EP2745123A1

EP2745123A1 - Wiring test device for electronics cabinets having internal signal wiring

Info

Publication number: EP2745123A1
Application number: EP12758782.2A
Authority: EP
Inventors: Reinhard Schmitt
Original assignee: Siemens AG
Current assignee: Siemens AG
Priority date: 2011-08-29
Filing date: 2012-08-10
Publication date: 2014-06-25
Also published as: US20140203795A1; DE102011081713A1; CN103765232A; US9470736B2; CN103765232B; WO2013029967A1

Abstract

The invention relates to a wiring test device for electronics cabinets having internal signal wiring between a first section having a matrix-like arrangement of inputs and outputs and a second section having inputs and outputs, comprising a first measuring means (1) having a number of test points (10) arranged in the manner of a matrix to be placed on and make contact with the inputs and outputs of the first section, and second measuring means (2) communicating with the first means (1) and having a test point (20) to make contact with individual inputs and outputs of the second section, and a monitoring device which, for each of the inputs and outputs of the second section of the selected electronics cabinet with which contact is made, checks whether the internal signal wiring thereof corresponds to a previously stored wiring list for said electronics cabinet.

Description

description

WIRING TEST EQUIPMENT FOR ELECTRONIC CABINETS WITH INTERNAL SIGNAL WIRING

The invention relates to a wiring test device for electronic cabinets according to claim 1.

For control and regulation of industrial plants, large quantities of input and output signals of a large number of actuators and sensors must be brought together for further processing in one control. Usually, this is done in centralized or decentralized electronics cabinets by means of cabinet-internal wiring for electrically connecting the actuators and sensors with higher-level controls. This cabinet-internal signal wiring is done today in so-called shunting units, which are configured in accordance with a defined during the system configuration wiring diagram that the inputs and outputs of the various actuators and sensors are electrically connected according to the system configuration with the corresponding inputs and outputs of the controllers.

For safe operation, a wiring test must be performed before commissioning the system. A simple test method consists in checking each individual signal wiring in turn using a continuity tester to determine whether the signal wiring also corresponds to the wiring from the wiring list configured and stored for this system. Such a method is time consuming and especially for large electronics cabinets, or even arrangements consisting of several sub-distribution cabinets, usually can not be accomplished by a single inspector.

The object of the invention is to provide a wiring tester which overcomes the disadvantage described above. This object is achieved with the wiring test device having the features of claim 1.

The fact that now a measuring means with a number of test probes arranged in matrix form for placement and contacting is available on a field with matrix-like inputs and outputs, and that communicates with a second measuring means with a probe, the wiring test can be simplified. Often in an electronics cabinet, the inputs and outputs to the actuators and sensors on predefi ^¬-defined fields in the electronic enclosure are arranged like a matrix in one-dimensional or two-dimensional series, and the A ^¬ and outputs to the higher-level controllers in other fields in a similar manner. Instead of the previous sukzessi- ven wiring testing of individual input output terminals of the fields with a continuity that can now be placed on fields with arrayed inputs and outputs correspondingly formed measuring means and so several A ^¬ or outputs are simultaneously contacted with this measuring means and together with the further second measuring means with a probe and a control device alone by a single person several signal wirings are tested sequentially, without the two measuring means each time contacted with the corresponding contacts of the inputs and outputs in the two fields in each of the signal wiring test Need to become. On the contrary, it is sufficient for a single person to test, who only has to contact the respective input or output on a contact field with the measuring device with the test probe, so that the wiring test is less time-consuming overall. The aforementioned fields with matrix-like inputs and outputs can be the entire field-side or control-side connection field of an electronics cabinet or even just a subfield thereof.

Universal use of the inventive wiring ^¬ testing device, then when a selection means is provided with the deposited from a set of wiring lists the wiring list for the electronic cabinet to be tested can be selected and is unlocked for the control device. A simple control of the wiring test for the checking ^¬ Fende person exists when a confirmation means acoustically ^¬ table and / or visually indicates whether the current to be tested internal signal wiring between the inputs and outputs of the first and second field of the deposited wiring from the Wiring list corresponds.

