CN206270784U - Intelligent heating management system for monitoring - Google Patents
Intelligent heating management system for monitoring Download PDFInfo
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- CN206270784U CN206270784U CN201621425434.7U CN201621425434U CN206270784U CN 206270784 U CN206270784 U CN 206270784U CN 201621425434 U CN201621425434 U CN 201621425434U CN 206270784 U CN206270784 U CN 206270784U
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Abstract
The utility model is related to a kind of intelligent heating management system for monitoring, including sensing layer, transport layer and application layer;The sensing layer includes two parts of heat exchange station sensing layer and building side sensing layer;The heat exchange station sensing layer includes motor-driven valve, secondary side inflow temperature sensor, secondary side return water temperature sensor, the outdoor temperature humidity sensor that weather compensation instrument and the weather compensation instrument are connected;Building side sensing layer includes the motor-driven valve that time-sharing and temperature-dividing controller and the time-sharing and temperature-dividing controller are connected, and the time-sharing and temperature-dividing controller can be issued according to system or pre-set time parameter method is controlled to the motor-driven valve;The transport layer includes the intelligent data gateway and interchanger that are connected by LAN, and the intelligent data gateway includes two, is connected with the weather compensation instrument and time-sharing and temperature-dividing controller respectively;The application layer includes platform cluster server, database server and management terminal.
Description
Technical field
The utility model is related to heat supply managing system.
Background technology
As the growing tension of the energy, and the society that burning mineral fuel brings are outstanding day by day with environmental problem, country
Attention degree to energy conservation is improved constantly, and is actively promoted " building a conservation-minded society ".The Ministry of Education also active response country number
Call together, with the proposition of the construction of economical college, colleges and universities' energy conservation also get up throughout the country by mushroom development.Colleges and universities are used as culture
The cradle of high-quality talents, the meaning advocated thriftiness also just seems more important and far-reaching.
Northern University heat supply in winter consumes substantial amounts of coal, natural gas equal energy source, and service efficiency is not high.Reason is heating
System is heated up water central heating using municipal administration heating or boiler circulation, and its heating water temperature relies on manual adjustment, it is impossible to according to daytime and
The Changes in weather of night, fine day and rainy day has automatically controlled fuel supply, and hot water is followed in can not controlling boiler heating system
The flow of ring, system energy consumption is huge, and user's room temperature phenomenon uneven in temperature is serious.The heating of colleges and universities not only itself is in very big
Waste among, and be also consumed by the resources such as social substantial amounts of coal, natural gas.For colleges and universities heat Discuss on energy saving, not only
It is that each campus administration person and policymaker are of concern, also the energy-conservation to entire society has far-reaching significance.
Utility model content
In consideration of it, the utility model provides a kind of intelligent heating management system for monitoring, the technical scheme of use is as follows:
A kind of intelligent heating management system for monitoring, including sensing layer, transport layer and application layer;
The sensing layer includes two parts of heat exchange station sensing layer and building side sensing layer;The heat exchange station sensing layer includes
Weather compensation instrument and the motor-driven valve of weather compensation instrument connection, secondary side inflow temperature sensor, secondary side return water temperature are passed
Sensor, outdoor temperature humidity sensor, the secondary side inflow temperature sensor, secondary side return water temperature sensor, outdoor are warm and humid
Be uploaded to for the secondary side inflow temperature value of collection, secondary side return water temperature value and outdoor temperature humidity value respectively described by degree sensor
Weather compensation instrument, the weather compensation instrument is controlled according to pre-set compensated curve to the motor-driven valve, realizes changing
The weather compensation of heat stations;Building side sensing layer includes what time-sharing and temperature-dividing controller and the time-sharing and temperature-dividing controller were connected
Motor-driven valve, the time-sharing and temperature-dividing controller can be issued according to system or pre-set time parameter method is carried out to the motor-driven valve
Control, realizes the Time-sharing control to the heating of building side;
The transport layer includes the intelligent data gateway and interchanger that are connected by LAN, the intelligent data gateway bag
Two are included, is connected with the weather compensation instrument and time-sharing and temperature-dividing controller respectively, the interchanger connects the application layer;
The application layer includes platform cluster server, database server and management terminal, the platform cluster service
Device, database server and management terminal are connected by LAN with the interchanger.
