CN205783313U - A kind of it is applied to the Intelligent Measurement of photo-thermal heating system, control and Internet of Things gasifying device - Google Patents

Abstract

The utility model discloses and a kind of be applied to the Intelligent Measurement of photo-thermal heating system, control and Internet of Things gasifying device, this device includes solar thermal collector, heat collector hot junction digital temperature sensor, water circulating pump, cold water area digital temperature sensor, attemperater, hydrothermal area's digital temperature sensor, digital water level sensor, water supply tank, the digital heat energy meter of cold water end, the digital heat energy meter of hot water end, calculates and control centre, digital aerograph, digital solar irradiation instrument and Internet of Things module.This device uses intelligence computation and control, increase Internet of Things module, the photo-thermal heating system of independent operating poor for traditional human-computer interaction is become and oneself's running status can be detected, oneself's running state data is carried out computational analysis, oneself runs the Intelligent internet of things photo-thermal heating system carrying out Based Intelligent Control and process, being attached with the Internet and mobile Internet.

Description

A kind of it is applied to the Intelligent Measurement of photo-thermal heating system, control and Internet of Things gasifying device

Technical field

This utility model relates to photo-thermal heat supply applied technical field, is specifically related to a kind of be applied to the Intelligent Measurement of photo-thermal heating system, control and Internet of Things gasifying device.

Background technology

Solar energy, generally refers to the emittance of sunlight, is generally used to generating in the modern times or provides the energy for water heater.In the case of Fossil fuel reduces increasingly, solar energy has become the mankind and has used the important component part of the energy, and is constantly developed.The utilization of solar energy has photothermal deformation and opto-electronic conversion two ways, and sensu lato solar energy also includes tellurian wind energy, chemical energy, water energy etc..

In solar energy heating utilization, it is important to the radiation of the sun can be converted to heat energy, heat collector is the key component of various helioplant, and owing to purposes is different, the system type of heat collector and coupling thereof is divided into many kinds, and title is the most different.

Photo-thermal heating system is a kind of typical case's application of solar thermal utilization, is promoted widely.Photo-thermal heating system is typically made up of parts such as heat collector, attemperater, circulating pump, circulation lines.Traditional system progress control method is one temperature sensor of each installation in heat collector water side and attemperater, utilize relatively simple circuit that the data of each temperature sensor are compared, when temperature difference is more than starting circulating pump work when starting setting value, when temperature difference closes circulating pump less than when stopping setting value, its control method is simple, do not possesses corresponding hardware, function singleness, the system that cannot obtain runs more data, the more multi-functional of fine-grained management cannot be realized, also internet of things functional cannot be realized, cause administration departments management workload big, management high in cost of production problem.

Summary of the invention

The purpose of this utility model aims to provide a kind of Intelligent Measurement being applied to photo-thermal heating system, control and Internet of Things gasifying device, some digital temperature sensors are increased in traditional photo-thermal heating system, digital water level meter, the data acquisition equipments such as digital heat energy meter, use intelligence computation and control, increase Internet of Things module, the photo-thermal heating system of independent operating poor for traditional human-computer interaction is become and oneself's running status can be detected, oneself's running state data is carried out computational analysis, oneself is run and carries out Based Intelligent Control and process, the Intelligent internet of things photo-thermal heating system being attached with the Internet and mobile Internet.

The Intelligent Measurement being applied to photo-thermal heating system described in the utility model, control and Internet of Things gasifying device includes solar thermal collector, heat collector hot junction digital temperature sensor, water circulating pump, cold water area digital temperature sensor, attemperater, hydrothermal area's digital temperature sensor, digital water level sensor, water supply tank, the digital heat energy meter of cold water end, the digital heat energy meter of hot water end, calculate and control centre, digital aerograph, digital solar irradiation instrument and Internet of Things module, described solar thermal collector, closed circuit is connected into by pipeline between water circulating pump and attemperater, for making water at solar thermal collector, circulate between water circulating pump and attemperater；Described heat collector hot junction digital temperature sensor is installed on hot water effluent's end of solar thermal collector, for measuring the water temperature of solar thermal collector water side；The bottom that described cold water area digital temperature sensor is installed in attemperater, the temperature of the water of bottom in measuring attemperater；The top that described hydrothermal area's digital temperature sensor is installed in attemperater, for measuring the temperature of the water of attemperater internal upper part；Described digital water level sensor is arranged in attemperater, for measuring the real time water level in attemperater；Described water supply tank is connected to the bottom of attemperater by cold water inlet road；On the cold water inlet road that the described digital heat energy meter of cold water end is arranged between water supply tank and attemperater, for measuring the heat energy value of system cold water water inlet end；The described digital heat energy meter of hot water end is arranged on hot water effluent's end of attemperater, for measuring the heat energy value of hot water effluent's end；Digital aerograph and digital solar irradiation instrument are installed on outdoor, for detecting ambient temperature, humidity, wind direction, wind speed and installing the solar radiation intensity level on ground；Described heat collector hot junction digital temperature sensor, water circulating pump, cold water area digital temperature sensor, hydrothermal area's digital temperature sensor, digital water level sensor, the digital heat energy meter of cold water end, the digital heat energy meter of hot water end, digital aerograph, digital solar irradiation instrument are all connected with control centre with calculating, and calculate and control centre is used for controlling the operation of whole photo-thermal heating system；Calculate and be connected with Internet of Things module with control centre, calculate with control centre to Internet of Things module transfer data, and receive the control signal from Internet of Things module；Internet of Things module is used for communication and the transmission of control signal of the Internet, it is achieved remotely controlling and management of the Internet.

