EP1244184A2 - Connection system for connecting load cells - Google Patents

Abstract

The system has a housing with at least one plug connector (2) in the housing for connecting a connecting cable and at least one further plug connector (3) for connecting at least one weighing cell. Several plug connectors are provided for the connection of several weighing cells and differently coded connectors are provided for connecting the cable and weighing cells. An Independent claim is also included for a method of monitoring the operation of weighing cells.

Description

The invention relates to a connection system for Connection of load cells to a connection cable.

For measuring the load of a container, for example of a silo, load cells are used. It comes to Use of several load cells individually or in parallel switched, so they usually have to central data acquisition system electrically connected become. So far, this wiring was done with the help of Screw clamp terminals implemented. Here, the individual strands, for example the supply voltage, the signal voltage and the shield, each individually attached to an associated screw terminal.

In the previously known connection system for several Weighing cells are particularly suitable for cabling very many load cells very complex and prone to errors. The exchange of individual load cells also holds Danger of a wiring error. The disadvantage is continue with the known connection systems for Load cells that there is no error detection, which the different error conditions, for example, cable break and reverse polarity.

Based on the explained prior art, the Invention, the object of a connection system for Connection of load cells to a connecting cable for To make available which assembly one or several load cells significantly simplified and simultaneously minimizes the susceptibility to errors during assembly.

According to the previously derived and shown task for a connection system to Connection of load cells to a connecting cable solved that in the housing of the connection system at least a connector for connecting a connecting cable and at least one additional connector for connection at least one load cell is provided. The Plug connections serve as detachable electrical Contacts and facilitate assembly according to the invention a connection system for connecting load cells a connecting cable essential.

Are multiple connectors for connecting multiple Load cells are provided, according to another Embodiment of the connection system according to the invention, the parallel operation of several load cells on one Connection cable possible without complex assembly.

A next embodiment of the invention Connection system is advantageously designed that differently coded connectors for that Connection cables and the load cells are provided. A Confusion of the plug positions of the connectors for the connection cable and the load cells is due to the Coding no longer possible. The vulnerability of the Assembly of the connection system is thereby continued reduced.

This also makes the assembly more susceptible to errors further reduced that, according to another Embodiment of the connection system according to the invention, a plug for the connecting cable and for the Load cells each have a socket. Alone by the type of connector in the connection system can be plug connectors for the connecting cable and differentiate for the load cells.

By making an automatic distinction between the operation of one or more load cells via the selected connector is provided, according to a next advantageous embodiment, the Programming internal amplifiers according to the The connectors are assigned. An afterthought Programming an internal amplifier for amplification the measuring signals of the load cells are no longer necessary.

Avoiding wiring errors for the different operating modes of the connection system, for example the operation of one or more load cells Load cells in parallel, is according to a further developed Embodiment achieved in that the different connectors of the load cells for the Operation of one or more load cells are coded differently. For example, by a same installation angle one with an anti-twist protection provided connector with respect to an axis, such as the Longitudinal axis of the housing of the connection system, the Coding for, for example, two operated in parallel Load cells are guaranteed.

A is particularly advantageously designed Connection system according to the invention if means for Detection and automatic display of various Operating states of the connection system are provided. An automatic display of the different Operating conditions of the connection system guaranteed a particularly simple troubleshooting.

The fact that according to a trained Embodiment, at least one light emitting diode automatic display of the operating states provided is a particularly inexpensive and reliable Display of the operating status of the connection system be guaranteed.

According to a further developed embodiment at least the operating states power supply, Loop current, polarity reversal and cable break can be displayed. According to the invention, the essential Possible errors in a connection system for Load cells displayed, making a fault analysis very much can be done quickly.

By having at least one ground wire and if necessary, a surge arrester in one next embodiment is provided, the can load cells connected to the connection system Surges from the network are secured.

To also use the invention Connection system with high protection requirements, For example, to ensure protection classes IP 67/68 are, according to a further developed embodiment of the connection system according to the invention, cavities in the housing of the connection system and in the connectors with one Poured plastic. In this way, for example, a Protection against dust and water ingress Immerse according to the IP protection class IP68 be ensured.

Are, according to a method according to the invention Operational monitoring of load cells, at least the Power supply, loop current, polarity reversal and cable break of the connected load cell displayed, the essentials during operation and at the assembly of the load cells Possible errors can be determined directly. The Operational safety of load cells can be achieved with the The method according to the invention is therefore significantly increased and errors are specifically remedied.

Fig. 1

ein erstes Ausführungsbeispiel eines erfindungsgemäßen Verbindungssystems zum Anschluss von einem Verbindungskabel und einer einzelnen Wägezelle oder zwei parallel betriebenen Wägezellen.

Fig. 2

ein Ausführungsbeispiel einer elektrischen Schaltung die das erfindungsgemäße Verfahren zur Betriebsüberwachung von Wägezellen gewährleistet.

