DE19960870A1 - Electrical or electronic switch device for connecting switch appliance with adjustable parameters, includes memory store holding main settings for switch appliance assigned to it while supplying resistance - Google Patents

Abstract

A memory store (14) holds the main settings for a switch appliance (12) assigned to it while supplying resistance. If the switch appliance is exchanged for a new switch appliance, data for the main setting is read into the new switch appliance either automatically or manually without requiring a renewed setting.

Description

The invention relates to an electrical or electronic switching device an interface for connecting a communication-capable parameterizable Switchgear.

The catalog "Siemens low-voltage switching technology NS K - 1999/2000" reveals Motor protection and control devices used to control electrical consumers, e.g. B. Motors. Each switching device can e.g. B. by means of a Bus connection can be controlled and has an individual address for this. Such an address includes certain basic settings of the respective switching device, such as its transmission speed (baud rate), current, etc. assigned. These basic settings are parameterized using a PC and special software. The respective data are saved in the PC. In the event of a fault, the switching device in question can be replaced by a fault-free one Switching device to be replaced. Before commissioning, the Basic setting must be made in every detail before e.g. B. from one Control room can be made from the application-specific settings can.

The problem underlying the invention is seen in the fact that Setting a PC each is required, which is high cost and enormous and time-consuming adjustment effort means.

According to the invention, this problem is solved by the teaching of patent claim 1 been, this teaching advantageous in the dependent claims advanced features are included.

In this way, the basic parameters are based on an original Parameterization of the switching device in a captive and unchangeable manner  stored in the storage unit and in if necessary via the interfaces exchanged switching device read. There is no longer a need for a PC, and the individual setting of the individual basic parameters is also omitted. About that In addition, human error and compatibility problems are also addressed older switchgear but new PC software avoided. In total one occurs considerable cost and time savings.

With low flexibility requirements and large quantities, it makes sense to design the storage unit in terms of hardware; supposed to be a slight adjustment be possible if it is implemented as a software solution.

In large switchgear, control or regulation systems. will be a variety different switchgear used. To reduce the construction effort, the storage units assigned to them are combined and preferably realized in one. Contains a single storage unit So all addresses and basic settings of several, e.g. B. of eight, switching devices.

It is indeed very advantageous if the switching device and the storage unit are located in are in close proximity to each other and the service person directly on site can set new switchgear and put it into operation; the way of The interfaces can still be connected very differently. Next the traditional connection by cable, especially a serial RS 485 Cable, can also be a wireless connection using radio, infrared or other Waves occur, which have advantages if due to A material connection should not take place due to environmental influences or spatial Circumstances prohibit this.

A particularly simple implementation of the storage unit takes place in one Plug or the like, which with its interface to the interface of Switching device is connectable and already contains the memory and the controller  wearing. The interfaces can be designed as plugs and sockets that a cable or the like is not required at all.

So that the time of the data flow between the storage unit and the Switching device can be determined, it is proposed to use a Initiate or stop switch or similar actuator. However, even when the various interfaces come into contact, one can immediately Data exchange takes place. Finally, the controller can be controlled so that it Data only e.g. B. omits every ten or thirty seconds, i.e. works cyclically, e.g. B. by means of a timer.

The switching device can itself be part of a large higher-level switching device be and with operating parameters from this switching device, for. B. one Control room are fed. A variety of Cables are dispensed with.

If only the saving of basic settings is essential, it is but an advantage, if at least part of the operating parameters can be transmitted so that the switching device operates faster can be taken.

The basic settings include in particular the address of the switching device, because these first identify the respective switching device and assign further settings leaves.

An already known electrical or electronic switching device can be used one specifically and according to all or part of the abovementioned characteristics therefor designed storage unit can be converted in a simple manner to the to achieve inventive effect.  

In the drawing, an embodiment of the invention is shown. The only Figure shows a schematic representation of a circuit diagram of a switching device.

A switching device 10 contains a plurality of switching devices 12 , a memory unit 14 , interfaces 16 on the memory side, interfaces 18 on the implement side , a control room 20 and a switching connection 22 .

The switching device 10 can be in the simplest form for controlling or regulating a motor, for operating switching elements or the like consumers or as part of a complex system, for. B. the process technology, power generation, industrial production or the like.

The switching devices 12 are designed as intelligent electronic control monitoring modules. A SIMOCODE-DP 3 UF5 motor protection and control device from Siemens is mentioned as an example. Such a switching device 12 is regularly controlled by means of a bus connection and requires certain basic settings, such as the assignment of an address, the transmission speed, its basic type and the like. These basic settings must be made before application-specific settings can be made, which depend on the type of switching device 10 . These basic settings are specified when the switching device 12 is installed for the first time by means of an external computer and are the same for any replacement devices. As a result, the switching device 12 can be parameterized. Basically, the switching device 12 , which takes over control of a consumer 24 connected to it on the basis of an internal program, is located between the consumer 24 and a higher-level control or regulation, in particular a control panel or the control room 20 . While two switching devices 12 are shown in this exemplary embodiment, it should already suffice if only one switching device 12 is used. A large number of switching devices 12 can also be used.

