CN110491112A - A kind of multiple-in-one acquisition system and acquisition method - Google Patents

Abstract

The invention provides a multi-meter-in-one acquisition system and acquisition method, including a measurement terminal and a base station connected to the measurement terminal, the base station is connected to the main station, and characterized in that the measurement terminal is a multi-meter in one terminal, and the measuring terminal includes a water meter measuring instrument, a heating measuring instrument, a gas measuring instrument and an electric power measuring instrument, the multi-meter-in-one terminal is connected to the base station through a low-power wide area network, and the base station is connected to the base station through a GPRS network. Main site. The invention adopts the low power consumption wide area network to realize the communication between the multi-meter integrated terminal and the base station, and has the advantages of low power consumption, long transmission distance, low construction cost and the like.

Description

A multi-meter-in-one acquisition system and acquisition method

technical field

The invention belongs to the technical field of measuring instruments, in particular to a multi-meter-in-one acquisition system and an acquisition method.

Background technique

Multi-meter integration means that the amount of water, heat, and gas can be collected based on electricity consumption information. The "multi-meter integration" project is mainly promoted by the State Grid Corporation of China. It uses the existing collection platform of the power system to realize the integrated remote data collection mode of water, electricity, heating, gas and other public utilities. The purpose is to create a new energy consumption service model, Reduce meter reading workload and duplicate hardware construction. In the multi-meter-in-one meter reading application, due to the different installation environments and different installation methods of water, electricity, gas, and heat meters, a single RF parameter cannot be well adapted to field applications.

The traditional FSK point-to-point communication performance is insufficient, and multi-hop MESH networking is usually used. MESH networking needs to maintain the relay nodes in the network. Although most of them are automatic networking, there is a lot of work in the later stage of practical application. Communication abnormalities are often caused by equipment damage of relay nodes, environmental changes, such as closing the rolling shutter at night, and device aging. Due to the multi-hop networking structure of MESH networking, it is not conducive to the maintenance of operation and maintenance personnel, and the professionalism is too strong. It is necessary for the operation and maintenance personnel to establish a systematic knowledge system of MESH networking.

Therefore, a communication network with low power consumption and sufficient transmission distance is required to realize a stable connection between the winning terminal and the base station.

SUMMARY OF THE INVENTION

The purpose of the present invention is to aim at the above-mentioned problems, provide a kind of multi-meter integration acquisition system;

Another object of the present invention is to provide a multi-table collection method for the above problems.

To achieve the above object, the present invention has adopted the following technical solutions:

A multi-meter-in-one acquisition system includes a measurement terminal and a base station connected to the measurement terminal, the base station is connected to a main station, the measurement terminal is a multi-meter-in-one terminal, and the measurement terminal includes a water meter measuring instrument , heating measuring instrument, gas measuring instrument and electric power measuring instrument, the multi-meter-in-one terminal is connected to the base station through a low-power wide area network, and the base station is connected to the main station through a GPRS network.

In the above multi-meter-in-one collection system, the low-power wide area network is LPWAN wide area network, LORA wide area network, NB-IOT wide area network or SIGFOX wide area network.

In the above-mentioned multi-meter-in-one acquisition system, the low-power wide area network adopts the LoRaWAN standard of LORA technology.

In the above-mentioned multi-meter-in-one acquisition system, the LORA wide area network is used to realize the communication between the base station and the multi-meter-in-one terminal by adopting a combination mode of fixed baud rate adaptation and multi-channel.

In the above-mentioned multi-meter-in-one collection system, the multi-meter-in-one terminal) includes a LORA WAN collector, and the water meter measuring instrument, heating measuring instrument, gas measuring instrument and electric power measuring instrument are all connected to all through the 485 communication interface. The LORA WAN collector, the base station includes a LORA WAN wireless module, and the LORA WAN collector is wirelessly connected to the LORA WAN wireless module through LORA.

In the above-mentioned multi-meter-in-one acquisition system, the LORA WAN uses the SX1301 chip as the baseband chip.

In the above-mentioned multi-meter-in-one acquisition system, the SX1301 multi-radio frequency channel feature is used between the base station and the multi-meter-in-one terminal, and each radio frequency factor two channels communicate with the multi-meter-in-one terminal.

In the above-mentioned multi-meter-in-one collection system, the LORA wide area network adopts the network architecture of the star point-to-point networking mode, so that the nodes in the network are not associated with the dedicated gateway.

In the above-mentioned multi-meter-in-one acquisition system, when the LORA WAN uses different spreading factors based on spread spectrum modulation, the signals are orthogonal to each other. When the spreading factor changes, the effective data rate will also change, so that at the same time Multiple different data rates are accepted on the same channel.

A collection method based on the above-mentioned multi-meter-in-one collection system, comprising a LORA wide area network and a processing program used for communication between a base station and a multi-meter-in-one terminal, comprising the following steps:

S1. Use the multi-meter-in-one terminal to measure the collected data, and send the collected data to the base station through LoRaWAN;

S2. The collected data is processed by the processing program and sent to the master station;

S3. The master station displays each measurement result in the form of a table.