The test procedure can be further optimized when the control means is arranged, which is selects the next test wiring from the wiring list, when the confirming means indicates that the current to Che ^¬ Fende internal signal wiring of the deposited wiring corresponds. Depending on the required safety this can automatic ^¬ table or manually. Especially with larger-sized cabinets or in the case of spatially distributed sub-distribution cabinets, a wireless communication between the first and second measuring means is advantageous, since so can be bridged by wireless communication problems ^¬ los distances in complex cabinet arrangements.

, The second measuring means comprises a display for displaying at ^¬ least having current signal under test wiring, and this display also rotatably or pivotally, can be done in a simple manner a visual check of the measurement by the test personnel also from different angles. Thus, an optimal viewing angle, when testing can always be adjusted thereby he ^¬ gonomisches is possible to work both horizontally as well as vertically right work attitude of the staff during the audit. Advantageously, the test probes of the first and / or second measuring means are interchangeable or replaceable, so that the measuring means can be adapted to any terminals of the input or output fields ^¬ .

A particularly simple structural design is obtained if the first measurement means which is dimensioned rather larger by its matrix-like manner ^¬ arranged measuring means already comprises the control device, and also has a slot for a memory card, are deposited on the wiring lists, or even a storage medium to which the wiring lists are playable has.

For placing the first measuring means, the first measuring means has fastening means with which the first measuring means in the first field with the matrix-like arrangement of inputs or outputs can be fastened directly or via an adapter as an additive mechanical component. In the formation of the fastening means, it is particularly important to ensure that the fastener assumes the following tasks:

the position fixing and locking of the first measuring device in all three axes on the field to be tested,

- The inclusion of a counterforce caused by the contact pressure of the probes,

- The release of the first measuring device from the field after the wiring test.

The invention will now be explained by way of example with reference to the following figures. Show it:

FIG. 1 shows a schematic side view of the first measuring means with test probes arranged like a matrix, FIG.

FIG 2 schematically shows the first measurement means positioned in a matrix-like array ^¬ sat,

3 schematically shows the corresponding second Messmit ^¬ tel. The wiring test device designed according to the invention makes it possible to carry out the wiring test in the future, for example, in a control cabinet alone by a single person (tester). For this purpose, the cabinet-specific wiring list for connection check is preferably prepared as a file on a memory card. At the beginning of the connection test, the tester contacts the first measuring means 1 - here a matrix-type needle adapter - with a first terminal field or sub-block field on the field connection side of the control cabinet, ie on the connection field at which the actuators and sensors are connected (FIG. 2). The examiner then only has to use the second measuring means 2 - here a test adapter with a display unit 5 - for the connection test, corresponding to the cabinet-specific wiring list one after the other

. Outputs of the field of the control terminal side PLEASE CONTACT ^¬ ren Once the needle adapter 1 is fitted on the first field, is by means of the selection means 3 - here a functi ^¬ onstasters - that wiring list is selected, to be tested after. After activation of the selected interconnection list display unit 5 displays at the start of audit ^¬ fung for this first test area to the first test address. Once the first test field has been processed, the next field with the associated first test address is displayed on the display unit 5 in this test field. To continue the test, the tester must now contact the needle adapter 1 with this second field. This procedure is repeated until the last field processed and should be read in the display beispielswei ^¬ se, the message "END".

The base of such a quality-assured wiring test is a compound list that was produced by continuous projek ^¬ tierungswerkzeugen. In this connection list, the two ends of a connection must be clearly defined. By fixing the Einbauortkennzeichnung a cabinet wiring concept so a unique Verbin ^¬ dung list can be generated electronically. To Verdrahtungsprü ^¬ fung this list must be treated accordingly and preferential be stored on a memory card. Each Verbin ^¬ dung list can thus clearly a cabinet assigned the ^¬. All connection lists of an investment project can there ^¬ with on a memory card are stored together, and all cabinets and cabinet combinations of a planned industrial plant can be tested one after another.

