CN209767562U - Programmable communication device - Google Patents

Abstract

A programmable communication device comprises a connecting unit, a near-end communication unit used for inputting communication parameters, a wireless communication unit suitable for communicating with a servo device and a control unit. The connection unit comprises a serial port adapted to receive the working data. The serial port is provided with at least two pins which are suitable for being electrically connected with two data cables of at least one working device. The communication parameters are at least used for setting a communication protocol. The control unit communicates with the at least one working device according to the communication parameters by using the same communication protocol, and transmits the working data to the servo device through the wireless communication unit according to a preset address. Borrow this, but through direct electric connection data cable, but and software programming set for communication parameter's mode makes the utility model discloses can be general in different communication protocol's equipment, and can reduce whole volume with retrenching the structure, and then promote space efficiency, and promote installation simplicity and convenient to use nature.

Description

programmable communication device

Technical Field

the utility model relates to a communication device especially relates to a communication device able to programme.

Background

Generally, working devices installed outdoors, such as a video camera for capturing images, an energy storage device for supplying electric energy, or other devices capable of generating video and audio signals, or generating quantity changes and multiple changes, transmit the working data to a remote server through a data exchange device in order to transmit the working data such as video and audio signals, working time, quantity changes, multiple changes, etc.

However, in order to support the above-mentioned working devices, the data exchange equipment must include architectures such as a Call Agent (CA), a Media Gateway (MGW), and a Signal Gateway (SG), which are complicated in structure and quite large in size.

Importantly, the data exchange equipment must be matched with different working devices, has different specifications and poor applicability, and is not easy to maintain and replace when any one framework is abnormal.

Disclosure of Invention

An object of the utility model is to provide a can promote space efficiency, and promote installation simplicity and convenient to use's communication device able to programme.

The utility model discloses a communication device able to programme is applicable to and gives servo device with at least one equipment's working data transfer, at least one equipment has two data cable, communication device able to programme contains linkage unit, near-end communication unit, wireless communication unit, and the control unit.

the connecting unit is suitable for receiving the working data and comprises a serial port, and the serial port is provided with at least two pins suitable for being electrically connected with the data cable.

The near-end communication unit is used for inputting communication parameters, and the communication parameters are at least used for setting a communication protocol.

The wireless communication unit is adapted to communicate with the server via a wireless communication technology.

The control unit is electrically connected with the near-end communication unit, the connection unit and the wireless communication unit, communicates with the at least one working device by the same communication protocol according to the communication parameters, and transmits the working data to the servo device through the wireless communication unit according to a preset address.

the utility model discloses a communication device able to programme, near-end communication unit is including being applicable to and connecting external device and input communication parameter's connection port.

The utility model discloses a communication device able to programme, connection port is a universal sequence busbar.

The utility model discloses a communication device able to programme, the tandem port has four pins, two of pin are a set of, and are the contained angle.

The utility model discloses a communication device able to programme, wireless communication unit include through the online internet of action communication technology, and with the communication module of servo device intercommunication.

the utility model discloses a communication device able to programme, wireless communication unit is still connected including the electricity communication module just is used for strengthening the antenna of electromagnetic wave signal.

The utility model discloses a communication device able to programme, wireless communication unit passes through the online internet of wireless area network technique, and with the communication module of the mutual communication of servo device.

The beneficial effects of the utility model reside in that: through the direct electrical connection data cable, but and software programming sets for communication parameter's mode makes the utility model discloses can be general in different communication protocol's equipment, and can reduce whole volume with retrenching the structure, and then promote the space benefit, and promote installation simplicity and convenient to use nature.

Drawings

other features and advantages of the present invention will become apparent from the following detailed description of the preferred embodiments with reference to the accompanying drawings, in which:

Fig. 1 is a perspective view illustrating one embodiment of the programmable communication device of the present invention;

FIG. 2 is a schematic illustration of the embodiment;

FIG. 3 is a block diagram of the described embodiment; and

Fig. 4 is a schematic diagram illustrating a setting interface in the embodiment.

