuit, for example by self-destruction.

The residual current device preferably has a rated residual current that is less than or equal to 3OmA.

In a further embodiment, the residual current device switches off all poles of the circuit when a residual current is detected within the circuit.

Preferably, the electrical protection device can be mounted on any mains connection cable between the end user and the mains connection.

In the following, a preferred embodiment of the invention is described with reference to the drawing to explain further features.

The figure shows a schematic representation of a portable electrical protection device according to an embodiment of the present invention.

In the figure, the phase conductor is designated 1, the neutral conductor 2 and the protective conductor 3.

The electrical protection device according to the embodiment in the figure consists of a residual current device 4, which works, for example, according to the differential current principle and has a rated differential current of less than or equal to 30 mA. Such a residual current device is described, for example, in DE 196 18 279 A1. Such residual current devices offer personal protection in the event of direct contact with live parts. A precise design of such a residual current device can be found, for example, in the above-mentioned publication. In addition to the occurrence of a residual current, such residual current devices can also detect an unconnected or interrupted protective conductor 3, as well as the presence of a voltage or a phase on the protective conductor 3.

The electrical protection device further comprises an integrated overload or temperature protection device 5 between the output connection and the residual current device, which is preferably connected to the phase conductor 1. The overload or temperature protection device 5 can also be connected to the neutral conductor 2.

The overload or temperature protection device 5 is designed, for example, as a self-destructive fuse, for example as a fuse, and is arranged in the primary circuit. The fuse 5 interrupts the circuit of the end user connected on the output side (not shown) when a predetermined overload or threshold current flow occurs, which would damage the end user connected on the output side, for example the electrical adjustment device of a hospital or nursing bed. With such a fuse 5 it is possible to limit the maximum current flow, which on the one hand minimizes the effort required to comply with technical standards and on the other hand prevents the occurrence of overheating and thus a smoldering fire due to a threshold current flow.

The electrical protection device is designed to be mobile and can be integrated between any end user, for example an adjustment device of a hospital or nursing bed, and an assigned mains connection.

Thus, the present invention creates a portable electrical protection device for monitoring an electrical circuit of an end user, which on the one hand protects the end user from electric shocks by means of the residual current device 4 and on the other hand prevents an excessive current flow by means of the overload or temperature protection device 5. This leads to an increase

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the service life of the components and an increase in fire safety.

In addition, the protective device according to the invention is inexpensive and can be retrofitted to any power supply cable.

Although the present invention has been described above using a preferred embodiment, it is not limited thereto but can be modified in many ways.

In particular, instead of a self-destructive fuse 5, any known safety device for limiting a predetermined maximum current flow can be used.

LIST OF REFERENCE SYMBOLS

1 phase conductor

2 neutral conductors

3 protective conductors

4 Residual current device

5 Overload/temperature protection device

Claims (6)

1. Portable electrical protection device for monitoring an electrical circuit of an end user, in particular an electrical adjustment device for hospital and nursing beds, with a residual current device ( 4 ) operating according to the differential current principle and an integrated overload or temperature protection device ( 5 ). 2. Device according to claim 1, characterized in that the overload or temperature protection device ( 5 ) is connected between the output connection and the residual current protection device ( 4 ) to the phase conductor ( 1 ) or the neutral conductor ( 2 ). 3. Device according to claim 1 or 2, characterized in that the overload or temperature protection device ( 5 ) is designed as a fuse ( 5 ) which interrupts the circuit in the event of a predetermined overload or threshold current flow within the circuit, for example by self-destruction. 4. Device according to at least one of the preceding claims, characterized in that the residual current protective device ( 4 ) has a rated differential current greater than or equal to 30 mA. 5. Device according to at least one of the preceding claims, characterized in that the residual current protection device ( 4 ) switches off all poles of a residual current within the circuit when it detects the same. 6. Device according to at least one of the preceding claims, characterized in that the protective device can be mounted on any mains connection line.