In the present exemplary embodiment, shunting terminals in the form of eight-level terminal blocks are used in the control cabinet (FIG. 2). These terminals have a symmetrical construction and the input and output sides of the terminals are connected 1: 1. In the present cabinet wiring concept, these terminals are located in the lower area of the control cabinet. The input side of these terminals should represent the connection terminals for the field side. The output side of these terminals should correspond to the jumper terminals of the cabinet side, which are then connected via the jumpering ^cable in the cabinet to the corresponding connection terminals for the control system.

The terminal blocks can be strung together on a DIN rail as often as desired, thus forming very large connection fields with several hundred inputs and outputs. Nevertheless, in order to be able to adapt the matrix-type needle adapter 1 mechanically securely to these terminal blocks, the present invention has been described

Embodiment, the terminal blocks in field blocks each with 20 terminal blocks (8 x 20 terminal blocks = 160 contact points) divided to then fix by means of an adapter plate A the matrixar ^¬ term needle adapter 1 on one of these field blocks.

The invention designed according needle adapter (FIG 1) as a first measuring means 1 here consists of a housing 8 with fol ^¬ constricting integrated features:

a non-illustrated electronic module as a control device;

- A non-illustrated printed circuit board with probes 10, in which case the circuit board is equipped according to the previously described ^¬ field size with 160 probes; - a slot 6 for memory cards;

- Optionally, a power connector for connecting an external power supply or an on / off switch when a battery is used to power;

- And fasteners 4, with which the needle adapter on the sub-field blocks with 160 contact points is securely fastened.

The test adapter (FIG. 3) designed as a second measuring device 2 here consists of a housing 9 with the following components:

a rotatable or pivotable display unit 5;

a function key 3 as selection means;

a test tip 20;

- and optionally an on / off switch if a battery is used as a power supply.

The test adapter 2 communicates via a non-illustrated communication interface with the electronics module of the needle adapter 1. This communication may be drahtge ^¬ connected or wireless.

In the present embodiment, the display unit 5 is the communication interface to the examiner. The display unit 5 is connected to the housing of the test adapter 2 by means of a rotary joint. This ensures that the examiner can always set the optimum viewing angle and ergonomic work in both vertical and horizontal working posture is guaranteed.

At the beginning of a wiring test, the display unit 5 displays the file name of any stored connection list. With the selection means 3, the stored connection lists can be called one after the other and by prolonged pressing this selection means, the selected file can be activated. Then, the first Verbin ^¬ dung address appears in the first test segment. A correctly abgeschlos ^¬ sene signal wiring test can additionally means a confirmation means, such as a akusti ^¬ schem signal or corresponding visual indication to be confirmed. At the same time, the next connection address appears in the display unit and the test result is entered electronically in the connection list. If the signal check is negative, the connection address for so long does not turn on in the display until the faulty Sig ^¬ nalverbindung was repaired. The wiring test to be successfully completed if the word appears in the display "End". The worked off Ver ^¬ connection list never appears on the display when the function key to search for a new connection list betae ^¬ is Untitled. The inspection process for the next cabinet he will - started again.

The embodiment described above shows only one possible embodiment of a wiring test device according to the invention, which is designed for a specific terminal type. The needle adapter 1 could, however, in principle also be modularly constructed from interchangeable needle adapters and an electronic module which can be connected to one another via corresponding separable interfaces. This would have the advantage that the program-controlled wiring test unit according to the invention also has different characteristics

Adapter can be used. Another alternative solution could be that the user software of the control device runs on a standard computer (PC). The PC screen can then also accept the selection, confirmation and display function of the test adapter. Thus be ^¬ is the only test adapter comprises a housing with test probe, which is wirelessly or by wire coupled to the PC. Overall, so configured with the device according to the invention wiring of electronic cabinets can be safely tested and at the same time by the reduced staff ^¬ use a significant Prüfkostenreduzierung be achieved. Project requirements such as shortest project execution times, cost-effective realization of the connections and highest availability of the connections can thus be met almost 100%.

