DE102009054834B4 - Self-monitoring connection cable and device - Google Patents

Abstract

Connecting line (10) with at least two conductors (N, L) for transmitting a supply voltage, wherein the connecting line (10) further comprises a protective conductor (PE) and a measuring conductor (P), which at one first end of the connecting line (10) conducting each other are connected, wherein at the first end of the connecting line (10) a mains plug (12) with connection contacts (13) is provided, wherein the conductors (N, L) with its connection contacts (13) and the protective conductor (PE) and the measuring conductor (P) are connected to a protective conductor contact (14) of the mains plug (12), and the connecting cable (10) comprises at a second end a measuring device (30) for measuring the resistance in a protective conductor (PE) and the measuring conductor (P) comprehensive measuring circuit and for issuing a warning signal in case of excess resistance.

Description

The invention relates to a connecting line for electrical devices and to a device with a connecting line.

Electrical devices are provided with a connection cable, whereby it can happen that the connection line or the equipment is damaged. If such damage is not detected, then there is a risk to operators, such as. By an electric shock, and a security problem, such as. A fire hazard from overheating.

• 1. Widerstandsmessung, insbesondere des Schutzleiters (RSL)
• 2. Schutzleiterstrom, wobei gemessen wird, ob in einem angeschlossenen Gerät oder dessen Anschlussleitung ein Schutzleiterstrom, also ein Fehlerstrom, entstanden ist.
• 3. Sichtprüfung

According to DIN-VDE 0701-0702, the following tests must be carried out at regular intervals:

• 1. Resistance measurement, in particular of the protective conductor (RSL)
• 2. Protective conductor current, whereby it is measured whether a protective conductor current, ie a fault current, has arisen in a connected device or its connecting line.
• 3. Visual inspection

In the German utility model DE 296 00 911 U1 a line of mutually insulated individual conductors with at least one outer conductor, a neutral conductor and two protective conductors is disclosed. The protective conductors can have the same or an unequal cross-section and are connected to one another in a consumer connected to the line. A tester removes a test voltage from the phase conductor and applies it to one of the two protective conductors in order to measure a test current.

In the German Auslegeschrift DE 12 90 985 A discloses an arrangement for monitoring the ingress of moisture in telecommunications cables by means of test wires connected to a Wheatstone bridge.

The European patent EP 0 974 182 B1 (German translation DE 698 36 806 T2 ) discloses an electrical safety device for detecting over temperature and mechanical damage to power cables and devices. A control unit measures the resistance of a sensor loop and activates a breaker if necessary.

The object of the present invention is to provide a connecting line and a device with a connecting line with which damage to the connecting line can be detected as simply as possible and safely by the user.

According to the invention, a connecting line with the features of claim 1 and a device with the features of claim 2 are provided. Preferred embodiments are described in the dependent claims.

By using the additional measuring conductor P is a resistance increase, such. B. detected early in a line damage to the protective conductor PE. Thus, the cycles of the regular test can be legally extended by a risk assessment according to the German Industrial Safety Ordinance, because now the proof is given (recognizable for the technical layman) about the observance of the max. permissible protective conductor resistance of the monitored equipment. Accordingly, costs are saved. In this case, it is not essential according to the invention whether the resistance measurement is integrated in the connecting line itself or is outsourced to a connected operating medium.

In addition, the measuring device comprises an ammeter for measuring the protective conductor current. As explained in detail later in the exemplary embodiment, due to the parallel in the connecting line 10 extending protective conductor PE and measuring conductor P of the protective conductor current during operation of a connected load to be measured, in particular without having to make modifications. Correspondingly, as with resistance measurement, the proper functioning of a resource can be checked continuously and for the technical layman.

Advantageously, a mains plug is connected to the first end of the connecting line, which makes it possible to easily and simply integrate the connecting line according to the invention into an existing electrical infrastructure. In particular, the power plug is a standard plug, in particular a grounded or Schukostecker or IEC connector.