As the further improvement of above-mentioned technical proposal:
The heat exchange station sensing layer also includes primary side inflow temperature sensor, the primary side return water temperature sensing that can match
Device and pressure transmitter, the primary side inflow temperature sensor, primary side return water temperature sensor and pressure transmitter with
The weather compensation instrument connection.
Building side sensing layer also includes secondary side inflow temperature sensor, secondary side return water temperature sensor and optional
The indoor temperature and humidity sensor and heat energy meter matched somebody with somebody, the secondary side inflow temperature sensor, secondary side return water temperature sensor, room
Interior Temperature Humidity Sensor and heat energy meter are connected with the time-sharing and temperature-dividing controller;The indoor temperature and humidity sensor, secondary side
Inflow temperature sensor and secondary side return water temperature sensor can respectively in Real-time Collection room temperature and building side enter backwater
Temperature is uploaded to time-sharing and temperature-dividing controller, and time-sharing and temperature-dividing controller realizes a point temperature control according to the temperature curve for setting to building side
System.
It is of the present utility model to have technical effect that:
(1) according to the situation of change of outside air temperature, supplied to weather compensation instrument control system scene by system remote distributing policy
Heating system, realizes the weather compensation of heat exchange station side, improves the quality of heating, when the network off-line case such as obstructed for a long time
Under, weather compensation instrument can be from the normal operation for ensureing heating system into monitoring system;
(2) according to use warm time and the outdoor temperature situation of change of building, by system remote distributing policy to timesharing point
The live heating system of temperature controller control, realize the control to building side timesharing point temperature, it is to avoid the waste of the energy, works as network
Under the off-line case such as obstructed for a long time, time-sharing and temperature-dividing controller can be from the normal operation for ensureing heating system into monitoring system;
(3) the utility model is by campus heating operation data acquisition, with campus close-up view, heating system figure and scene
The mode of schematic diagram is layered, the heating relation for showing each building and live running status intuitively, vivid;
(4) operational factor inquiry and energy consumption statistic, can inquire about all of historical operation, Parameters variation, graphically
Show, heating energy consumption counted, can respectively per year, print energy consumption form the moon.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
Fig. 2 is business process map of the present utility model.
In figure:100th, sensing layer;101st, heat exchange station sensing layer;102nd, building side sensing layer;103rd, weather compensation instrument;104、
Motor-driven valve;105th, secondary side inflow temperature sensor;106th, secondary side return water temperature sensor;107th, outdoor temperature humidity sensing
Device;108th, time-sharing and temperature-dividing controller;109th, primary side inflow temperature sensor;110th, primary side return water temperature sensor;111、
Pressure transmitter;112nd, indoor temperature and humidity sensor;113rd, heat energy meter;200th, transport layer;201st, intelligent data gateway;202nd, hand over
Change planes;300th, application layer;301st, platform cluster server;302nd, database server;303rd, management terminal.
Specific embodiment
Specific embodiment of the present utility model is described further below in conjunction with the accompanying drawings.
As shown in figure 1, the intelligent heating management system for monitoring of the present embodiment, including sensing layer 100, transport layer 200 and should
With layer 300.
As shown in figure 1, sensing layer 100 includes 102 two parts of heat exchange station sensing layer 101 and building side sensing layer;Heat exchange
Sensing layer 101 of standing includes motor-driven valve 104, the secondary side inflow temperature biography that weather compensation instrument 103 and weather compensation instrument 103 are connected
Sensor 105, secondary side return water temperature sensor 106, outdoor temperature humidity sensor 107, secondary side inflow temperature sensor 105,
The secondary side inflow temperature value, secondary that secondary side return water temperature sensor 106, outdoor temperature humidity sensor 107 will be gathered respectively
Side return water temperature value and outdoor temperature humidity value are uploaded to weather compensation instrument 103, and weather compensation instrument 103 is according to pre-set benefit
Repay curve to be controlled motor-driven valve 104, realize the weather compensation of heat exchange station;Building side sensing layer 102 includes time-sharing and temperature-dividing
Device processed 108 and time-sharing and temperature-dividing controller 108 connection motor-driven valve 104, time-sharing and temperature-dividing controller 108 can be issued according to system or
Pre-set time parameter method is controlled to motor-driven valve 104, realizes the Time-sharing control to the heating of building side.Timesharing point temperature
Control not only increases user with warm quality, while it also avoid the waste of the energy.