Detailed Description

Referring to fig. 1, 2 and 3, an embodiment of the programmable communication device 1 of the present invention is adapted to transmit an operation data D of an operation device 2 to a servo device 3. In the present embodiment, the working device 2 is installed in a case and includes a camera 21 for capturing images and an inverter 22 electrically connected to the camera 21. The inverter 22 has two data cables 221. The working data D may be related data such as video signals or working time.

It should be noted that the working device 2 is not limited to include the camera 21, but may also include an energy storage device for supplying electric energy, or other devices capable of generating video and audio signals, or generating quantity changes and times changes, and when the working device 2 includes an energy storage device, the working data D may be electric energy collection amount/unit time, electric energy supply amount/unit time.

In addition, the case refers to an area divided by the work place where the work device 2 is installed, the number of cases in each work place is not limited to one, and in other variations of the present embodiment, 2 cases or more than 2 cases may be provided, and at least one inverter 22 is provided for each case, the inverter 22 has a unique identification code, and a plurality of inverters 22 can be connected in series.

The programmable communication device 1 comprises a connection unit 11, a near-end communication unit 12, a wireless communication unit 13, and a control unit 14.

The connection unit 11 is adapted to receive the working data D and comprises a serial port 111. The serial port 111 has four pins 112 adapted to electrically connect to the data cable 221. The two pins 112 are a set and form an included angle. In this embodiment, the included angle is 90 degrees, so that the pin 112 can be electrically connected to the data cable 221 inserted along the horizontal direction, or electrically connected to the data cable 221 inserted along the vertical direction.

The near-end communication unit 12 is used for inputting a communication parameter S and includes a connection port 121 adapted to connect an external device. In the present embodiment, the connection port 121 is a Universal Serial Bus (USB). The communication parameters S are used to set the inverter brand, account and password for connecting to the internet, address P for connecting to the server 3, the number of cases, the number of inverters, and the communication protocol. The communication protocol may be a protocol conforming to serial interface standards such as RS232, RS485, RS422, RJ45, USB, or type C. In this embodiment, the external device may be the server 3 or other computer, and the communication parameter S is edited by the external device through a setting interface 4 (as shown in fig. 4) after being connected to the external device.

the wireless communication unit 13 is adapted to communicate with the server 3 via wireless communication technology. In the embodiment, the wireless communication unit 13 includes a communication module 131 connected to the internet through a mobile phone communication technology (mobile phone communication technologies) and communicating with the server 3, and an antenna 132 electrically connected to the communication module 131 and used for enhancing electromagnetic wave signals. The mobile communication technology can be 3G, 4G or 5G.

It should be noted that the communication module 131 is not limited to being connected to the internet through a mobile communication technology, and in other variations of the present embodiment, the communication module may be connected to the internet through a Wireless local area network (wlan) technology.

The control unit 14 is electrically connected to the near-end communication unit 12, the connection unit 11 and the wireless communication unit 13, communicates with the working device 2 according to the communication parameter S with the same communication protocol, and transmits the working data D to the server 3 through the wireless communication unit 13 according to a preset address P.

Before installation, the communication parameters S can be edited through the setting interface 4 (as shown in fig. 4) by matching with the communication protocol of the working device 2 and connecting to the external device through the connection port 121 of the near-end communication unit 12, so as to set the communication protocol. Therefore, when the connection port 121 receives the communication parameter S, the control unit 14 updates the communication protocol according to the communication parameter S.

Referring to fig. 3 and 4, the setting interface 4 includes a serial port selection field 41 for determining the serial port type of the connected external device, an inverter selection field 42 for determining the brand of the inverter 22, two account setting fields 43 for setting account numbers and passwords for the internet, two address setting fields 44 for determining the address P, a case number setting field 45 for setting a case number to identify a case, a case number setting field 46 for setting the number of cases, a project field 47 for setting the number of inverters in each case, a time setting field 48 for setting the interval time for returning the operation data D, and a plurality of code setting fields 49 for determining the communication protocol. It should be noted that fig. 4 is only an exemplary schematic diagram of the operation process, different from the example illustrated in the following paragraphs.

