CN113225230A - Network module corresponding relation recognizer between working area and equipment and structure thereof - Google Patents

Abstract

The utility model relates to a workspace, network module corresponding relation recognizer between equipment, when to workspace, network module corresponding relation discernment between equipment, can be with workspace network module PLC controller and workspace network module pilot lamp correspondence embedding to a workspace network module, network module PLC controller and equipment network module pilot lamp embedding to the network module between equipment that corresponds between equipment, workspace network module pilot lamp, equipment network module pilot lamp with the corresponding relation twinkle with the frequency of setting for, realization to workspace network module, the quick discernment of the corresponding relation between equipment network module that can be quick with this. In addition, the structure comprises the corresponding relation identifier of the network modules between the working areas and the devices.

Description

Network module corresponding relation recognizer between working area and equipment and structure thereof

Technical Field

The application belongs to the technical field of identification of corresponding relations of network modules between a network module in a work area and equipment, and particularly relates to a corresponding relation identifier of network modules between the work area and the equipment and a structure of the corresponding relation identifier.

Background

In the network wiring process, jumper connections are often made between the inter-device network module and the switch, and between the computer and the work area network module, and the computer is connected with the switch to realize network login of the computer, as shown in fig. 1.

The corresponding relationship between the network module in the working area and the network module between the devices exists, and under the condition that the distance between the working area and the devices is far, the corresponding relationship between the network module in the working area and the network module between the devices is mostly identified in the following way at present:

1) the jumper trial identification method needs to try one by one, when the number of the network modules is small, the corresponding relation between the network modules in the working area and the network modules between the devices can be quickly identified, but when the number of the network modules is large, the efficiency is low for identifying the corresponding relation between the network modules in the working area and the network modules between the devices;

2) the label marking identification method is used for identifying the network module according to a certain rule, so that the corresponding relation between the network module in the working area and the network module between the devices can be quickly identified, but in practice, the network module in the working area and the network module between the devices are frequently changed, so that the corresponding relation between the network module in the working area and the network module between the devices is inaccurate;

3) the method for identifying the corresponding relation of the line finder is characterized in that a network module in a working area is connected with a sending end of the line finder, the line finder is used for finding corresponding network modules among equipment, line confirmation is required to be carried out on each network module, when the number of the network modules is large, the identification efficiency is low, and for six types of shielded wires, a shielding layer is arranged outside a twisted-pair line, and the line finder cannot work.

The present application has been made in view of the above-mentioned technical drawbacks.

It should be noted that the above background disclosure is only for the purpose of assisting understanding of the inventive concept and technical solutions of the present invention, and does not necessarily belong to the prior art of the present patent application, and the above background disclosure should not be used for evaluating the novelty and inventive step of the present application without explicit evidence to suggest that the above content is already disclosed at the filing date of the present application.

Disclosure of Invention

The present application is directed to a network module mapping identifier between work areas and devices and a structure thereof, so as to overcome or alleviate at least one of the technical disadvantages of the known prior art.

The technical scheme of the application is as follows:

in one aspect, a identifier for correspondence between network modules in a work area and a device is provided, which includes:

testing a direct current power supply;

the test PLC controller is connected with the test direct-current power supply;

the working area network module PLC controller is connected with the test PLC controller through RJ45 jumper wires, and the test PLC controller extracts direct current from the test direct current power supply at a set frequency to supply power to the two output cables;

the work area network module indicator light is connected to the work area network module PLC controller, and the work area network module PLC controller extracts direct current from the two input cables at a set frequency to supply power to the work area network module indicator light;

the inter-equipment network module PLC controller is connected with the working area network module PLC controller through an RJ45 twisted pair, and the working area network module PLC controller extracts direct current from the two input cables at a set frequency to supply power to the two output cables;

the inter-equipment network module indicator lamp is connected to the inter-equipment network module PLC controller, and the inter-equipment network module PLC controller extracts direct current from the two input cables at a set frequency to supply power to the inter-equipment network module indicator lamp.