Described water circulating pump is arranged on the pipeline between solar thermal collector and attemperater, for making the hot water circuit of solar thermal collector and attemperater, the hot water that solar thermal collector produces is delivered to the top of attemperater, the cold water of attemperater bottom is delivered to solar thermal collector heating simultaneously.

The position of described water supply tank is higher than attemperater.

The outfan of described heat collector hot junction digital temperature sensor connects the hot-side temperature input calculated with control centre by data wire；The feeder ear of water circulating pump connects the control power output end calculated with control centre by cable；The outfan of cold water area digital temperature sensor is connected to calculate the cold water temperature input with control centre by data wire, the outfan of digital water level sensor is connected to calculate the water level input with control centre by data wire, and the outfan of hydrothermal area's digital temperature sensor is connected to calculate the hot water temperature's input with control centre by data wire.

The outfan of the described digital heat energy meter of cold water end is connected to calculate the cold water thermal input with control centre by data wire, the outfan of the digital heat energy meter of hot water end is connected to calculate the hot water thermal input with control centre by data wire, the outfan of digital solar irradiation instrument is connected to calculate the solar irradiation input with control centre by data wire, the outfan of digital aerograph is connected to calculate the meteorological input with control centre by data wire, calculate the port with control centre and be connected to the port of Internet of Things module by data telecommunication line.

The technical solution of the utility model has the advantage that

1, apply up-to-date Programmable Logic Controller to realize calculating and analytic function, make device described in the utility model have stronger calculating disposal ability, it is achieved a lot of irrealizable functions of single-chip microcomputer, be provided simultaneously with good extensibility, it is simple to device capacity expansion and upgrading.

2, the function of digital heat energy meter is utilized, the cold water input of measurement system and the heat energy difference of hot water effluent's end, can draw, by calculating, the heat production value that system is real-time and accumulative, and then energy saving of system CER can be calculated, can be that energy saving of system reduces discharging assessment offer data supporting.

3, real time meteorological data measured by digital aerograph and digital solar irradiation instrument, it is provided that calculate with control centre and analyze to calculating, it is possible to achieve photo-thermal heating system running status is assessed, it is possible to achieve system failure Urine scent and alarm.

4, whole device can realize Internet of Things networking, system running state and data can be uploaded to specify the server of IP address by the Internet, management personnel can be reached by PC end or cell phone end and photo-thermal heating system carry out routine inspection and adjusts control parameter, and faults itself information can be actively sent to management personnel by system.

5, the utilization of this device will reduce the workload that management personnel scene is patrolled and examined in a large number, improves management work efficiency；Management personnel's advanced processing fault message can be notified, reduce breakdown loss；Human-computer interaction effect can be strengthened, can adjust according to the requirement of management personnel at any time and control operational factor；Energy saving of system can reduce discharging data add up and report, help administration section to grasp Energy-saving Data.

Accompanying drawing explanation

Fig. 1 is that the Intelligent Measurement being applied to photo-thermal heating system described in the utility model controls and the system principle connection diagram of Internet of Things gasifying device.

Figure 1 is solar thermal collector, 2 be heat collector hot junction digital temperature sensor, 3 be water circulating pump, 4 be cold water area digital temperature sensor, 5 be attemperater, 6 be hydrothermal area's digital temperature sensor, 7 be digital water level sensor, 8 be water supply tank, 9 be the digital heat energy meter of cold water end, 10 be the digital heat energy meter of hot water end, 11 for calculate with control centre, 12 be digital aerograph, 13 be digital solar irradiation instrument, 14 for Internet of Things module.