In the above-mentioned multi-meter-in-one collection method, the processing program includes a LORAWAN radio frequency processing subroutine, a LORAWAN network management subroutine, a multi-meter meter management subroutine, a protocol analysis processing subroutine, a data storage subroutine, and an acquisition system. Communication subroutine and security management subroutine.

The advantage of the invention is that the communication between the multi-meter-in-one terminal and the base station is realized by using the low power consumption wide area network, which has the advantages of low power consumption, long transmission distance, low construction cost and the like; the radio frequency characteristics and networking of the low power consumption wide area network are applied Features: The star-shaped point-to-point networking mode is adopted, and the communication performance is excellent. The networking does not need to maintain the relay nodes in the network. There is no communication abnormality caused by the abnormal communication relay nodes. The network structure is simple and reliable, and the fault judgment conditions are single. Due to the point-to-point networking structure, the network is conducive to maintenance by operation and maintenance personnel. The operation and maintenance personnel can judge on-site problems and find the problem location through common sense.

Description of drawings

Fig. 1 is the system structure block diagram of the multi-meter-in-one acquisition system of the present invention.

Reference numerals: base station 1 ; multi-meter terminal 2 ; water meter measuring instrument 21 ; heating measuring instrument 22 ; gas measuring instrument 23 ; electric power measuring instrument 24 ;

Detailed ways

The present invention will be described in further detail below with reference to the accompanying drawings and specific embodiments.

This embodiment realizes the communication between the multi-meter-in-one terminal 2 and the base station 1 based on the low-power wide area network 3 technology, and realizes the data collection of electricity, gas, water, and heat meters, and the LORA wide area network is preferred in this embodiment, and the LORA communication has Low energy consumption, low cost, flexible networking and other advantages.

As shown in FIG. 1 , this embodiment specifically discloses a multi-meter-in-one acquisition system, including a measurement terminal and a base station 1 connected to the measurement terminal, the base station 1 is connected to the main station 5 , and the measurement terminal is The multi-meter-in-one terminal 2, and the measurement terminal includes a water meter measuring instrument 21, a heating measuring instrument 22, a gas measuring instrument 23 and an electric power measuring instrument 24, and the multi-meter-in-one terminal 2 is connected to the base station through the low-power wide area network 3 1. The base station 1 is connected to the master station 5 through the GPRS network 4 .

The low power consumption wide area network 3 here may be an LPWAN wide area network, a LORA wide area network, an NB-IOT wide area network or a SIGFOX wide area network. In particular, the LPWAN 3 of this embodiment adopts the LoRaWAN standard of the LORA technology.

And the LORA WAN here uses the SX1301 chip as the baseband chip.

Specifically, the multi-meter-in-one terminal 2 includes a LORA WAN collector. The collector communicates with the base station wirelessly through LORA. The base station 1 has a LORA WAN wireless module to realize wireless communication with the LORA WAN collector, and the base station also has a data processing unit connected to the LORA WAN wireless module.

The LORA wide area network adopts a combination of fixed baud rate adaptation and multi-channel mode to realize the communication between the base station 1 and the multi-meter-in-one terminal 2. Combined with the meter reading feature of multiple meters, the feature of SX1301 with multiple RF channels is utilized, and each RF factor two channels communicate with the multi-meter-in-one terminal 2, which has a good practical application effect.

Further, the LORA WAN adopts the network architecture of the star point-to-point networking mode, and the communication performance is excellent, so that the nodes in the network are not associated with the dedicated gateway. Instead, data transmitted by one node is usually received by multiple gateways. Each gateway forwards packets received from end nodes to a cloud-based web server via some backhaul (cellular, ethernet, etc.). Intelligence and sophistication are placed on the server, which manages the network and filters redundant received data, performs security checks for scheduling confirmation through the optimal gateway, and performs adaptive data rates, etc.

And LORAWAN networking does not need to maintain the relay nodes in the network, there is no communication abnormality caused by abnormal communication relay nodes, the network structure is simple and reliable, and the fault judgment conditions are single; LORAWAN networking is conducive to operation and maintenance due to the point-to-point networking structure. Personnel maintenance, operation and maintenance personnel can judge on-site problems and find the location of the problem through common sense.

When the LORA WAN uses different spreading factors based on spread spectrum modulation, the signals are orthogonal to each other. When the spreading factor changes, the effective data rate also changes, so that multiple different data rates are accepted on the same channel at the same time. In order for the adaptive data rate to work, the symmetrical uplink and downlink require sufficient downlink capacity. These characteristics make LoRaWAN have a very high capacity and the network is more scalable. The network can be deployed with a minimum amount of infrastructure. When capacity is required, more gateways can be added, data rates can be changed, and the number of crosstalk times can be reduced, and the network capacity can be expanded by 6 to 8 times. Thus, the data of multiple nodes can be received and processed in parallel, which greatly expands the system capacity.

