CN205139601U - Equipment of connecting channel and address - Google Patents

Abstract

The utility model discloses an equipment of connecting channel and address, include: and a housing, and locate the upper circuit board in the shell, lower floor's circuit board and rotating code switch module, and still include the radio -frequency antenna, the radio -frequency antenna is connected with upper circuit board, and locate the shell outside, upper strata circuit board integrated power module and radio frequency module, the integrated embedded controller of lower floor's circuit board, the RAM memory, embedded controller is connected with rotating code switch module and RAM memory, and be used for the BCD sign indicating number value of real -time reading rotating code switch module, and the BCD sign indicating number value that will read converts the property value into and writes in the RAM memory into, and embedded controller still is connected with radio frequency module through the RAM memory, and be used for receiving and launching radio signal through the radio -frequency antenna. The utility model discloses an it is simple, swift that the parameter sets up the process, and parameter readable good can bring very big facility for installation, maintenance, the replacement of equipment.

Description

The equipment of connecting channel and address

Technical field

The utility model relates to channel and address interconnection technique field, particularly relate to a kind of parameter setting procedure simple, quick, the readability of parameter is good, can give the equipment of the installation of equipment, maintenance, connecting channel that replacement brings great convenience and address.

Background technology

Along with industry 4.0 and internet+development and application, its development result is little by little penetrated into every field.Dispatch from the factory in test at equipment, communication apparatus (as Wifi equipment, ZigBee equipment) is used to carry out in the process of networking, need to carry out the setting of channel and address to the design each equipment be in same communication network, channel is correctly set and address is the key of successfully carrying out networking.Traditional set-up mode is arranged by upper computer software, and this mode is not only loaded down with trivial details but also easily make mistakes, and usually therefore can occur that work outside expection repeatedly and construction delay in the process of networking.

Due in large-scale measuring system, usually need tens, even up to a hundred collecting devices are worked in coordination with and are carried out work.In order to make these equipment carry out work in an orderly manner in same physical space, need to divide into groups to equipment, and set up multiple communication subnet network.The equipment being in different sub-network network needs to carry out communication and data transmission on a different channel, avoids the mutual interference in Signal transmissions.

And in same sub-network, in order to distinguish different equipment, need for each equipment arranges different addresses.The channel of prior art for radio-frequency communication equipment and the setting of address, there are three kinds of main ways in market:

1, upper computer software is used to be arranged by the RS-232 communication port of equipment or Ethernet interface;

2, the mode of PCB wire jumper is used to carry out the setting of radio-frequency channel and address;

3, be cured in the internal memory of equipment by the channel of equipment and address before dispatching from the factory, which is generally present in small-scale equipment for customizing.

The shortcoming of prior art is as follows:

Use upper computer software to be carried out the mode arranged by communication interface (RS-232 communication port or Ethernet interface), shortcoming is: need host computer compounding practice, needs power supply to the device just can carry out optimum configurations simultaneously;

Use PCB wire jumper to realize the mode of radio-frequency communication device parameter setting, shortcoming is: readable poor, and when necessity carries out parameter adjustment at the scene, needs the shell of equipment of taking apart just can complete setting, time-consuming, effort; Radio-frequency communication parameter is cured to the mode in equipment, shortcoming is: the adaptation for demand change is poor, once there is the change of project demands, carries out firmware upgrade with regard to likely needing equipment to be returned factory.

In the use at the scene of radio-frequency communication equipment, in order to make barrier little as far as possible to the interference of device talk, radio-frequency communication module often can be installed in eminence.Bring inconvenience so also to above several set-up mode.

In order to overcome the above-mentioned shortcoming of prior art, need a kind of parameter setting procedure badly simple, quick, the readability of parameter is good, can give the equipment of the installation of equipment, maintenance, connecting channel that replacement brings great convenience and address.

Utility model content

It is simple, quick that the purpose of this utility model is to provide a kind of parameter setting procedure, and the readability of parameter is good, can give the equipment of the installation of equipment, maintenance, connecting channel that replacement brings great convenience and address.