The storage unit 14 is formed in this embodiment as a two switching devices 12 shared storage unit fourteenth This was only done to reduce construction costs; each switching device 12 can also be assigned its own memory unit 14 . In today's technology, for. B. eight switching devices 12 can be operated from a single storage unit 14 . The storage unit 14 serves to record and permanently store the basic settings of the switching device 12 assigned to it. The memory unit 14 is preferably located in the vicinity of the switching device 12 and is adapted to read out the basic settings of the switching device 12 or more switching devices 12 and back attribute if necessary in a new switching device 12th The storage unit 14 contains, in a manner not shown, a memory, a controller, the interface 16 and possibly an actuating device, not shown.

The memory serves at least to store the basic settings of the switching device 12 , but can also be designed in such a way that it accepts application-specific settings. The basic settings cannot be changed in the memory.

The storage unit can be constructed on a software as well as a hardware basis.

The interface 16 is used for the direct or indirect connection to the switching device 12 and in this case is designed as an RS 485 serial interface. However, this type of training is not mandatory; rather, a simple cable can also be used. Likewise, a contactless connection using infrared or radio is conceivable. Furthermore, the storage unit 14 could also be designed as a plug and inserted directly into the switching device 12 . Based on the illustration, the interface has 16 standardized contacts for connecting a cable. In any case, an interface 16 is provided in order to be able to replace the switching device 12 or even the storage unit 14 if necessary.

The actuating device serves to determine the point in time of the data flow between the switching device 12 and the storage unit 14 . In the simplest version, a switch or push button is provided which releases or interrupts a connection. However, there can also be a timer that allows a connection at certain time intervals. In yet other circumstances, however, the actuator can be dispensed with and data flow allowed once the physical connection is established.

The interfaces 18 on the implement side are congruent with the interfaces 16 on the memory side and therefore do not require any further description. They are also important in order to be able to detach a defective switching device 12 from its surroundings and replace it with another one.

The control room 20 is not a necessary part of the invention, but only makes it clear that the switching device 12 and the storage unit 14 can be parts of a complex system. Otherwise, the control room 20 is only representative of a higher-level control or regulation at all.

In the preferred exemplary embodiment, the switching connection 22 is designed as a bus connection, which supplies data from the control room 20 to the switching device 12 and recognizes this by its address, which is part of the basic setting. When a defective switching device 12 is replaced, the new switching device 12 is given the same address.

The consumer 24 can be motors, displays, warning devices, etc., which are connected to the switching devices 12 by means of lines 26 and are controlled or regulated by these or via these.

Finally, between the interfaces 16 and 18 there is a transmission path 28 , which in this exemplary embodiment is formed by a cable, but can also be formed from waves in the air space.

Based on the structure described above, the following function of the Invention:

When the switching device 10 is set up for the first time, the respective components are arranged and connected to one another by means of the switching connections 22 , the lines 26 and the transmission links 28 , at least one switching device 12 and one memory unit 14 being present. Then the switching device 12 is parameterized once; the basic settings are made, ie it receives at least one address, the transmission speed for data exchange and the basic type are set. This requires an external computer. Optionally, application-specific settings can also be made. These basic settings are then read into the memory unit 14 and stored there residently, ie in a captive manner. The switching device 10 can now be operated. If a fault occurs on the switching device 12 , it can be removed and replaced by another, for which purpose its connection at the interfaces 16 , 18 is interrupted. As soon as the new switching device 12 is inserted, the interfaces 16 , 18 are connected to one another directly or via the transmission link 28 . Depending on whether an actuation device is present, will now be either directly, or the data of the basic setting is read as a result of activation of the actuator from the storage unit 14 into the switching device 12th So there is no longer any need for a separate computer to make the respective basic setting, but the basic setting is carried out automatically in the shortest possible time and to the exclusion of human errors.

Claims (11)

1. Electrical or electronic switching device ( 10 ) with an interface ( 18 ) for connecting a communication-capable, parameterizable switching device ( 12 ), characterized by a storage unit ( 14 ) with an interface ( 16 ), a controller and a memory for resident recording and delivery Basic parameters of the switching device ( 12 ). 2. Switching device according to claim 1, characterized in that the Storage unit is designed in terms of hardware or software. 3. Switching device according to claim 1 or 2, characterized in that the storage unit ( 14 ) stores the basic parameters of more than one switching device ( 12 ). 4. Switching device according to one or more of the preceding claims, characterized in that the interfaces ( 16 , 18 ) of the switching device ( 12 ) and the memory unit ( 14 ) can be connected directly, serially, by means of infrared or radio or by cable. 5. Switching device according to one or more of the preceding claims, characterized in that the storage unit ( 14 ) is designed as a plug element for direct connection to the switching device ( 12 ). 6. Switching device according to one or more of the preceding claims, characterized in that the memory unit ( 14 ) or a data flow between it and the switching device ( 12 ) can be activated by means of an actuator. 7. Switching device according to claim 6, characterized in that the  Actuator manually, automatically or time-controlled, in particular cyclical, can be activated. 8. Switching device according to one or more of the preceding claims, characterized in that the switching device ( 12 ) can be connected to a higher-level switching device, in particular by means of a bus system. 9. Switching device according to one or more of the preceding claims, characterized in that application-specific settings can also be stored in the storage unit ( 14 ). 10. Switching device according to one or more of the preceding claims, characterized in that the memory unit ( 14 ) contains the address and preferably the transmission rate and the basic type of the switching device ( 12 ). 11. Storage unit ( 14 ) with the features according to one or more of the preceding claims.