As shown in figure 1, transport layer 200 is included the intelligent data gateway 201 connected by LAN (such as campus network) and handed over
Change planes 202, intelligent data gateway 201 includes two, is connected with weather compensation instrument 103 and time-sharing and temperature-dividing controller 108 respectively, hand over
Change planes 202 connection application layers 300.The data of field monitoring are uploaded to system by intelligent data gateway 201 in real time by campus network
In server, and the instructions such as control and strategy that upper strata issues can be received, then be issued to corresponding field controller, so as to complete
Control to heating system.
As shown in figure 1, application layer 300 includes platform cluster server 301, database server 302 and management terminal
303, platform cluster server 301, database server 302 and management terminal 303 are connected by LAN with interchanger 202.
Heating management system for monitoring is based on Internet technology, using B/S software architectures, the scientific precision management to campus heating system
With effectively control.
As shown in figure 1, further, heat exchange station sensing layer 101 also includes the primary side inflow temperature sensor that can be matched
109th, primary side return water temperature sensor 110 and pressure transmitter 111, primary side inflow temperature sensor 109, primary side backwater
Temperature sensor 110 and pressure transmitter 111 are connected with weather compensation instrument 103.
As shown in figure 1, further, building side sensing layer 102 also includes secondary side inflow temperature sensor 105, secondary
Side return water temperature sensor 106 and the indoor temperature and humidity sensor 112 and heat energy meter 113 that can match, secondary side inflow temperature are passed
Sensor 105, secondary side return water temperature sensor 106, indoor temperature and humidity sensor 112 and heat energy meter 113 are and time-sharing and temperature-dividing
Device processed 108 is connected;Indoor temperature and humidity sensor 112, secondary side inflow temperature sensor 105 and secondary side return water temperature sensor
106 can respectively in Real-time Collection room temperature and building side enter the temperature of backwater and be uploaded to time-sharing and temperature-dividing controller 108, timesharing point
Temperature controller 108 realizes a point temperature control system according to the temperature curve for setting to building side.
As shown in Fig. 2 operation flow of the present utility model is divided into collection monitoring, two parts of Based Intelligent Control.
Collection monitoring:The real time data at scene (is such as entered into return water temperature, indoor and outdoor temperature, motor-driven valve by field controller
The information such as aperture) gather.System platform is transported by campus overall picture, heat exchange station, the part of building side three to colleges and universities' heating system
Row state carries out comprehensively monitoring in real time.System platform can not only show that heating equipment abnormal alarm can also carry out equipment fortune
Line parameter graph query and generation heating data statistical report form.
Based Intelligent Control controls what heating system ran by the autonomous two ways of system remote and scene.System remote is controlled
It is, by two kinds of forms of distributing policy and system control valve, order to be issued to field controller, order is performed by field controller
To realize the control of its heating system.If situations such as scene needs emergency adjustment heating control or Network Abnormal occurs, field control
Device can be from the operation for ensureing heating into control system.It can be ensured by live strategy setting with two kinds of forms of valve are adjusted manually
The control of its heating system.Two ways is complementary to one another combination, it is ensured that the normal orderly operation of campus heating system.
In the utility model, weather compensation instrument 103, motor-driven valve 104, time-sharing and temperature-dividing controller 108, intelligent data gateway
201st, platform cluster server 301, database server 302 and each sensor are prior art, therefore its concrete structure and original
Reason the utility model is to describe in detail.