Detailed description of the invention

Following example are used for illustrating this utility model, but are not limited to scope of the present utility model.

As it is shown in figure 1, the Intelligent Measurement being applied to photo-thermal heating system described in the utility model controls and Internet of Things gasifying device includes solar thermal collector 1, heat collector hot junction digital temperature sensor 2, water circulating pump 3, cold water area digital temperature sensor 4, attemperater 5, hydrothermal area's digital temperature sensor 6, digital water level sensor 7, water supply tank 8, the digital heat energy meter of cold water end 9, the digital heat energy meter of hot water end 10, calculates and control centre 11, digital aerograph 12, digital solar irradiation instrument 13 and Internet of Things module 14.Connect into closed circuit by pipeline between described solar thermal collector 1, water circulating pump 3 and attemperater 5, be used for making water circulate between solar thermal collector 1, water circulating pump 3 and attemperater 5；Described heat collector hot junction digital temperature sensor 2 is installed on hot water effluent's end of solar thermal collector 1, for measuring the water temperature of solar thermal collector water side；Described cold water area digital temperature sensor 4 is installed on the bottom in attemperater 5, the temperature of the water of bottom in measuring attemperater 5；Described hydrothermal area's digital temperature sensor 6 is installed on the top in attemperater 5, for measuring the temperature of the water of attemperater 5 internal upper part；Described digital water level sensor 7 is arranged in attemperater 5, for measuring the real time water level in attemperater；Described water supply tank 8 is connected to the bottom of attemperater 5 by cold water inlet road；The described digital heat energy meter of cold water end 9 is arranged on the cold water inlet road between water supply tank 8 and attemperater 5, for measuring the heat energy value of system cold water water inlet end；The described digital heat energy meter of hot water end 10 is arranged on hot water effluent's end of attemperater 5, for measuring the heat energy value of hot water effluent's end；Digital aerograph 12 and digital solar irradiation instrument 13 are installed on outdoor, for detecting ambient temperature, humidity, wind direction, wind speed and installing the solar radiation intensity level on ground；Described heat collector hot junction digital temperature sensor 2, water circulating pump 3, cold water area digital temperature sensor 4, hydrothermal area's digital temperature sensor 6, digital water level sensor 7, the digital heat energy meter of cold water end 9, the digital heat energy meter of hot water end 10, digital aerograph 12, digital solar irradiation instrument 13 are all connected with control centre 11 with calculating, and calculate and are used for controlling the operation of whole photo-thermal heating system with control centre 11；Calculate and be connected with Internet of Things module 14 with control centre 11, calculate and transmit data with control centre 11 to Internet of Things module 14, and receive the control signal from Internet of Things module 14；Internet of Things module 14 is used for communication and the transmission of control signal of the Internet, it is achieved remotely controlling and management of the Internet.

Described water circulating pump 3 is arranged on the pipeline between solar thermal collector 1 and attemperater 5, for making the hot water circuit of solar thermal collector 1 and attemperater 5, deliver to the hot water that solar thermal collector 1 produces the top of attemperater 5, the cold water of attemperater 5 bottom be delivered to solar thermal collector 1 simultaneously and heat.

The position of described water supply tank 8 is higher than attemperater 5.

Described water supply tank 8 is installed on the side of attemperater 5, and slightly above attemperater 5, supplements, when user exports hot water, the cold water lacked for system at any time to system.Described digital aerograph 12 and digital solar irradiation instrument 13 are installed on the vicinity of outdoor solar thermal collector 1.Calculate and control centre 11 is installed in the caisson near opto-thermal system, it is connected with each digital temperature sensor, digital water level sensor, each digital heat energy meter, digital aerograph and digital solar irradiation instrument by data wire, and be connected with water circulating pump 3 by cable, operation and control for whole system, transmit data to Internet of Things module 14, and receive the control signal from Internet of Things module 14；Internet of Things module 14 is installed in the control room of management personnel, it is connected with control centre 11 with calculating by order wire, communication for the Internet and the transmission of control signal, it is achieved remotely controlling and management of the Internet, it is achieved the Internet of Things between system and management personnel.

As it is shown in figure 1, the outfan of described heat collector hot junction digital temperature sensor 2 connects the hot-side temperature input A calculated with control centre 11 by data wire；The feeder ear of water circulating pump 3 connects the control power output end B calculated with control centre 11 by cable；The outfan of cold water area digital temperature sensor is connected to calculate the cold water temperature input C with control centre by data wire, the outfan of digital water level sensor 7 is connected to calculate the water level input D with control centre 11 by data wire, and the outfan of hydrothermal area's digital temperature sensor 6 is connected to calculate the hot water temperature input E with control centre 11 by data wire.