An electrical device with a connecting line, such as in particular an electrical load, extension cable, cable drum or distribution socket comprises a corresponding measuring device and the connecting line is either inseparably connected to the device or connectable via a separable connection to the device. If the device already has electrical / electronic circuits, these can be extended cost-effectively by the described measuring functions. In the case of a separable connection cable can be easily and inexpensively replaced if damaged.

Furthermore, the connection cable can be used in a building installation, wherein the measuring device is provided at the building-side end of the connection cable and is arranged to measure the protective conductor current and protective conductor resistance.

In a corresponding method for detecting a malfunction in a measuring circuit of a connecting line with a protective conductor PE and a measuring conductor P and a power plug, a functional test / a calibration function is performed after plugging the power plug into a socket and briefly displayed by a function message, in particular in shape a flashing or short acoustic signal. As a result, similar to the airbag of a car, the user can be given feedback on the proper functioning of the measuring device at the beginning. The measuring device then measures preferably continuously the resistance of the measuring circuit and / or the protective conductor current and outputs a warning signal when an impermissible resistance value is exceeded.

If the measuring device continuously measures the resistance and / or protective conductor current, damage to the connecting line can be detected with little technical effort. Furthermore, a fault or damage to the equipment connected to the connection cable can also be detected.

Reference to the drawing, an embodiment of the invention will be explained in detail below.

It shows:

1 a schematic representation of the connecting line with a coupling-integrated measuring device (such as a cold device connection line),

2 a schematic representation of the connecting cable with a connected electrical device, such as a cold device line with test wire P parallel to the protective conductor,

3 the application example for a 3-way table distribution (socket) 230 V and

4 a building installation.

The connection cable 10 of the 1 includes four conductors, namely L as phase and N as neutral, PE as protective conductor and P as measuring conductor.

At the first end of the connecting cable 10 is a first power plug 12 provided in which the conductors N and L with its connection contacts 13 are connected and the protective conductor PE and the measuring conductor P are connected to the protective conductor contact 14 of the power plug 12 connected. At the other end of the connecting cable is a second plug or a coupling 40 arranged. In this second plug 40 can be a measuring device 30 be integrated, which is a power supply 38 , an ohmmeter 32 , an acoustic warning device 34 , a warning light 36 and a power knife 32 having. The resistance meter 32 is inside the second connector 40 with its one measuring potential with the protective conductor PE and its second end via the intermediate power supply 38 connected to the measuring conductor P, so that a control or measuring circuit is formed, which includes the conductors PE and P over the length of the connecting line. An interruption of one of the conductors PE or P or a corresponding increase in resistance, which may occur due to damage, is provided by the ohmmeter 32 recognized. About a control lamp 36 and / or an audible warning device 34 a corresponding warning can be issued. The user recognizes the damage to the connecting cable due to these warning signals 10 and can replace it accordingly or the technical service expert.

Further, in the measuring device 30 an electricity meter 33 provided for measuring the protective conductor current in the protective conductor P. In one measurement is an electrical device / consumer (not shown) on the second connector 40 connected with the three contacts N, L and PE. If there is a fault in this device, a protective conductor current is generated, which is connected to the potential PE of the connector 40 transmitted and so on the one hand via the protective conductor PE via the connecting cable 10 to the first power plug 12 forwarded and discharged accordingly. On the other hand, at the potential PE of the plug of the measuring conductor P is connected, which also, as already described on the measuring device 30 with the protective conductor contact 14 of the first power plug 12 connected is. PE and P are thus connected in parallel. This will divide the fault current of the connected device between both P and PE conductors. If the resistance of the measuring conductor P corresponds to that of the protective conductor PE, then the division in the sense of a current divider will be half. The electricity meter 33 measures the current flowing through the measuring conductor P and, with the corresponding measurement results (as will be explained later), can recognize that a protective conductor current flows via the PE contact of the second connector 40 was introduced into the measuring circuit. Accordingly, the ammeter on the indicator light 36 and / or the audible warning device 34 to issue a warning. Alternatively and / or additionally, the transmission of the signal via a transponder is possible.

By grounding the connected device via the parallel conductors P and PE, the connection of the protective conductor PE does not have to be interrupted and so is a measurement during operation of the device, ie in particular continuously possible.