Claims (3)
1. a kind of intelligent heating management system for monitoring, it is characterised in that:Including sensing layer (100), transport layer (200) and application layer
(300);
The sensing layer (100) includes (102) two parts of heat exchange station sensing layer (101) and building side sensing layer;The heat exchange
It is motor-driven valve (104) that sensing layer (101) of standing is connected including weather compensation instrument (103) and the weather compensation instrument (103), secondary
Side inflow temperature sensor (105), secondary side return water temperature sensor (106), outdoor temperature humidity sensor (107), described two
Secondary side inflow temperature sensor (105), secondary side return water temperature sensor (106), outdoor temperature humidity sensor (107) respectively will
The secondary side inflow temperature value of collection, secondary side return water temperature value and outdoor temperature humidity value are uploaded to the weather compensation instrument
(103), the weather compensation instrument (103) is controlled according to pre-set compensated curve to the motor-driven valve (104), real
The weather compensation of existing heat exchange station;Building side sensing layer (102) includes time-sharing and temperature-dividing controller (108) and the timesharing point
The motor-driven valve (104) of temperature controller (108) connection, the time-sharing and temperature-dividing controller (108) can issue according to system or set in advance
The time parameter method set is controlled to the motor-driven valve (104), realizes the Time-sharing control to the heating of building side;
The transport layer (200) includes the intelligent data gateway (201) and interchanger (202) that are connected by LAN, the intelligence
Energy data gateway (201) includes two, is connected with the weather compensation instrument (103) and time-sharing and temperature-dividing controller (108) respectively, institute
State interchanger (202) and connect the application layer (300);
The application layer (300) includes platform cluster server (301), database server (302) and management terminal (303),
The platform cluster server (301), database server (302) and management terminal (303) are exchanged by LAN with described
Machine (202) is connected.
2. intelligent heating management system for monitoring according to claim 1, it is characterised in that:The heat exchange station sensing layer
(101) primary side inflow temperature sensor (109), primary side return water temperature sensor (110) and the pressure that can match also are included
Transmitter (111), the primary side inflow temperature sensor (109), primary side return water temperature sensor (110) and pressure inverting
Device (111) is connected with the weather compensation instrument (103).
3. intelligent heating management system for monitoring according to claim 1, it is characterised in that:Building side sensing layer
(102) secondary side inflow temperature sensor (105), secondary side return water temperature sensor (106) and the interior that can be matched also are included
Temperature Humidity Sensor (112) and heat energy meter (113), the secondary side inflow temperature sensor (105), secondary side return water temperature are passed
Sensor (106), indoor temperature and humidity sensor (112) and heat energy meter (113) are connected with the time-sharing and temperature-dividing controller (108);
The indoor temperature and humidity sensor (112), secondary side inflow temperature sensor (105) and secondary side return water temperature sensor
(106) temperature that temperature and building side that can respectively in Real-time Collection room enter backwater is uploaded to time-sharing and temperature-dividing controller (108), point
When temperature-dividing controller (108) a point temperature control system is realized to building side according to the temperature curve for setting.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621425434.7U CN206270784U (en) | 2016-12-23 | 2016-12-23 | Intelligent heating management system for monitoring |
Applications Claiming Priority (1)
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CN201621425434.7U CN206270784U (en) | 2016-12-23 | 2016-12-23 | Intelligent heating management system for monitoring |
Publications (1)
Publication Number | Publication Date |
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CN206270784U true CN206270784U (en) | 2017-06-20 |
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ID=59047563
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CN201621425434.7U Expired - Fee Related CN206270784U (en) | 2016-12-23 | 2016-12-23 | Intelligent heating management system for monitoring |
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CN (1) | CN206270784U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107500598A (en) * | 2017-06-28 | 2017-12-22 | 无锡市京锡冶金液压机电有限公司 | A kind of filler and its detection means applied to fire-proof board |
CN110319487A (en) * | 2019-07-12 | 2019-10-11 | 四川长虹电器股份有限公司 | Coal changes electric central heating intelligence control system and method |
CN112432314A (en) * | 2020-12-11 | 2021-03-02 | 陈锵 | Heating and ventilation group control intelligent Internet of things system based on meteorological big data |
-
2016
- 2016-12-23 CN CN201621425434.7U patent/CN206270784U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107500598A (en) * | 2017-06-28 | 2017-12-22 | 无锡市京锡冶金液压机电有限公司 | A kind of filler and its detection means applied to fire-proof board |
CN110319487A (en) * | 2019-07-12 | 2019-10-11 | 四川长虹电器股份有限公司 | Coal changes electric central heating intelligence control system and method |
CN112432314A (en) * | 2020-12-11 | 2021-03-02 | 陈锵 | Heating and ventilation group control intelligent Internet of things system based on meteorological big data |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170620 Termination date: 20181223 |