The outfan of the described digital heat energy meter of cold water end 9 is connected to calculate the cold water thermal input F with control centre 11 by data wire, the outfan of the digital heat energy meter of hot water end 10 is connected to calculate the hot water thermal input G with control centre 11 by data wire, the outfan of digital solar irradiation instrument 13 is connected to calculate the solar irradiation input H with control centre 11 by data wire, the outfan of digital aerograph 12 is connected to calculate the meteorological input I with control centre 11 by data wire, calculate the port J end with control centre 11 and be connected to the port K end of Internet of Things module 14 by data telecommunication line.

The Intelligent Measurement being applied to photo-thermal heating system described in the utility model controls and in Internet of Things gasifying device, solar thermal collector 1, attemperater 5 and water circulating pump 3 connect formation water circulation channel by pipeline, water supply tank 8 is connected to the bottom of attemperater 5 by pipeline, and the top of attemperater 5 can export hot water to user simultaneously.

Calculate and apply up-to-date Programmable Logic Controller to realize calculating and analytic function with control centre 11, device of the present utility model is made to have stronger calculating disposal ability, achieve the irrealizable function of a lot of single-chip microcomputer, be provided simultaneously with good extensibility, it is simple to device capacity expansion and upgrading.

Calculating and control centre 11 receive each water temperature data of heat collector hot junction digital temperature sensor 2, cold water area digital temperature sensor 4 and hydrothermal area's digital temperature sensor 6, receive real time water level data in the attemperater 5 of digital water level sensor 7, receive the digital heat energy meter of cold water end 9 and the heat energy Value Data of the digital heat energy meter of hot water end 10, these data are calculated and analyze, selects default control scheme to control the operation of whole system according to result of calculation.Related data is sent to Internet of Things module 14 simultaneously, related data is uploaded the Internet by Internet of Things module 14, and it is sent to specify the server of IP address, to realize man-machine interaction, it is achieved the Intelligent Measurement of whole system oneself's running status, analytical calculation, process, Internet of Things networking.Meteorological data and solar radiation amount data are real-time transmitted to calculate and control centre 11 by digital aerograph 12 and digital solar irradiation instrument 13 in simultaneity factor, so system working condition can be analyzed with environmental data, system operation exception situation be drawn and distinguishes and early warning.When several such photo-thermal heating systems all apply this device, by the management of the Internet Internet of Things networking, O&M and the management level of system will be improved greatly.

The digital heat energy meter of cold water end 9 and the digital heat energy meter of hot water end 10 utilize the function of digital heat energy meter, the cold water input of measurement system and the heat energy difference of hot water effluent's end, the heat production value that system is real-time and accumulative can be drawn by calculating, and then energy saving of system CER can be calculated, can be that energy saving of system reduces discharging assessment offer data supporting.

Real time meteorological data measured by digital aerograph 12 and digital solar irradiation instrument 13, it is provided that calculate with control centre and analyze to calculating, it is possible to achieve photo-thermal heating system running status is assessed, it is possible to achieve system failure Urine scent and alarm.

Calculate and make whole device can realize Internet of Things networking with control centre 11 and Internet of Things module 14, system running state and data can be uploaded to specify the server of IP address by the Internet, management personnel can be reached by PC end or cell phone end and photo-thermal heating system carry out routine inspection and adjusts control parameter, and faults itself information can be actively sent to management personnel by system.

The Intelligent Measurement being applied to photo-thermal heating system described in the utility model controls and the utilization of Internet of Things gasifying device will reduce the workload patrolled and examined at management personnel scene in a large number (owing to Internet of Things module 14 is installed in the control room of management personnel, management personnel can obtain service data easily, and PC end or cell phone end can be reached by photo-thermal heating system carries out routine inspection and adjusts control parameter), improve management work efficiency；Management personnel's advanced processing fault message can be notified, reduce breakdown loss；Human-computer interaction effect can be strengthened, can adjust according to the requirement of management personnel at any time and control operational factor；Energy saving of system can reduce discharging data add up and report, help administration section to grasp Energy-saving Data.

Although, the most illustrating by generality and this utility model has been made detailed description by specific embodiment, but on the basis of this utility model, it can be made some modifications or improvements, this will be apparent to those skilled in the art.Therefore, these modifications or improvements on the basis of without departing from this utility model spirit, belong to the scope that this utility model is claimed.

