CN106790314B - Cat and cloud architecture method based on generator set - Google Patents

Abstract

The invention discloses a method based on a power generator set cat and cloud architecture, which is characterized by comprising the following steps: the system comprises a cloud server, a bridging cat, protocol data and equipment IDs of various generator set controllers; comprises the following steps; step 1: establishing a database, counting protocol data of various generator set controllers in the market, and storing protocols and control logics of various products in a cloud server; step 2: storing various existing generator set controller equipment IDs on the market in the bridging cat; and step 3: each generator set in the cloud server corresponds to the equipment ID in one bridging cat; and 4, step 4: when the bridging cat works, after the matching of the IDs is good, and a request is sent to the cloud server, the cloud server downloads the control logic and the communication protocol of the controller connected with the ID corresponding to the bridging cat request to the bridging cat; and 5: the bridging cat executes the downloaded protocol and control logic, starts data collection and executes control of the cloud.

Description

Cat and cloud architecture method based on generator set

Technical Field

The invention relates to a cloud architecture method, in particular to a cat and cloud architecture method based on a generator set.

Background

China is called a large population country, the electricity consumption is huge every year, for example, in 2009, the electricity consumption of the communication industry in China reaches 290 hundred million degrees, wherein the electricity consumption of a communication base station already accounts for 45%, and the energy conservation and consumption reduction of the communication base station become the first part of the energy conservation and consumption reduction field. At present, most of common communication base station anti-electricity-stealing detection systems monitor conditions such as temperature, humidity, pressure, smoke and the like in a machine room in real time by using a sensor technology, intelligent ventilation and heat exchange are automatically controlled and realized, although effective energy conservation can be realized, under the background of great energy conservation, a plurality of communication base stations are built on the roof of a residential area in a city or a suburb county, and in order to save electricity charges, a part of people can steal electricity on the electricity consumption of the base stations, so that a great part of economic loss is proxied to communication units. The centralized monitoring system of power and environment in the base station is a supporting network management system of communication power equipment and machine room environment, and is an important means for realizing centralized monitoring of power, improving labor efficiency and ensuring normal operation of communication equipment. Considering the current situation of the construction of the power and environment monitoring system of the existing access network, most of the systems are built in a traditional E1 private network time slot extraction mode and an E1 time slot extraction (semi-permanent connection) mode, but the former occupies too large transmission resources, the latter has unique requirements on BSC equipment, 1E 1 transmission channel shared by the base station is easy to influence each other, and the networking cost is very high; in order to save cost, the wireless networks are also constructed in a wireless mode such as short message, GPRS and the like, but the effects of the wireless networks are not ideal due to the factors such as bandwidth limitation, stability of the wireless networks and the like.

The control that current power generation unit trade used has numerous brands international and domestic, and the controller that each brand used is different, and these controllers are all based on modbus's communication interface, but its inside controller definition is different, and the difference is very big, and the brand is numerous, has many different models under every brand again. When the bridging cat processes the brands, the protocols of the brands need to be stored, the registers convert the relations, and then the relations are combined into an interface agreed with the cloud end to be sent to the cloud end. With the increase in brands and product models supported, systems that bridge cats become increasingly bulky and, with each expansion, bring about upgrades to the cat, and are extremely inconvenient.

Disclosure of Invention

The technical problem to be solved by the invention is to adopt a new architecture, increase the brand and expand the product model, and not to cause pressure on a bridging cat, and the invention aims to provide a method based on a generator set cat and cloud architecture, and solve the problem that the brand increase and the product model expansion do not cause pressure on the bridging cat by adopting the new architecture.

The invention is realized by the following technical scheme:

the power generating set cat and cloud architecture based method comprises a cloud server, a bridging cat, protocol data and equipment IDs of various power generating set controllers; comprises the following steps; step 1: establishing a database, counting protocol data of various generator set controllers in the market, and storing protocols and control logics of various products in a cloud server; step 2: storing various existing generator set controller equipment IDs on the market in the bridging cat; and step 3: each generator set in the cloud server corresponds to the equipment ID in one bridging cat; and 4, step 4: when the bridging cat works, after the matching of the IDs is good, and a request is sent to the cloud server, the cloud server downloads the control logic and the communication protocol of the controller connected with the ID corresponding to the bridging cat request to the bridging cat; and 5: the bridging cat executes the downloaded protocol and control logic, starts data collection and executes control of the cloud. The control that current power generation unit trade used has numerous brands international and domestic, and the controller that each brand used is different, and these controllers are all based on modbus's communication interface, but its inside controller definition is different, and the difference is very big, and the brand is numerous, has many different models under every brand again. When the bridging cat processes the brands, the protocols of the brands need to be stored, the registers convert the relations, and then the relations are combined into an interface agreed with the cloud end to be sent to the cloud end. With the increase in brands and product models supported, systems that bridge cats become increasingly bulky and, with each expansion, bring about upgrades to the cat, and are extremely inconvenient. The technical problem to be solved by the invention is to adopt a new architecture, increase brands and expand product models, and not cause pressure on bridging cats, and provide a method based on a power generator set cat and cloud architecture, which comprises the following steps: a new framework is adopted, so that the brand is increased, the product model is expanded, and no pressure is caused on bridging cats; through the structure, the calculation amount and the code scale of the bridging cat are greatly reduced, the hardware cost of the bridging cat is reduced, and the upgrading of the cloud cat due to the expansion of the device type is avoided.

