CN215526407U - Microdistribution equipment controlled by remote terminal - Google Patents

Abstract

The utility model relates to the field of wireless communication, in particular to a micro-distribution device controlled by a remote terminal, which comprises a micro-distribution device, a data forwarding gateway, a cloud server and the remote terminal, wherein one end of the data forwarding gateway is connected with the micro-distribution device, the other end of the data forwarding gateway is connected with one end of the cloud server, and the other end of the cloud server is connected with the remote terminal. The microdistribution equipment comprises a radio frequency link module, a first MCU, a first Internet of things module, a manual control part and a plurality of multiplexers, one end of the radio frequency link module is connected with the multiplexers, the other end of the radio frequency link module is connected with the first MCU, and the other end of the first MCU is connected with the first Internet of things module and the manual control part. The first MCU is used for controlling the radio frequency link module, the first Internet of things module, the manual control part and the multiplexer. Through setting up microdistribution equipment, data forwarding gateway, cloud server and the remote terminal that connects gradually, can carry out remote operation through remote terminal and cloud server to data forwarding gateway and microdistribution equipment like this.

Description

Microdistribution equipment controlled by remote terminal

Technical Field

The utility model relates to the field of wireless communication, in particular to a microdistribution device controlled by a remote terminal.

Background

Current microdistribution products generally support only single frequency band, or multi-channel products.

For a device supporting only a single frequency band, if the outdoor environment does not have a base station of the frequency band, the device cannot be installed, and the environmental adaptability of the device is greatly reduced.

For a multi-channel product, no matter what frequency band the outdoor base station is, the equipment side simultaneously supports all the channels, so that the installation is more convenient for constructors, but the cost of the equipment is undoubtedly increased. Moreover, if the outdoor base station only has a single frequency band, other channels of the solution are actually wasted, and the energy consumption of the device is also high.

Traditional microdistribution equipment will often debug the frequency channel when the installation, but when the frequency channel of outdoor environment changed, then need operating personnel to go to the scene to debug the frequency channel that changes microdistribution equipment, can increase the human cost like this.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a microdistribution device controlled by a remote terminal, which solves the problem that when the frequency band of the outdoor environment of the traditional microdistribution device is changed, an operator needs to go to the site to debug and change the frequency band of the microdistribution device, so that the labor cost is increased.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a microdistribution equipment through remote terminal control, includes microdistribution equipment, data forwarding gateway, cloud ware and remote terminal, and data forwarding gateway's one end and microdistribution equipment link to each other, and the other end links to each other with cloud ware's one end, and cloud ware's the other end and remote terminal link to each other. The microdistribution equipment comprises a radio frequency link module, a first MCU, a first Internet of things module, a manual control part and a plurality of multiplexers, one end of the radio frequency link module is connected with the multiplexers, the other end of the radio frequency link module is connected with the first MCU, and the other end of the first MCU is connected with the first Internet of things module and the manual control part. And a radio frequency receiving and transmitting chip is arranged in the radio frequency link module and is used for configuring different working frequency bands of the radio frequency link module. One end of the first internet of things module is connected with the first MCU, and the other end of the first internet of things module is connected with the data forwarding gateway. The manual control part is provided with a dial device for adjusting the frequency of the radio frequency transceiver chip. The first MCU is used for controlling the radio frequency link module, the first Internet of things module, the manual control part and the multiplexer.

The data forwarding gateway comprises a second networking module, a communication module and a second MCU, the communication module and the second networking module are both installed on the second MCU and are communicated with each other, one end of the second networking module is connected with the first networking module, and the other end of the second networking module is connected with the second MCU.

According to a further technical scheme, one end of the communication module is connected with the second MCU, and the other end of the communication module is connected with the cloud server.

According to a further technical scheme, the communication module is provided with a wireless communication module, and the communication module is in wireless connection with the cloud server through the wireless communication module.

According to a further technical scheme, the communication module is provided with a wireless communication module, and the communication module is in wireless connection with the cloud server through the wireless communication module.

The dial device adjusts the frequency of the radio frequency transceiver chip through the first MCU.

A further technical scheme is that a mounting groove is formed in the first MCU, and the first Internet of things module is connected with the first MCU through the mounting groove.

