CN210267499U - Intelligent heat exchange station control system - Google Patents

Intelligent heat exchange station control system Download PDF

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Publication number
CN210267499U
CN210267499U CN201921073768.6U CN201921073768U CN210267499U CN 210267499 U CN210267499 U CN 210267499U CN 201921073768 U CN201921073768 U CN 201921073768U CN 210267499 U CN210267499 U CN 210267499U
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network
heat exchange
exchange station
data processing
temperature
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唐宝洪
张世钰
王院生
王元
赵娅玲
王允恺
邹文红
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Hefei Ruina Intelligent Energy Management Co ltd
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Hefei Runa Energy Saving Engineering Co ltd
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Abstract

The utility model provides an intelligent heat exchange station control system, which comprises an intelligent heat supply network system arranged in a background control center, and a two-network circulating system, a two-network water supply system, a temperature regulating system and a data processing system which are arranged in a heat exchange station; the data processing system is used for acquiring data of the two-network circulating system, the two-network water replenishing system and the temperature adjusting system in respective running processes, calculating the acquired data and a preset value, and controlling the two-network circulating system, the two-network water replenishing system and the temperature adjusting system to adjust according to a comparison result; and the climate curve model on the intelligent heat supply network system forms a scheduling curve of a preset value of the temperature at regular time according to the air temperature parameter value provided by the local weather forecast network. The utility model discloses a be equipped with weather curve model among the intelligence heat supply network system, according to the scheduling curve of 24 hours's temperature preset value of the automatic generation of temperature parameter value through built-in computational formula, the temperature regulation function is realized to intelligence from this.

Description

Intelligent heat exchange station control system
Technical Field
The utility model belongs to heat transfer station control field, concretely relates to wisdom change heat transfer station control system.
Background
With the increasing shortage of energy and the increasingly prominent social and environmental problems caused by the combustion of fossil fuels, the national attention on energy-saving work is continuously increased, and the establishment of a conservation-oriented society is actively promoted. A large amount of energy sources such as coal, natural gas and the like are consumed for heating in winter in northern China every year, and although the heat exchange station technology adopted at present can provide centralized heating, the heat exchange station technology cannot automatically control the supply well according to the weather changes of day and night, sunny days and rainy days under the condition of variable environment, so that the energy consumption of a system is wasted, and the phenomenon of uneven cooling and heating of a user at room temperature is obvious.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an intelligent heat exchange station control system to overcome above-mentioned technical problem.
The above technical purpose of the present invention can be achieved by the following technical solutions:
an intelligent heat exchange station control system comprises an intelligent heat supply network system arranged in a background control center, and a two-network circulating system, a two-network water replenishing system, a temperature adjusting system and a data processing system which are arranged in a heat exchange station;
the data processing system is used for acquiring data of the two-network circulating system, the two-network water replenishing system and the temperature adjusting system in respective running processes, carrying out PID (proportion integration differentiation) comparison calculation on the acquired data and a corresponding preset value, and feeding back a comparison result and controlling the two-network circulating system, the two-network water replenishing system and the temperature adjusting system to carry out automatic adjustment; the data processing system is in signal connection with the intelligent heat supply network system, the data processing system can transmit the acquired data and the comparison result to the intelligent heat supply network system for display, and the intelligent heat supply network system can adjust a preset value in the data processing system; the intelligent heat supply network system is provided with a climate curve model, the intelligent heat supply network system is connected with an interface of a local weather forecast network through a network, and the climate curve model forms a scheduling curve of a preset value of the temperature at regular time according to a temperature parameter value provided by the local weather forecast network so as to automatically adjust the preset value of the temperature at regular time.
The utility model discloses a further technical scheme does, weather curve model is the temperature parameter value of per 24 hours collection local weather forecast net to according to the preset value of following formula and the temperature parameter value calculation of per hour corresponding temperature, 24 hours preset value all calculate the completion back and form 24 hours's dispatch curve promptly, the formula that wherein adopts is T1=[Q1+K1*(t1-t2)](K2+2*G*C)/2*K2G C, wherein T1For a predetermined value of temperature, Q1For the unit heating load of the heating system, K1Taking a correction factor, K, for the outdoor temperature2Is the heat transfer coefficient per unit area of the heat consumer, G is the unit circulation volume of the system, t1For an estimated value of the local outdoor temperature, t2The air temperature parameter value of the local weather forecast network is C, and the specific heat of the hot water is C.