If a damaged cable is not replaced, the operating personnel is at risk or a fire hazard may arise. For this reason, inspections of equipment, conductors or cables are prescribed by the standard in DIN VDI 0701-0702 or the Industrial Safety Ordinance. The test interval is determined by the operator on the basis of a risk assessment to be prepared. Since the described connection line carries out a measurement test itself, the test cycle can be increased. In order to be able to recognize a fault in the measuring device itself, the measuring device is 30 set up that when plugging in the power plug 12 into a corresponding socket with a brief illumination of the indicator light 36 reacts for about 1-2 seconds and / or with a sound from the acoustic warning device 34 as a signal to the user that the measuring device 30 works perfectly. If the measuring device does not output such a signal, it is an indication of a fault for the user, so that the connecting cable 10 also exchange.

The power supply 38 decouples a low voltage from the mains voltage, ie via the potentials N and L. This is done via a galvanic isolation in order to keep the mains voltage separate from the protective conductors P and PE.

The resistance meter 30 has a threshold value of approx. 150 mΩ, which is therefore smaller than the conventionally used threshold value of max. 300 mΩ, because the contact resistance is lower. The ohmmeter outputs the warning when the measured resistance exceeds the threshold. In the present embodiment, the test current is 200 mA, but can be adjusted. The protective conductor PE is used for earthing and is defined by corresponding standards in the cross section and nature. This does not apply to the measuring conductor P, which is used for the testing task. For this reason, it can have a different, in particular smaller cross-section, so as to save material and costs. As a result, the described division of the protective conductor current of a connected device is changed accordingly.

2 shows an alternative embodiment in which also the second end of the connecting line 10 with a plug or coupling 50 is provided. Here is in this coupling 50 but no measuring device integrated. Instead, the clutch can 50 with a coupling counterpart 52 an electrical device / equipment 60 connected, which is a measuring device 62 which is comparable to the measuring device already described 30 is working. In the device, the potential of the protective conductor PE is used for grounding, by being connected to the parts to be grounded, in particular the housing. The measuring device 62 measures the resistance between the case of the device 60 and the potential P including the contact resistances of the plug contacts, so in particular the cold device connection line to the connection socket of the equipment. The connected device 30 can any consumer, such as. As a home appliance, workshop equipment, computer or even, for example. Be a passive device such as a cable drum. The measuring device 62 Thus, according to the first embodiment, both damage to the connecting cable 10 , the plug contacts, as well as a protective conductor current in the device during operation to detect yourself.

Alternative to the device 60 can according to 3 the connection line 10 with a junction box 20 be connected. The junction box 20 includes three slots / sockets 22 for plug-in plug and each of the sockets has two protective earth contacts 24 on which are connected within each outlet. The measuring device is connected so that the measuring circuit via the protective conductor of the individual sockets 22 via the PE protective conductor of the connecting cable to the mains plug 12 at the first end of the connecting cable 10 , via the measuring lead P back to the junction box 20 and there to the measuring device 30 is directed. This can be detected in the resistance test, whether the protective earth contacts of the socket 20 properly in particular low impedance with the protective conductor contact 14 of the power plug 12 are connected. Further, as described above, via the measurement of the current in the flowmeter 33 a fault in the equipment connected thereto in the protective conductor current of a connected device are detected and make the defect acoustically or optically recognizable to the user.

4 shows a building installation in which by a power grid 89 the potentials L, N and PE are provided and via fuses F1 and F2 each to a controller 80 be directed. From the controller go two connecting cables 10 which, as already described, also have the measuring conductor P in addition to the protective conductor PE. These connecting leads lead to, for example, a junction box or (in particular fixedly installed) socket (s) 22 which are integrated, for example, in a floor tank (or floor outlet). There is the connection line 10 connected to both potentials for conductors N and L, the protective conductor PE. At a power outlet 22 disconnected from the socket to which PE is connected, the measuring lead P is connected so that a conductive connection is made from PE to P across all sockets. This corresponds to the contacting, as already in the embodiment of 3 has been described. With this arrangement, the same measurements are possible as described in the above embodiments. A faulty contact can therefore be detected via a resistance measurement on the measuring conductor P. This includes the controller 80 two measuring devices 30 , which in each case on a measuring conductor P one of the connection lines 10 are connected. The described continuous measurements of the resistance and the protective conductor current can be carried out via the controller. The results can be via a status evaluation 85 be forwarded either by radio or internet. As a result, an alarm of a janitor or a service point is possible when exceeding the limits. Next to the two connection lines 10 The controller can also be connected to other connecting cables.