To achieve these goals, the technical scheme that the utility model provides is: the equipment providing a kind of connecting channel and address, comprise: shell, and the upper layer circuit board be located in described shell, lower circuit plate and rotary coding switch module, and also comprise radio-frequency antenna, described radio-frequency antenna is connected with described upper layer circuit board, and be located at described housing exterior, described upper layer circuit board integrated power supply module and radio-frequency module, the integrated embedded controller of described lower circuit plate, RAM storer, described embedded controller is connected with described rotary coding switch module and RAM storer, and for reading the binary-coded decimal value of described rotary coding switch module in real time, and the described binary-coded decimal value read is converted to parameter value writes described RAM storer, and described embedded controller is also connected with described radio-frequency module by described RAM storer, and for being received and wireless signal emission by described radio-frequency antenna.

Described rotary coding switch module comprises:

For the rotary coding switch module one of ten inputs of radio frequency address;

For the rotary coding switch module two of the individual position input of radio frequency address;

For the rotary coding switch module three of the input of radio-frequency communication channel.

Described upper layer circuit board is provided with embedded controller burning program communication port, and described rotary coding switch module is located on described upper layer circuit board.

Described lower circuit plate is provided with sensor splicing ear, 220V power input terminals and 5V power output terminal.

Described lower circuit plate is fixed on a side shell of described shell, and is fixed by Stud connection between described upper layer circuit board and described lower circuit plate.

Compared with prior art, due in the equipment of the utility model connecting channel and address, owing in advance described rotary coding switch module being arranged on described upper layer circuit board, and the binary-coded decimal value of each rotary coding switch module is read by DI digital input lines, therefore compared with prior art there is following advantage:

1, the communications parameter of radio-frequency communication equipment is arranged, and carry out under the state that can not power at equipment, the work of setting can in seconds complete, convenient and swift;

2, adopt the rotary coding switch module of BCD decimal coded mode, this rotary coding switch module group is designed on equipment simultaneously, taken into account the convenience of optimum configurations and good readability like this.Be convenient to using on-the-spot installation, networking, and the maintenance of communication network.

If an equipment in 3 networks breaks down, only the rotary coding switch module of a same model new equipment need be arranged to the parameter the same with faulty equipment, power on, namely can perfectly replace.Do not need to employ host computer and carry out any setting additionally;

4, in order to reduce the impact of barrier for communication quality, radio-frequency communication equipment is installed and used in process at the scene and is often arranged on eminence, ease for use advantage of the present utility model can be more obvious: can not move equipment, when not increasing signal wire, carry out setting and the inspection of device parameter, greatly can reduce the workload that field apparatus group is installed, debugged and safeguard like this.

By following description also by reference to the accompanying drawings, the utility model will become more clear, and these accompanying drawings are for explaining embodiment of the present utility model.

Accompanying drawing explanation

Fig. 1 is the stereographic map of an embodiment of the equipment of the utility model connecting channel and address.

Fig. 2 is the explosive view of the equipment of connecting channel as shown in Figure 1 and address.

Fig. 3 is the circuit theory module map of the equipment of connecting channel as shown in Figure 1 and address.

Embodiment

With reference now to accompanying drawing, describe embodiment of the present utility model, element numbers similar in accompanying drawing represents similar element.As mentioned above, as shown in Figures 1 to 3, the utility model provides the equipment 100 of a kind of connecting channel and address, comprise: shell 1, and the upper layer circuit board 2 be located in described shell 1, lower circuit plate 3 and rotary coding switch module 4, and also comprise radio-frequency antenna 50, described radio-frequency antenna 50 is connected with described upper layer circuit board 2, and it is outside to be located at described shell 1, described upper layer circuit board 2 integrated power supply module 6 and radio-frequency module 5, the integrated embedded controller 8 of described lower circuit plate 3, RAM storer 9, described embedded controller 8 is connected with described rotary coding switch module 4 and RAM storer 9, and for reading the binary-coded decimal value of described rotary coding switch module 4 in real time, and the described binary-coded decimal value read is converted to parameter value writes described RAM storer 9, and described embedded controller 8 is also connected with described radio-frequency module 5 by described RAM storer 9, and for being received and wireless signal emission by described radio-frequency antenna 50.