The cloud server comprises a comparison module, the comparison module receives a request of bridging the cats, extracts a protocol and control logic for executing downloading corresponding to the ID cats, and starts data collection and executes control of the cloud.

The bridge modem has a built-in memory that stores all device IDs, and as a preferred embodiment of the present invention, has a built-in memory.

Compared with the prior art, the invention has the following advantages and beneficial effects:

1. according to the method, the calculated amount and the code scale of the bridging cat are greatly reduced, the hardware cost of the bridging cat is reduced, and the upgrading of the cloud cat due to the expansion of the equipment type is avoided;

2. the invention is based on a power generator set cat and cloud framework method, adopts a new framework, increases the brand and the product model, and does not cause pressure on bridging cats;

3. the method is based on the cat and cloud architecture of the generator set, uses a single interface and a single line to be connected with the generator set, automatically identifies the interface connected by a user, and adopts corresponding logic to communicate with the interface, so that the installation of the user is simplified, and the user experience is enhanced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic diagram of the system of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

Examples

As shown in fig. 1, the invention is based on a generator set cat and cloud architecture method, and 1, the invention is based on the generator set cat and cloud architecture method, and is characterized in that: the system comprises a cloud server, a bridging cat, protocol data and equipment IDs of various generator set controllers; comprises the following steps; step 1: establishing a database, counting protocol data of various generator set controllers in the market, and storing protocols and control logics of various products in a cloud server; step 2: storing various existing generator set controller equipment IDs on the market in the bridging cat; and step 3: each generator set in the cloud server corresponds to the equipment ID in one bridging cat; and 4, step 4: when the bridging cat works, after the matching of the IDs is good, and a request is sent to the cloud server, the cloud server downloads the control logic and the communication protocol of the controller connected with the ID corresponding to the bridging cat request to the bridging cat; and 5: the bridging cat executes the downloaded protocol and control logic, starts data collection and executes control of the cloud. The cloud server comprises a comparison module, the comparison module receives a request of bridging the cats, extracts a protocol and control logic for executing downloading corresponding to the ID cats, and starts data collection and executes control of the cloud. The bridging cat has a memory built in, which stores all device IDs. A new framework is adopted, so that the brand is increased, the product model is expanded, and no pressure is caused on bridging cats; through the structure, the calculation amount and the code scale of the bridging cat are greatly reduced, the hardware cost of the bridging cat is reduced, and the upgrading of the cloud cat due to the expansion of the device type is avoided.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (3)

1. A power generation unit cat and cloud architecture based method is characterized in that: the system comprises a cloud server, a bridging cat, protocol data and equipment IDs of various generator set controllers; comprises the following steps;

step 1: establishing a database, counting protocol data of various generator set controllers in the market, and storing protocols and control logics of various products in a cloud server;

step 2: storing various existing generator set controller equipment IDs on the market in the bridging cat;

and step 3: each generator set in the cloud server corresponds to the equipment ID in one bridging cat;

and 4, step 4: when the bridging cat works, after the matching of the IDs is good, and a request is sent to the cloud server, the cloud server downloads the control logic and the communication protocol of the controller connected with the ID corresponding to the bridging cat request to the bridging cat;

and 5: the bridging cat executes the downloaded protocol and control logic, starts data collection and executes control of the cloud.

2. The genset cat and cloud based architecture method of claim 1, wherein: the cloud server comprises a comparison module, the comparison module receives a request of bridging the cats, extracts a protocol and control logic for executing downloading of the corresponding ID cats, and starts data collection and execution of cloud control.

3. The genset cat and cloud based architecture method of claim 1, wherein: the bridging cat has a memory built in, which stores all device IDs.

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