Furthermore, the controller can 80 a device for insulation measurement (not shown) include. In order to carry out a corresponding insulation measurement, all consumers must be disconnected from the sockets 22 can be removed, and then the test can be started manually and with a high voltage in accordance with DIN VDE 0105-100 an insulation measurement can be performed to the insulation resistance of the connecting cable 10 and the sockets 22 to eat. Since all connected devices must be removed prior to the measurement, this measurement may only be performed by a qualified electrician.

In the spirit of the invention are connecting cables with more than two conductors, such. B. comprises three conductors in the three-phase alternating current (three-phase) or more conductors.

LIST OF REFERENCE NUMBERS

10

connecting cable

12

power plug

13

terminals

14

A ground contact

20

junction box

22

socket

24

A ground contact

30

measuring device

32

ohmmeter

33

ammeter

34

acoustic warning device

36

indicator light

38

power supply

40

second plug / coupling

50

M / F

52

Coupling counterpart

60

(electric device

62

measuring device

80

controller

81

computer

82

Status propagation

84

data storage

89

power grid

P

measuring Head

PE

protective conductor

L

Ladder (phase)

N

Neutral

Claims (6)

Connecting cable ( 10 ) with at least two conductors (N, L) for transmitting a supply voltage, wherein the connecting line ( 10 ) further comprises a protective conductor (PE) and a measuring conductor (P), which at a first end of the connecting line ( 10 ) are conductively connected to each other, wherein at the first end of the connecting line ( 10 ) a power plug ( 12 ) with connection contacts ( 13 ) is provided, in which the conductors (N, L) with its connection contacts ( 13 ) and the protective conductor (PE) and the measuring conductor (P) with a protective conductor contact ( 14 ) of the mains plug ( 12 ), and the connecting line ( 10 ) at a second end a measuring device ( 30 ) comprises for measuring the resistance in a measuring circuit comprising the protective conductor (PE) and the measuring conductor (P) and for outputting a warning signal in the event of excessively high resistance. Device comprising: an electrical device ( 20 . 60 ), which is a measuring device ( 62 ), and a connecting line ( 10 ) with at least two conductors (N, L) for transmitting a supply voltage, wherein the connecting line ( 10 ) further comprises a protective conductor (PE) and a measuring conductor (P), which at a first end of the connecting line ( 10 ) are conductively connected to each other, wherein at the first end of the connecting line ( 10 ) a power plug ( 12 ) with connection contacts ( 13 ) is provided, in which the conductors (N, L) with its connection contacts ( 13 ) and the protective conductor (PE) and the measuring conductor (P) with a protective conductor contact ( 14 ) of the mains plug ( 12 ), the connecting line ( 10 ) at its second end with the electrical device ( 20 . 60 ), the measuring device ( 62 ) is used for measuring the resistance in a measuring circuit comprising the protective conductor (PE) and the measuring conductor (P) and for outputting a warning signal in the event of excess resistance. Connecting cable ( 10 ) according to claim 1 or device according to claim 2, wherein the Measuring device ( 30 . 62 ) an ammeter ( 33 ) for measuring a current in the protective conductor (PE). Connecting cable ( 10 ) according to one of claims 1 or 3 or device according to one of claims 2 or 3, wherein the protective conductor (PE) and the measuring conductor (P) have different cross sections. Device according to one of claims 2 or 3 or 4, wherein the electrical device ( 20 . 60 ) an electrical consumer or an extension cable or a cable drum or a distribution socket ( 20 ). Device according to one of claims 2 or 3 or 4 or 5, wherein the connecting line ( 10 ) via a separable connection ( 50 . 52 ) with the electrical device ( 20 . 60 ) connected is.

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