According to at least one embodiment of the application, in the identifier for correspondence between network modules in a working area and between devices, the test PLC controller extracts direct current from the direct current power supply at a set frequency within a set time range to supply power to the two output cables;

the PLC controller of the network module of the working area extracts direct current from the two input cables within a set time range at a set frequency to supply power to the indicator light of the network module of the working area;

the PLC controller of the network module of the working area extracts direct current from the two input cables at a set frequency within a set time range to supply power to the two output cables;

the PLC controller of the network module between the devices extracts direct current from the two input cables within a set time range at a set frequency to supply power to the indicator light of the network module between the devices;

according to at least one embodiment of the application, in the identifier for correspondence between the network modules in the working area and the equipment, a test PLC controller is connected with a ground wire;

the PLC controller of the working area network module is connected with a grounding wire;

and the PLC controller of the network module between the devices is connected with a grounding wire.

On the other hand, a structure for identifying correspondence between network modules in a work area and a device is provided, which is characterized by comprising:

a computer;

the plurality of working area network modules are connected with the computer by jumper wires;

a switch;

the network modules among the plurality of devices are connected with the switchboard by jumper wires; each inter-equipment network module is correspondingly connected with one working area network module;

the PLC controller of the working area network module and the indication lamp of the working area network module of each working area network module corresponding relation recognizer are correspondingly embedded into one working area network module, and the PLC controller of the inter-equipment network module and the indication lamp of the inter-equipment network module are embedded into the corresponding inter-equipment network module.

According to at least one embodiment of the present application, the above-mentioned network module correspondence identification structure between work areas and devices is characterized in that,

further comprising:

the support, network module, switch connection between each equipment are on the support.

Drawings

FIG. 1 is a schematic diagram of the wiring between network modules in a conventional work area and between devices;

fig. 2 is a schematic diagram of a identifier for correspondence between network modules in a work area and a device according to an embodiment of the present application;

fig. 3 is a schematic diagram of a corresponding relationship identification structure of network modules between work areas and devices according to an embodiment of the present application;

fig. 4 is a partial schematic view of identification of correspondence between network modules in a work area and a device according to an embodiment of the present application;

wherein:

1-testing a direct current power supply; 2-testing the PLC controller; 3-a PLC controller of a working area network module; 4-a work area network module indicator light; 5-a PLC controller of the inter-equipment network module; 6-network module indicator lamp among the equipments; 7-a plurality of workspace network modules; 8-a switch; 9-a plurality of inter-device network modules; 10-a scaffold; 11-computer.

For the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; further, the drawings are for illustrative purposes, and terms describing positional relationships are limited to illustrative illustrations only and are not to be construed as limiting the patent.

Detailed Description

In order to make the technical solutions and advantages of the present application clearer, the technical solutions of the present application will be further clearly and completely described in the following detailed description with reference to the accompanying drawings, and it should be understood that the specific embodiments described herein are only some of the embodiments of the present application, and are only used for explaining the present application, but not limiting the present application. It should be noted that, for convenience of description, only the parts related to the present application are shown in the drawings, other related parts may refer to general designs, and the embodiments and technical features in the embodiments in the present application may be combined with each other to obtain a new embodiment without conflict.

In addition, unless otherwise defined, technical or scientific terms used in the description of the present application shall have the ordinary meaning as understood by one of ordinary skill in the art to which the present application belongs. The terms "upper", "lower", "left", "right", "center", "vertical", "horizontal", "inner", "outer", and the like used in the description of the present application, which indicate orientations, are used only to indicate relative directions or positional relationships, and do not imply that the devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and when the absolute position of the object to be described is changed, the relative positional relationships may be changed accordingly, and thus, should not be construed as limiting the present application. The use of "first," "second," "third," and the like in the description of the present application is for descriptive purposes only to distinguish between different components and is not to be construed as indicating or implying relative importance. The use of the terms "a," "an," or "the" and similar referents in the context of describing the application is not to be construed as an absolute limitation on the number, but rather as the presence of at least one. The word "comprising" or "comprises", and the like, when used in this description, is intended to specify the presence of stated elements or items, but not the exclusion of other elements or items.