There are now a multitude of possibilities for designing and developing the connection system according to the invention for load cells and the method according to the invention for monitoring the operation of load cells. For this purpose, reference is made, for example, on the one hand to the claims subordinate to claim 1, and on the other hand to the description of preferred exemplary embodiments in conjunction with the drawing. In the drawing shows

Fig. 1

a first embodiment of a connection system according to the invention for connecting a connection cable and a single load cell or two load cells operated in parallel.

Fig. 2

an embodiment of an electrical circuit which ensures the inventive method for monitoring the operation of load cells.

In Fig. 1 is an embodiment of the invention a connection system for load cells, which is a housing 1, a connector 2 for the Connection cable, and connector 3 for connection one or more load cells. In addition are in the housing 1 of the connection system according to the invention LEDs 4 and a grounding cable 5 are provided. The LEDs 4 are used to display Operating states, for example power supply, Loop current, reverse polarity and cable break connected load cells. Using the ground wire 5 can the entire connection system to a fixed Potential, for example also grounded become.

As can be seen from FIG. 1, the connector 2 of the connecting cable as a plug and the plug connector 3 pronounced as sockets for the load cells. So is it is not possible that the connectors 2 and 3 at Connection of the load cells or the connecting cable be exchanged. In addition, the connectors 3 for connecting the load cells to each other coded differently so that between the connector of a single load cell and two in parallel connected load cells can be easily distinguished can. The LEDs 4 are arranged so that the operating status of the respective associated Show connector.

The electrical circuit diagram of a circuit of a second Embodiment, which the inventive Procedure for monitoring the operation of load cells is shown in Fig. 2. Here is the Connector 5 for connecting the connecting cable Supply to the load cells and sockets 6, 7 and 8 each intended for connection to load cells. About the electrical contacts 9 and 10 of the connector 5 are connected to sockets 6 to 8 Load cells supplied with voltage. In the further the How this circuit works using the example of Connection of a load cell to the connection system explained. When connecting only one load cell individually to the socket 7 provided for this indicates a through the light emitting diode (LED) 11 via the resistor 12 flowing current whether the correct supply voltage between the electrical contacts 13 or 14 and 15 of the Socket 7 of the individual connection is present. Is this live cables at any point interrupted, the uncontrolled LED signals 11 that there is no correct supply voltage. The Loop current between the electrical contacts 13 or 14 and 15 of socket 7 of the individual connection the LED 16 on when it is connected via the resistor 17 is controlled accordingly. In the case of proper connection and operation of the individual Load cell there is a sufficiently large Voltage drop across the voltage divider resulting from the Diodes 18 to 20 and the resistor 27 is formed, so that a sufficiently large current drives the LED 16. As soon as this loop current is interrupted, i.e. on Broken cable in the area of the power supply Load cell is present, it is switched off by the LED 16 signals. Furthermore, the plug contact 21 of the connector 5 of the connecting cable with the Signal line also via the plug contact 22 of the Connection sockets 7 of the load cell connected. To the Signal line for the weighing signal from the network Keeping overvoltages caused can be a Surge gas arrester 23 between the plug contact 21 of the connector 5 and the contact 9 of the Connector 5 are switched. Furthermore, that is whole system, i.e. the connector 5 of the Connection cable and the sockets 7 of Load cell via the electrical contact 24, 25 of the respective connector connected to ground 26.

Claims (12)

Connection system for connecting load cells to a Connection cable, with a housing (1), wherein in Housing at least one connector (2) for Connection of a connecting cable and at least one additional connector (3) for connection at least a load cell is provided. Connection system according to claim 1, characterized in that a plurality of plug connectors (3) are provided for the connection of a plurality of load cells. Connection system according to one of claims 1 or 2, characterized in that differently coded connectors (2 , 3) are provided for the connection cable and the load cells. Connection system according to one of claims 1 to 3, characterized in that a plug is provided for the connecting cable and a socket is provided for the load cells. Connection system according to one of claims 2 to 4, characterized in that an automatic distinction between the operation of one or more load cells via the respectively selected plug connector (3) is provided. Connection system according to one of claims 2 to 5, characterized in that the different connectors (3) of the load cells are coded differently for the operation of one or more load cells. Connection system according to one of claims 1 to 6, characterized in that means for detecting and for automatically displaying various operating states of the connection system are provided. Connection system according to one of claims 1 to 6, characterized in that at least one light-emitting diode (4) is provided for the automatic display of the operating states. Connection system according to claim 7, characterized in that at least the operating states of voltage supply, loop current, polarity reversal and cable break can be displayed. Connection system according to one of claims 1 to 8, characterized in that at least one earthing cable (5) and optionally a surge arrester is provided. Connection system according to one of claims 1 to 9, characterized in that cavities in the housing (1) of the connection system and in the plug connectors (2, 3) are cast with a plastic. Method for monitoring the operation of load cells, in particular for implementation with the aid of a connection system according to one of claims 1 to 9, characterized in that at least the states of voltage supply, loop current, polarity reversal and cable break of the respectively connected load cell are displayed.

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