The utility model discloses a further technical scheme does, still be equipped with the superpressure protection system in the heat exchange station, two net return water pressure data in the two net water supply system of data processing system collection contrast with the superpressure protection pressure value of preset, carry out automatically regulated with contrast result feedback and control superpressure protection system.
The utility model discloses a further technical scheme does, still be equipped with running water charging system in the heat transfer station, the water tank liquid level data among the two net water charging systems that data processing system gathered contrasts with preset's liquid level value, carries out automatically regulated with contrast result feedback and control running water charging system.
The utility model discloses a further technical scheme does, still be equipped with sewage drainage in the heat transfer station, data processing system gathers sewage drainage and compares sewage liquid level data and the water level height data of presetting at the sewage liquid level data of operation process, and carries out automatically regulated with contrast result feedback and control sewage drainage.
The utility model discloses a further technical scheme does, still be equipped with the video monitor system who is connected with data processing system in the heat exchange station, data processing system conveys video monitor system's video data in step to real-time demonstration is in order to monitor in the heat exchange station among the intelligent heat supply network system.
The utility model discloses a further technical scheme does, still be equipped with the intrusion alert system who is connected with data processing system in the heat exchange station, intelligence heat supply network system provides warning to backstage managers according to the intrusion alert signal that data processing system provided.
The utility model discloses a further technical scheme does, still be equipped with the fire alarm system who is connected with data processing system in the heat transfer station, intelligence heat supply network system provides warning to backstage managers according to the fire alarm signal that data processing system provided.
The utility model discloses a further technical scheme does, intelligence heat supply network system is still including energy consumption statistical system, fortune dimension management system, customer service system and intelligent movement end, the intelligent movement end is monitored the operating parameter and the equipment condition of each system in the heat transfer station in real time through mobile device.
Has the advantages that:
1. the utility model discloses an intelligence heat supply network system and data processing system are with two net circulation systems, two net water supply system, temperature regulation system, the superpressure protection system, sewage disposal system, running water charging system, the video monitoring system, intrusion alert system, and fire alarm system integrate all systems together in the condition that does not influence each system function, form one set of function perfect and the high integrated compatible heat transfer station control system between each system, its function covers extensively, be applicable to the heat transfer station control demand more than 90%, need not to do secondary development again according to the heat transfer station difference, realize centralized control from this, unified scheduling;
2. the utility model discloses a be provided with weather curve model among the intelligence heat supply network system, through the temperature parameter value of butt joint current ground weather forecast net, according to the dispatch curve of 24 hours's temperature preset value of 24 hours's temperature parameter value automatic generation through built-in computational formula, realize intelligent temperature regulation function from this for the heat supply curve generates more rationally, and it is more convenient that the temperature is issued.
3. The utility model discloses except satisfying heat transfer station control demand, still integrated each item safeguard measure of guarantee heat transfer station operation safety, like intrusion alert, fire alarm, sewage drainage, video monitoring etc. each system all networks through data processing system, and accessible intelligence heat supply network system or smart mobile phone client visit in real time, each system still has functions such as warning SMS suggestion, need not personnel and patrols always, all-round guarantee heat transfer station safety.
4. The utility model discloses information such as operation data, equipment state, energy consumption data of accessible mobile device remote access heat exchange station system, more convenient and intelligent than traditional form adapt to the demand of each trade digitization, informationization, the intelligent development of current society.