For example, when the external device sets the communication parameter S, it first sets the serial port type to COM4 through the serial port selection column 41 of the setting interface 4, then selects the brand of the inverter 22 through the inverter selection column 42, and then sets the account number and password of the internet through the account setting column 43, at this time, the external device automatically updates the address P of the address setting column 44 and updates the code of the code setting column 49 according to the selected inverter 22, and then sets the number of the case through the case number setting column 45, such as a73006602, and sets the number of cases through the case number setting column 46, such as 3 cases, sets the number of inverters in each case through the item column 47, such as 3 cases, 6 inverters 22, and 2 inverters 22 in each case, the entry column 47 is set to 06-02-02-02, where the first set of numbers 06 is the total number of inverters 22, the second set of numbers is the number of inverters 22 in the first scenario, the third set of numbers is the number of inverters 22 in the second scenario, and the fourth set of numbers is the number of inverters 22 in the third scenario. Finally, the time for receiving the operation data D transmitted by each inverter 22 is set through the time setting column 48, for example, 60 seconds, so as to complete the setting of the communication parameter S.

During installation, the data cable 221 of the working device 2 is only required to be directly inserted into any group of pins 112 of the connecting unit 11, and installation is completed.

It should be noted that the programming for setting the communication parameter S is not limited to the programming before installation, but may be implemented after installation according to the practical requirements.

During communication, the control unit 14 communicates with the working device 2 according to the communication parameter S with the same communication protocol, receives the working data D through the serial port 111 of the connection unit 11, connects to the internet through the communication module 131 of the wireless communication unit 13, and transmits the working data D to the server 3 according to the address P. Therefore, the servo device 3 can monitor at a remote end to obtain video and audio signals or related data which can generate quantity change and frequency change.

From the above description, the advantages of the foregoing embodiments can be summarized as follows:

1. Through direct electrical connection data cable 221, and set for through software programming communication parameter S 'S mode makes the utility model discloses can be general in different communication protocol' S equipment 2, and can retrench the structure and reduce the volume, not only can be suitable for various equipment 2, and occupation space not, and then can promote the space benefit.

2. and importantly, the utility model discloses only need connect data cable 221 with linkage unit 11 just accomplishes the installation, when taking place unusually, can eliminate immediately and trade, not only the installation is simple and easy, and eliminates and trade the convenience, and then can promote convenient to use nature by a wide margin.

The above description is only an example of the present invention, and the scope of the present invention should not be limited thereby, and all the simple equivalent changes and modifications made according to the claims and the description of the present invention are still within the scope of the present invention.

Claims (7)

1. A programmable communication device adapted to transmit operation data of at least one operating device to a servo device, the at least one operating device having two data cables, the programmable communication device comprising:

The connecting unit is suitable for receiving the working data and comprises a serial port;

The near-end communication unit is used for inputting communication parameters, and the communication parameters are at least used for setting a communication protocol;

The wireless communication unit is suitable for communicating with the servo device through a wireless communication technology; and

The control unit is electrically connected with the near-end communication unit, the connecting unit and the wireless communication unit;

The method is characterized in that:

The serial port of the connecting unit is provided with at least two pins suitable for being electrically connected with the data cable, and the control unit communicates with the at least one working device according to the communication parameters by using the same communication protocol and transmits the working data to the servo device through the wireless communication unit according to a preset address.

2. A programmable communications device as in claim 1 wherein: the near-end communication unit comprises a connection port which is suitable for being connected with an external device and inputting the communication parameters.

3. A programmable communications device as in claim 2 wherein: the connection port is a universal serial bus.

4. A programmable communications device as in claim 1 wherein: the serial port is provided with four pins, and two pins are a group and form an included angle.

5. a programmable communications device as in claim 1 wherein: the wireless communication unit comprises a communication module which is connected with the internet through a mobile communication technology and is communicated with the servo device.

6. a programmable communications device as in claim 5 wherein: the wireless communication unit also comprises an antenna which is electrically connected with the communication module and is used for enhancing electromagnetic wave signals.

7. A programmable communications device as in claim 1 wherein: the wireless communication unit is connected with the internet through a wireless local area network technology and is communicated with the servo device.