Further, it is noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," and the like are used in the description of the invention in a generic sense, e.g., connected as either a fixed connection or a removable connection or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, or they may be connected through the inside of two elements, and those skilled in the art can understand their specific meaning in this application according to the specific situation.

The present application is described in further detail below with reference to fig. 1 to 4.

In one aspect, a identifier for correspondence between network modules in a work area and a device is provided, which includes:

testing the direct current power supply 1;

the test PLC controller 2 is connected with the test DC power supply 1, and a switch can be arranged between the test PLC controller and the test DC power supply;

the working area network module PLC controller 3 is connected with the test PLC controller 2 through RJ45 jumper wires, and the test PLC controller 2 extracts direct current from the direct current power supply 1 at a set frequency to supply power to the two output cables;

the work area network module indicator lamp 4 is connected to the work area network module PLC controller 3, and the work area network module PLC controller 3 extracts direct current from the two input cables at a set frequency to supply power to the work area network module indicator lamp 4;

the inter-equipment network module PLC controller 5 is connected with the working area network module PLC controller 3 through an RJ45 twisted pair, and the working area network module PLC controller 3 extracts direct current from the two input cables at a set frequency to supply power to the two output cables;

the inter-equipment network module indicator lamp 6 is connected to the inter-equipment network module PLC controller 5, and the inter-equipment network module PLC controller 5 extracts direct current from the two input cables at a set frequency to supply power to the inter-equipment network module indicator lamp 6.

For the identifier for correspondence between network modules in work areas and devices disclosed in the above embodiments, it can be understood by those skilled in the art that, when the corresponding relation between the working area and the network modules among the devices is identified, the PLC controller 3 of the network module of the working area and the indicator light 4 of the network module of the working area can be correspondingly embedded into a network module 7 of the working area, the PLC controller 5 of the network module among the devices and the indicator light 6 of the network module among the devices can be embedded into a corresponding network module 9 of the devices, the indicator light 4 of the network module of the working area and the indicator light 6 of the network module among the devices with the corresponding relation can flash at a set frequency, therefore, the corresponding relation between the network module 7 in the working area and the network module 9 between the devices can be quickly identified, the computer 11 can be quickly accessed, the efficiency is high, the interference is not easy to happen, and the accuracy is high.

For the identifier for correspondence between network modules in a work area and between devices disclosed in the above embodiments, those skilled in the art can also understand that, the identifier is used to design the PLC controller 3 of the work area network module, and is connected to the test PLC controller 2 through RJ45 jumper wires, and to design the PLC controller 5 of the network module between devices, and is connected to the PLC controller 3 of the work area network module through RJ45 twisted pair wires, so that the situation that identification cannot be performed due to interruption of some cables in the process can be avoided, and identification of correspondence between the network module 7 of the work area and the network module 9 between devices can be performed as long as two cables are connected.

In some optional embodiments, in the identifier for correspondence between network modules in a working area and between devices, the test PLC controller 2 extracts dc power from the dc power supply 1 at a set frequency within a set time range to supply power to the two output cables;

the PLC 3 extracts direct current from the two input cables within a set time range at a set frequency to supply power to the indicator lamp 4 of the network module of the work area;

the PLC 3 extracts direct current from the two input cables within a set time range at a set frequency to supply power to the two output cables;

the inter-equipment network module PLC controller 5 extracts direct current from the two input cables within a set time range at a set frequency to supply power to the inter-equipment network module indicator lamp 6;

in some optional embodiments, in the identifier for correspondence between network modules in the working area and the device, the test PLC controller 2 is connected to a ground wire;

the work area network module PLC 3 is connected with a grounding wire;

and the inter-equipment network module PLC 5 is connected with a grounding wire.

On the other hand, a structure for identifying correspondence between network modules in a work area and a device is provided, which is characterized by comprising:

a computer 11;

a plurality of work area network modules 7 connected with the computer 11 by jumper wires;

a switch 8;

a plurality of inter-device network modules 9 connected to the switch 8 by jumper wires; each inter-device network module 9 is correspondingly connected with one working area network module 7;

a plurality of identifiers of any one of the above-mentioned working areas and network modules between equipment, a working area network module PLC controller 3 and a working area network module indicator lamp 4 of each identifier are embedded into a working area network module 7, and an inter-equipment network module PLC controller 5 and an inter-equipment network module indicator lamp 6 are embedded into a corresponding inter-equipment network module 9.