In an embodiment, described power module 6, adopts 220V to power, by providing the power supply required for hardware circuit after the process such as step-down, filtering, voltage stabilizing.

In an embodiment, described RAM storer 9, is used for storing the running parameter of radio-frequency module 5 after conversion, i.e. channel and radio frequency address parameter.

In an embodiment, as shown in Figure 3, described rotary coding switch module 4 comprises:

Described rotary coding switch module 1, radio frequency address high, ten inputs of radio frequency address;

Described rotary coding switch module 2 41, radio frequency address low level, the individual position input of radio frequency address;

Described rotary coding switch module 3 42, channel: the input of radio-frequency communication channel.

Described radio-frequency module 5, realizes the wireless telecommunications of intermodule by receiving and send radiofrequency signal.

In embodiment as shown in Figure 2, described upper layer circuit board 2 is provided with embedded controller burning program communication port 21, and described rotary coding switch module 4 is located on described upper layer circuit board 2.

In embodiment as shown in Figure 2, described lower circuit plate 3 is provided with sensor splicing ear 31,220V power input terminals 32 and 5V power output terminal 33.

In embodiment as shown in Figure 2, described lower circuit plate 3 is fixed on a side shell of described shell 1, and is connected and fixed by stud 10 between described upper layer circuit board 2 and described lower circuit plate 3.

Below describe principle of work of the present utility model in detail:

1, use embedded controller to coordinate the rotary coding switch module of binary-coded decimal to realize radio-frequency communication equipment network key parameter, channel and radio frequency address are fast arranged;

2, the DI numeral be connected with embedded controller is used to input to read the current binary-coded decimal value of each rotary coding switch module;

3, the binary-coded decimal value read is scaled channel and radio frequency address value, when device power initialization or when changing relative to the value stored, the new parameter value obtained writes in RAM storer by embedded controller;

4, before carrying out radio-frequency communication, first call the parameters in RAM storer.

Above disclosedly be only preferred embodiment of the present utility model, certainly can not limit the interest field of the utility model with this, therefore according to the equivalent variations that the utility model claim is done, still belong to the scope that the utility model is contained.

Claims (5)

1. the equipment of a connecting channel and address, comprise: shell, and the upper layer circuit board be located in described shell, lower circuit plate and rotary coding switch module, and also comprise radio-frequency antenna, described radio-frequency antenna is connected with described upper layer circuit board, and be located at described housing exterior, it is characterized in that, described upper layer circuit board integrated power supply module and radio-frequency module, the integrated embedded controller of described lower circuit plate, RAM storer, described embedded controller is connected with described rotary coding switch module and RAM storer, and for reading the binary-coded decimal value of described rotary coding switch module in real time, and the described binary-coded decimal value read is converted to parameter value writes described RAM storer, and described embedded controller is also connected with described radio-frequency module by described RAM storer, and for being received and wireless signal emission by described radio-frequency antenna.

2. the equipment of connecting channel as claimed in claim 1 and address, is characterized in that: described rotary coding switch module comprises:

For the rotary coding switch module one of ten inputs of radio frequency address;

For the rotary coding switch module two of the individual position input of radio frequency address;

For the rotary coding switch module three of the input of radio-frequency communication channel.

3. the equipment of connecting channel as claimed in claim 1 and address, it is characterized in that: described upper layer circuit board is provided with embedded controller burning program communication port, and described rotary coding switch module is located on described upper layer circuit board.

4. the equipment of connecting channel as claimed in claim 1 and address, is characterized in that: described lower circuit plate is provided with sensor splicing ear, 220V power input terminals and 5V power output terminal.

5. the equipment of connecting channel as claimed in claim 1 and address, be is characterized in that: described lower circuit plate is fixed on a side shell of described shell, and is fixed by Stud connection between described upper layer circuit board and described lower circuit plate.