Drawings
FIG. 1 is a schematic diagram of the relationship of the present invention;
FIG. 2 is a schematic structural view of the heat exchange station of the present invention;
FIG. 3 is a schematic view of the internal structure of the heat exchanger unit of the present invention;
FIG. 4 is a schematic illustration of a scheduling curve formed by a climate curve model;
in the figure: 10. a heat exchanger unit; 11a, a network water supply shutoff valve; 11b, a network backwater shutoff valve; 12a, a two-network water supply shutoff valve; 12b, a two-network backwater shutoff valve; 13. a temperature control valve; 14. a plate heat exchanger; 15a, a two-network water supply pressure sensor; 15b, a two-network backwater pressure sensor; 16a, a two-network water supply temperature sensor; 16b, a two-network backwater temperature sensor; 17. a terminal transition box; 18. a circulation pump; 19. a water replenishing pump; 20. a power distribution cabinet; 30. a frequency conversion cabinet; 40. a programmable cabinet; 50. a water replenishing tank; 60. a sump pit; 70. a curtain sensor; 80. a video monitoring box; 90. a smoke sensor.
Detailed Description
In the description of the present invention, unless otherwise specified, the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships only for the purpose of describing the present invention and simplifying the description, but do not indicate or imply that the device or structure referred to must have a particular orientation and therefore should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
As shown in figure 1, an intelligent heat exchange station control system, including the intelligent heat supply network system who locates backstage control center, with set up two net circulation system, two net moisturizing system, temperature regulation system, superpressure protection system, running water moisturizing system, sewage drainage system, intrusion alarm system, fire alarm system and the data processing system in the heat exchange station, two net circulation system, two net moisturizing system, temperature regulation system, superpressure protection system, running water moisturizing system, sewage drainage system, intrusion alarm system and fire alarm system with the data processing system is connected, data processing system with intelligent heat supply network system passes through optic fibre or wireless signal connection, data processing system is used for gathering heat exchange station production and energy consumption data, such as pipe network temperature, pipe network pressure, water tank liquid level, The water pump rotating speed, the valve opening, the power consumption, the heat consumption, the water consumption, the ground water level, the access control signal, the smoke signal and the like are communicated with the two-network circulating system, the two-network water replenishing system, the temperature adjusting system, the tap water replenishing system and the sewage drainage system, and the operation parameters of the systems in the respective operation process are collected; the data processing system can carry out PID comparison calculation on data acquired by each system and a preset value corresponding to the system, and respectively feed back respective comparison results to the two-network circulating system, the two-network water supplementing system, the temperature adjusting system, the overpressure protection system, the tap water supplementing system and the sewage drainage system, and simultaneously control the two-network circulating system, the two-network water supplementing system, the temperature adjusting system, the overpressure protection system, the tap water supplementing system and the sewage drainage system to carry out automatic adjustment according to the comparison results; meanwhile, the data processing system can acquire information monitored by the video monitoring system, the fire alarm system and the intrusion alarm system in real time and synchronously transmit the acquired information to the intelligent heat supply network system so as to monitor the heat exchange station, alarm fire and alarm intrusion in real time.
The data processing system comprises a programmable controller, corresponding preset values are set in the programmable controller for each system, the preset values are modified on a human-computer interface of the heat exchange station, the preset values can also be modified and set in a background control center through the human-computer interface of the intelligent heat supply network system, the programmable controller collects production data of devices such as a sensor, a heat meter, an ammeter, a frequency converter and an actuator in the heat exchange station through programming and shares the collected data with other systems through the data processing system to feed back the control, and the data mainly collected by the data processing system comprises pipe network temperature, pipe network pressure, circulating pump frequency, circulating pump running state, pipe network flow, heat, electric quantity, water supplement quantity, outdoor temperature, water tank liquid level, sewage liquid level and the like.
The two-network circulating system comprises a two-network water supply pressure sensor 15a, a two-network water return pressure sensor 15b, a circulating pump 18 and a circulating pump frequency converter, the data processing system collects two-network water supply pressure data of the two-network water supply pressure sensor and two-network water return pressure data of the two-network water return pressure sensor and can transmit the collected data to the intelligent heat supply network system, the data processing system carries out PID calculation according to the two-network water supply pressure data, the two-network water return pressure data and a set target pressure difference parameter, and the circulating pump frequency converter controls the circulating pump to carry out frequency conversion regulation according to a calculation result, so that the automatic regulation of the two-network circulating operation frequency is realized, and the purpose of controlling the two-network circulating flow is achieved.