In the specific design of the fastening means of the f ^¬ th measuring device, make sure that the fastening element ^¬ following duties safely:

- The inclusion of a counterforce caused by the contact pressure of the probes,

The fastening means can engage directly into corresponding fastening means of the terminal panels or else - as shown in FIG 2 - in corresponding fastening ^¬ supply means of an adapter A, which in turn can be fastened on the terminal box. For receiving the acting Strengthens ^¬ te, it is particularly advantageous when detents are provided as fastening means which engage in corresponding locking hooks formed as attaching means to be contacted of the field or vice versa. For safe release of the measuring means, the latching hooks or locking lugs are elastic. The position fixing and locking of the first measuring means on the field or the adapter and its fixation via correspondingly arranged grooves and pins or other Führun ^¬ gen. Thus, a clear Maßbezug between the contact points of the needle adapter and the contact points of the terminal blocks is made.

Claims

claims

1. Wiring test device for electronic cabinets with internal signal wiring between a first field with a matrix-like arrangement of inputs and outputs and a second field with inputs and outputs, comprising a first measuring means (1) with a number of matrix-like test probes (10) for putting on and contacting the Einbzw. Outputs of the first field, and a second measuring means (2) communicating with the first means (1) with a test tip (20) for contacting individual inputs and outputs of the second field, and a control device for each of the contacted input and Outputs of the second field of a selected electronics cabinet checks whether its internal signal wiring corresponds to a previously stored wiring list for this electronics cabinet.

2. Wiring tester according to claim 1,

d a d u r c h e s e n c i n e s, d a s s

a selection means (3) is provided by means of which the wiring list for the electronic cabinet to be tested can be selected from a set of stored wiring lists and is released for the control device.

3. Wiring tester according to claim 1 or 2, d a d u c h e c e n e c e s t e, d a s s

a confirmation means is provided which indicates whether the internal signal wiring currently being tested between the inputs and outputs of the first and second field corresponds to the stored wiring from the wiring list.

4. Wiring tester according to claim 3,

d a d u r c h e s e n c i n e s, d a s s

the control device is configured to select the next wiring to be tested from the wiring list if the confirmation means indicates that the internal signal wiring currently to be tested corresponds to the stored wiring.

5. Wiring tester according to one of the preceding claims,

d a d u r c h e s e n c i n e s, d a s s

the first and second measuring means over a wireless Kom ^¬ tions interface communicate with each other.

6. Wiring tester according to one of claims 1-5, d a d u c h e c e n e c e n e, d a s s

the first measurement means comprises the control device, and ei ^¬ NEN slot (6) for a memory card to the wiring lists are stored and / or a storage medium on which the wiring lists are aufspielbar having.

7. Wiring tester according to one of claims 1-6, d a d u c h e c e n e c e s e s, d a s s

the second measuring means comprises a display (5) for displaying at least the current signal wiring to be tested.

8. wiring testing device according to claim 7,

d a d u r c h e s e n c i n e s, d a s s

the display (5) is rotatably or pivotally mounted.

9. Wiring tester according to one of the preceding claims 1-8,

d a d u r c h e s e n c i n e s, d a s s

the test probes (10, 20) of the first and / or second measuring means (1, 2) are exchangeable.

10. Wiring tester according to one of claims 1 to 9,

d a d u r c h e s e n c i n e s, d a s s

the first measuring means has fastening means (4) with which the first measuring means can be fastened on the first panel with the matrix-like arrangement of inputs or outputs.

11. Wiring tester according to claim 10,

characterized in that as fastening means (4) locking lugs are provided which engage in corresponding designed as latching hooks fastening means of the first field.

12. Wiring tester according to claim 10,

characterized in that the fastening means (4) are designed so that they cooperate with complementary formed fastening means of an adapter (A) so that the first measuring means (1) by means of this adapter (A) in the first field with the matrix-like arrangement of or outputs can be fastened.