For the identification structure of correspondence between network modules in a working area and between devices disclosed in the above embodiment, including the identification structure of correspondence between network modules in a working area and between devices disclosed in the above embodiment, the technical effect may refer to the technical effect of the relevant part of the identification structure of correspondence between network modules in a working area and between devices, and is not described herein again.

In some optional embodiments, the above-mentioned identification structure of correspondence between network modules in work areas and devices is characterized in that,

further comprising:

the support 10, the network modules 9 among the devices and the switch 8 are connected to the support 10.

The embodiments are described in a progressive manner in the specification, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

Having thus described the present application in connection with the preferred embodiments illustrated in the accompanying drawings, it will be understood by those skilled in the art that the scope of the present application is not limited to those specific embodiments, and that equivalent modifications or substitutions of related technical features may be made by those skilled in the art without departing from the principle of the present application, and those modifications or substitutions will fall within the scope of the present application.

Claims (5)

1. A network module corresponding relation recognizer between working areas and devices is characterized by comprising the following components:

testing a direct current power supply (1);

the test PLC controller (2) is connected with the test direct-current power supply (1);

the working area network module PLC controller (3) is connected with the testing PLC controller (2) through RJ45 jumper wires, and the testing PLC controller (2) extracts direct current from the testing direct current power supply (1) at a set frequency to supply power to the two output cables;

the work area network module indicator lamp (4) is connected to the work area network module PLC controller (3), and the work area network module PLC controller (3) extracts direct current from the two input cables at a set frequency to supply power to the work area network module indicator lamp (4);

the inter-equipment network module PLC controller (5) is connected with the working area network module PLC controller (3) through an RJ45 twisted pair, and the working area network module PLC controller (3) extracts direct current from the two input cables at a set frequency to supply power to the two output cables;

the inter-equipment network module indicator lamp (6) is connected to the inter-equipment network module PLC controller (5), and the inter-equipment network module PLC controller (5) extracts direct current from the two input cables at a set frequency to supply power to the inter-equipment network module indicator lamp (6).

2. The identifier of correspondence between network modules between work areas and devices according to claim 1,

the test PLC controller (2) extracts direct current from the test direct current power supply (1) within a set time range at a set frequency to supply power to the two output cables;

the working area network module PLC controller (3) extracts direct current from the two input cables within a set time range at a set frequency to supply power to the working area network module indicator lamp (4);

the working area network module PLC controller (3) extracts direct current from the two input cables within a set time range at a set frequency to supply power to the two output cables;

and the PLC (5) of the network module between the devices extracts direct current from the two input cables at a set frequency within a set time range to supply power to the indicator lamp (6) of the network module between the devices.

3. The identifier of correspondence between network modules between work areas and devices according to claim 1,

the test PLC controller (2) is connected with a grounding wire;

the work area network module PLC controller (3) is connected with a grounding wire;

and the inter-equipment network module PLC (5) is connected with a grounding wire.

4. A network module corresponding relation identification structure between working areas and devices is characterized by comprising the following steps:

a computer (11);

the plurality of working area network modules (7) are connected with the computer (11) in a jumper way;

a switch (8);

a plurality of inter-device network modules (9) connected to the switch (8) by jumper wires; each inter-equipment network module (9) is correspondingly connected with one working area network module (7);

a plurality of workspace and inter-device network module correspondence identifiers as claimed in any one of claims 1 to 4, the workspace network module PLC controller (3) and its workspace network module indicator light (4) of each workspace and inter-device network module correspondence identifier being embedded into one workspace network module (7) correspondingly, and the inter-device network module PLC controller (5) and its inter-device network module indicator light (6) being embedded into the corresponding inter-device network module (9).

5. The structure for identifying correspondence between network modules between work areas and devices according to claim 4,

further comprising:

and the network modules (9) and the switch (8) among the devices are connected to the support (10).

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