Compared with the prior art, the utility model has the beneficial effects that: through setting up microdistribution equipment, data forwarding gateway, cloud server and the remote terminal that connects gradually, can carry out remote operation through remote terminal and cloud server to data forwarding gateway and microdistribution equipment like this. Different working frequency bands are configured by the fact that the multiplexer is matched with the first MCU to control the radio frequency transceiving chip, so that the working frequency bands can be flexibly configured according to the frequency band condition of the outdoor base station, and the problem that the traditional micro distribution equipment only supports a single frequency band and cannot be installed under the base station condition that the outdoor environment does not have the frequency band is solved.

Drawings

FIG. 1 is a schematic diagram of a micro-distribution apparatus architecture according to the present invention.

Fig. 2 is a schematic diagram of an architecture in which a data forwarding gateway is connected to a micro distribution device and a cloud server, respectively.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Example (b):

fig. 1 and 2 show an embodiment of the present invention.

The utility model provides a microdistribution equipment through remote terminal control, includes microdistribution equipment, data forwarding gateway, cloud ware and remote terminal, and data forwarding gateway's one end and microdistribution equipment link to each other, and the other end links to each other with cloud ware's one end, and cloud ware's the other end and remote terminal link to each other. The microdistribution equipment comprises a radio frequency link module, a first MCU, a first Internet of things module, a manual control part and a plurality of multiplexers, one end of the radio frequency link module is connected with the multiplexers, the other end of the radio frequency link module is connected with the first MCU, and the other end of the first MCU is connected with the first Internet of things module and the manual control part. And a radio frequency receiving and transmitting chip is arranged in the radio frequency link module and is used for configuring different working frequency bands of the radio frequency link module. One end of the first internet of things module is connected with the first MCU, and the other end of the first internet of things module is connected with the data forwarding gateway. The manual control part is provided with a dial device for adjusting the frequency of the radio frequency transceiver chip. The first MCU is used for controlling the radio frequency link module, the first Internet of things module, the manual control part and the multiplexer. Through setting up the microdistribution equipment that connects gradually, the data transfer gateway, cloud ware and remote terminal, can carry out remote operation to data transfer gateway and microdistribution equipment through remote terminal and cloud ware like this, adopt the first MCU of multiplexer cooperation control radio frequency transceiver chip to dispose different working frequency bands through the setting, just so can come nimble working frequency band of configuration according to the frequency band condition of outdoor basic station, it only supports single frequency band to have improved traditional microdistribution equipment, under the base station condition of this frequency band of outdoor environment does not have, the problem of installing can't be carried out. The first Internet of things module is connected with the data forwarding gateway, so that an operator can be connected to the first Internet of things module, the first MCU and the radio frequency link through the data forwarding gateway in a remote mode, and an operation command can be sent to the first Internet of things module, the first MCU and the radio frequency link in a remote mode. The multiplexer simultaneously supports the radio frequency signals of a plurality of channels to pass through, and each channel is provided with enough isolation degree, and the multiplexer can be replaced by a radio frequency switch.

The data forwarding gateway comprises a second networking module, a communication module and a second MCU, the communication module and the second networking module are both installed on the second MCU and are communicated with each other, one end of the second networking module is connected with the first networking module, and the other end of the second networking module is connected with the second MCU. The first internet of things module and the second internet of things module are matched to realize the transmission of configuration information and the interaction of basic information between the microdistribution equipment and the data forwarding gateway.

One end of the communication module is connected with the second MCU, and the other end of the communication module is connected with the cloud server. The communication module realizes interaction with the cloud server, transmits information of the micro-distribution equipment and the data forwarding gateway back to the cloud server, obtains an operation instruction of the cloud server, and then controls the second internet of things module to issue the operation instruction to the micro-distribution equipment through the second MCU, so that the micro-distribution equipment performs frequency band remote switching work.

The communication module is provided with a wireless communication module, and the communication module is in wireless connection with the cloud server through the wireless communication module. Through setting up wireless communication module, can make wireless connection between data forwarding gateway and the cloud ware like this, promoted data transmission's convenient degree on the one hand, such setting simultaneously, remote terminal can also adopt portable's removal remote terminal, for example cell-phone, flat board, notebook computer etc..