Claims (5)

1. it is applied to the Intelligent Measurement of photo-thermal heating system, control and an Internet of Things gasifying device, its Being characterised by, described is applied to the Intelligent Measurement of photo-thermal heating system, control and Internet of Things makeup Put and include solar thermal collector, heat collector hot junction digital temperature sensor, water circulating pump, cold water District's digital temperature sensor, attemperater, hydrothermal area's digital temperature sensor, digital water Level sensor, water supply tank, the digital heat energy meter of cold water end, the digital heat energy meter of hot water end, calculating With control centre, digital aerograph, digital solar irradiation instrument and Internet of Things module, described Connect into closed circuit by pipeline between solar thermal collector, water circulating pump and attemperater, use Circulate between solar thermal collector, water circulating pump and attemperater in making water；Described collection Hot device hot junction digital temperature sensor is installed on hot water effluent's end of solar thermal collector, is used for surveying The water temperature of amount solar thermal collector water side；Described cold water area digital temperature sensor is installed on Bottom in attemperater, the temperature of the water of bottom in measuring attemperater；Described hot water District's digital temperature sensor is installed on the top in attemperater, is used for measuring in attemperater The temperature of the water in portion；Described digital water level sensor is arranged in attemperater, is used for measuring Real time water level in attemperater；Described water supply tank is connected to be incubated water by cold water inlet road The bottom of case；The described digital heat energy meter of cold water end is arranged between water supply tank and attemperater On cold water inlet road, for measuring the heat energy value of system cold water water inlet end；Described hot water terminal number Word formula heat energy meter is arranged on hot water effluent's end of attemperater, for measuring the heat energy of hot water effluent's end Value；Digital aerograph and digital solar irradiation instrument are installed on outdoor, be used for detecting ambient temperature, Humidity, wind direction, wind speed and the solar radiation intensity level on installation ground；Described heat collector hot junction Digital temperature sensor, water circulating pump, cold water area digital temperature sensor, hydrothermal area's numeral Formula temperature sensor, digital water level sensor, the digital heat energy meter of cold water end, hot water terminal number word Formula heat energy meter, digital aerograph, digital solar irradiation instrument are all connected with control centre with calculating, Calculate with control centre for controlling the operation of whole photo-thermal heating system；Calculate with control centre with Internet of Things module connect, calculate with control centre to Internet of Things module transfer data, and receive from The control signal of Internet of Things module；Internet of Things module is used for communication and the biography of control signal of the Internet Defeated, it is achieved remotely controlling and management of the Internet.

It is applied to the Intelligent Measurement of photo-thermal heating system, control and thing the most as claimed in claim 1 Networking device, it is characterised in that described water circulating pump is arranged on solar thermal collector and insulation On pipeline between water tank, for making the hot water circuit of solar thermal collector and attemperater, will too Sun can deliver to the top of attemperater by the hot water that produces of heat collector, simultaneously cold by attemperater bottom Water delivers to solar thermal collector heating.

It is applied to the Intelligent Measurement of photo-thermal heating system, control and thing the most as claimed in claim 2 Networking device, it is characterised in that the position of described water supply tank is higher than attemperater.

It is applied to the Intelligent Measurement of photo-thermal heating system, control and thing the most as claimed in claim 3 Networking device, it is characterised in that the output of described heat collector hot junction digital temperature sensor Hold and connect, by data wire, the hot-side temperature input calculated with control centre；The power supply of water circulating pump Hold and connect, by cable, the control power output end calculated with control centre；Cold water area digital temperature The outfan of sensor is connected to calculate the cold water temperature input with control centre by data wire, It is defeated with the water level of control centre that the outfan of digital water level sensor is connected to calculating by data wire Entering end, the outfan of hydrothermal area's digital temperature sensor is connected to calculate and control by data wire Hot water temperature's input at center.

It is applied to the Intelligent Measurement of photo-thermal heating system, control and thing the most as claimed in claim 4 Networking device, it is characterised in that the outfan of the described digital heat energy meter of cold water end is by number It is connected to calculate the cold water thermal input with control centre according to line, the digital heat energy meter of hot water end Outfan is connected to calculate and the hot water thermal input of control centre by data wire, digital too The outfan of sun irradiation instrument is connected to calculate the solar irradiation with control centre by data wire and inputs End, it is defeated with the meteorology of control centre that the outfan of digital aerograph is connected to calculating by data wire Enter end, calculate the port with control centre and be connected to the logical of Internet of Things module by data telecommunication line Casually.