Specifically, the collection method of the collection system of this embodiment includes a LORA wide area network and a processing program used for communication between the base station 1 and the multi-meter-in-one terminal 2, and specifically includes the following steps:

S1. Use the multi-meter-in-one terminal 2 to measure the collected data, and send the collected data to the base station 1 through LoRaWAN;

S2. The collected data is processed by the processing program and sent to the master station 5;

S3. The master station 5 displays each measurement result in the form of a table.

Further, the processing program is installed on the base station 1, and the processing program includes a LORAWAN radio frequency processing subroutine, a LORAWAN network management subroutine, a multi-meter meter management subroutine, a protocol analysis processing subroutine, a data storage subroutine, and a communication system using the Subroutines and safety management subroutines, etc.

The multi-meter-in-one acquisition system in this embodiment proposes to run the multi-meter-in-one application embedded program on the LPWAN base station 1, that is, the aforementioned processing program, so that the design is closer to the edge computing model.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Those skilled in the art to which the present invention pertains can make various modifications or additions to the described specific embodiments or substitute in similar manners, but will not deviate from the spirit of the present invention or go beyond the definition of the appended claims range.

Although this article uses more base station 1; multi-meter in one terminal 2; water meter measuring instrument 21; heating measuring instrument 22; gas measuring instrument 23; electric power measuring instrument 24; terms, but does not exclude the possibility of using other terms. These terms are used only to more conveniently describe and explain the essence of the present invention; it is contrary to the spirit of the present invention to interpret them as any kind of additional limitation.

Claims (10)

1. A multi-meter-in-one acquisition system, comprising a measurement terminal and a base station (1) connected to the measurement terminal, and the base station (1) is connected to a master station (5), wherein the measurement terminal is A multi-meter-in-one terminal (2), and the measurement terminal includes a water meter measuring instrument (21), a heating measuring instrument (22), a gas measuring instrument (23), and an electric power measuring instrument (24), the multi-meter-in-one terminal (2) is connected to the base station (1) through the low power consumption wide area network (3), and the base station (1) is connected to the main station (5) through the GPRS network (4). 2. The multi-meter-in-one collection system according to claim 1, wherein the low-power wide area network (3) is an LPWAN wide area network, a LORA wide area network, a NB-IOT wide area network or a SIGFOX wide area network. 3. The multi-meter-in-one acquisition system according to claim 2, is characterized in that, described low power consumption wide area network (3) adopts the LoRaWAN standard of LORA technology; Described LORA wide area network adopts fixed baud rate self-adaptation and multiple The channel combination mode realizes the communication between the base station (1) and the multi-meter-in-one terminal (2). 4. The multi-meter-in-one acquisition system according to claim 2, wherein the multi-meter-in-one terminal (2) comprises a LORA WAN collector, the water meter measuring instrument (21), the heating measuring instrument (22) ), the gas measuring instrument (23) and the electric power measuring instrument (24) are all connected to the LORA WAN collector through the 485 communication interface, the base station includes a LORA WAN wireless module, and the LORA WAN collector is wirelessly connected to the LORA WAN collector through the LORA LORA WAN wireless module described above. 5 . The multi-meter-in-one acquisition system according to claim 4 , wherein the LORA wide area network uses an SX1301 chip as a baseband chip. 6 . 6. The multi-meter-in-one acquisition system according to claim 5, wherein the base station (1) and the multi-meter-in-one terminal (2) utilize the characteristics of the SX1301 multi-radio frequency channels, and each radio frequency factor is doubled. The channel communicates with the multi-meter-in-one terminal (2). 7 . The multi-meter-in-one collection system according to claim 6 , wherein the LORA wide area network adopts a network architecture of a star point-to-point networking mode. 8 . 8. The multi-meter-in-one acquisition system according to claim 7 is characterized in that, when using different spreading factors based on spread spectrum modulation in LORA wide area network, the signals are orthogonal to each other, and when the spreading factors change, the effective data rate It also changes to accept multiple different data rates on the same channel at the same time. 9. A collection method based on the multi-meter-in-one acquisition system according to any one of claims 1-8, characterized in that it comprises a method for communication between a base station (1) and a multi-meter-in-one terminal (2) The LORA WAN and handler, including the following steps: S1. Use the multi-meter-in-one terminal (2) to measure the collected data, and send the collected data to the base station (1) through LoRaWAN; S2. The collected data is processed by the processing program and then sent to the master station (5); S3. The master station (5) displays each measurement result in the form of a table. 10. The multi-meter-in-one collection method according to claim 9, wherein the processing program comprises a LORAWAN radio frequency processing subroutine, a LORAWAN network management subroutine, a multi-meter meter management subroutine, and a protocol analysis processing subroutine , data storage subroutine, using and adopting system communication subroutine and safety management subroutine.