The cloud server comprises a storage device and a control module, the storage device is used for storing position information and state information of the radio frequency link module, the first MCU, the first Internet of things module, the manual control part, the multiplexer, the second Internet of things module, the communication module and the second MCU, and the control module is used for sending an operation instruction to the radio frequency link module, the first MCU, the first Internet of things module, the manual control part, the multiplexer, the second Internet of things module, the communication module and the second MCU. The database concentrates the radio frequency link, the first MCU, the first Internet of things module, the manual control part, the multiplexer, the second Internet of things module, the position information and the state information of the communication module and the second MCU, the state information of the equipment can be displayed and inquired in real time, and simultaneously, the command can be directly sent to the radio frequency link, the first MCU, the first Internet of things module, the manual control part, the multiplexer, the second Internet of things module, the communication module and the second MCU respectively or simultaneously to realize the operation of remotely changing the configuration, so that the trouble of field maintenance after the equipment is installed is solved, the requirements on installation and maintenance personnel are greatly reduced, and the cost is saved.

The dial device adjusts the frequency of the radio frequency transceiver chip through the first MCU. When the remote control fails, for example, a radio frequency link fails or the link cost is reduced, and the first internet of things module and the second internet of things module are not installed, a dial-up device is reserved on the manual control part to operate the radio frequency transceiver chip to carry out frequency conversion, different dial-up states of the dial-up device represent different frequency bands, and a front-line installer can follow up the working frequency band of a site to carry out on-site dial-up frequency selection.

Be provided with the mounting groove on the first MCU, first thing networking module passes through the mounting groove and links to each other with first MCU. Such setting has promoted the firmness that first thing networking module and first MCU connected, also is convenient for like this simultaneously the installation with dismantle first thing networking module.

Although the utility model has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (7)

1. A micro distribution device controlled by a remote terminal is characterized by comprising a micro distribution device, a data forwarding gateway, a cloud server and the remote terminal, wherein one end of the data forwarding gateway is connected with the micro distribution device, the other end of the data forwarding gateway is connected with one end of the cloud server, and the other end of the cloud server is connected with the remote terminal;

the micro distribution equipment comprises a radio frequency link module, a first MCU, a first Internet of things module, a manual control part and a plurality of multiplexers, wherein one end of the radio frequency link module is connected with the multiplexers, the other end of the radio frequency link module is connected with the first MCU, and the other end of the first MCU is connected with the first Internet of things module and the manual control part;

a radio frequency transceiver chip is arranged in the radio frequency link module and is used for configuring different working frequency bands of the radio frequency link module;

one end of the first Internet of things module is connected with the first MCU, and the other end of the first Internet of things module is connected with the data forwarding gateway;

the manual control part is provided with a dial device for adjusting the frequency of the radio frequency transceiver chip;

the first MCU is used for controlling the radio frequency link module, the first Internet of things module, the manual control part and the multiplexer.

2. A microdistribution device controlled by a remote terminal according to claim 1, characterized in that: the data forwarding gateway comprises a second Internet of things module, a communication module and a second MCU, the communication module and the second Internet of things module are both installed on the second MCU and are communicated with each other, one end of the second Internet of things module is connected with the first Internet of things module, and the other end of the second Internet of things module is connected with the second MCU.

3. A microdistribution device controlled by a remote terminal according to claim 2, characterized in that: one end of the communication module is connected with the second MCU, and the other end of the communication module is connected with the cloud server.

4. A microdistribution device controlled by a remote terminal according to claim 3, characterized in that: the communication module is provided with a wireless communication module, and the communication module is in wireless connection with the cloud server through the wireless communication module.

5. A microdistribution device controlled by a remote terminal according to claim 3, characterized in that: the cloud server comprises a storage device and a control module, the storage device is used for storing position information and state information of a radio frequency link module, a first MCU, a first Internet of things module, a manual control part, a multiplexer, a second Internet of things module, a communication module and a second MCU, and the control module is used for sending an operation instruction to the radio frequency link module, the first MCU, the first Internet of things module, the manual control part, the multiplexer, the second Internet of things module, the communication module and the second MCU.

6. A microdistribution device controlled by a remote terminal according to claim 1, characterized in that: the dial-up device adjusts the frequency of the radio frequency transceiver chip through the first MCU.

7. A microdistribution device controlled by a remote terminal according to claim 1, characterized in that: the first MCU is provided with a mounting groove, and the first Internet of things module is connected with the first MCU through the mounting groove.

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