The two-network water supply system comprises a water tank liquid level sensor, a two-network water return pressure sensor, a water supply pump 19 and a water supply pump frequency converter, the data processing system collects water tank liquid level data of the water tank liquid level sensor and two-network water return pressure data of the two-network water return pressure sensor and can synchronously transmit the two data to the intelligent heat supply network system, the data processing system carries out comparison calculation according to set target pressure parameters and the two-network water return pressure data, the water supply pump frequency converter controls the start and stop of the water supply pump according to a calculation result, the purpose of controlling the two-network pressure value can be achieved, the two-network water supply system is linked with the water tank liquid level, the water supply pump is locked to output when the liquid level is too low, the protection effect is achieved, and therefore the operation of the two-network water supply system is.
The temperature adjusting system comprises a two-network water supply temperature sensor 16a, a two-network return water temperature sensor 16b and a temperature control valve 13, the temperature control valve comprises a valve body and an electric actuator, the data processing system collects the water supply temperature of the two-network water supply temperature sensor and the return water temperature of the two-network return temperature sensor and transmits the water supply temperature and the return water temperature to the intelligent heat supply network system, the data processing system can calculate according to the acquired water supply temperature or the average value of the difference of the water supply and return temperatures and a preset value of the temperatures, and the electric actuator controls the opening of the valve body to adjust according to the flow of the first network according to the calculation result, so that the purpose of controlling the temperature of the second network is achieved indirectly by controlling the flow of the first; the preset value of the temperature can be determined according to a climate curve model in the intelligent heat supply network system, the climate curve model forms a dispatching curve of the preset value of the temperature according to the air temperature parameter value provided by a local weather forecast network at regular time, so as to automatically adjust the preset value of the temperature at regular time, the climate curve model collects the air temperature parameter value of the local weather forecast network every 24 hours, calculates the corresponding preset value of the temperature according to the following formula and the air temperature parameter value every hour, and forms a dispatching curve of 24 hours after the preset value of 24 hours is completely calculated, as shown in figure 4, a black line is the curve of the air temperature parameter value of the weather forecast for 24 hours, and a gray line is the curve of the calculated temperature preset value, the utility model discloses a comparison of the calculated temperature preset value and the water supply temperature detected by a temperature sensor at regular time, and the temperature control valve is controlled to regulate the flow of the first network, so that the temperature of the second network is indirectly regulated.
The formula adopted by the climate curve model is T1=[Q1+K1*(t1-t2)](K2+2*G*C)/2*K2G C, wherein T1For a predetermined value of temperature, Q1For the unit heating load of the heating system, K1Taking a correction factor, K, for the outdoor temperature2Is the heat transfer coefficient per unit area of the heat consumer, G is the unit circulation volume of the system, t1For an estimated value of the local outdoor temperature, t2The temperature parameter value of a local weather forecast network is shown, and C is the specific heat of hot water; wherein Q1The value of the unit heating load of the heating system needs to be taken according to the information of the building type, the heating mode, the heat preservation condition and the like of the heat supply residential area, the value is taken by comprehensively considering the heat supply standard, and fine adjustment is carried out according to the feedback of the actual effect in the running process; said K1The outdoor temperature value correction coefficient is obtained after comprehensive consideration is carried out according to the building type, the wall structure and the heat preservation condition of the heat user in combination with the heat supply standard, and fine adjustment is carried out according to the feedback of the actual effect in the running process; said K2The heat transfer coefficient of the unit area of the heat consumer is set according to different heating modes and heating equipment of the residents; the unit circulation volume of the system G is taken as a value by comprehensively considering the information such as the building type, the heating mode, the heat preservation condition and the like of the heat supply district in combination with the heat supply standard and is finely adjusted according to the feedback of the actual effect during operation, and t1The local outdoor temperature estimated value is obtained by combining the minimum air temperature value of the heat supply network pipeline design and the minimum maximum temperature weighted correction according to the average value and the minimum maximum temperature weighted correction of the local past 3-year cold season outdoor temperature, and t is2The air temperature parameter value of the local weather forecast network is the outdoor temperature weather forecast provided by the weather forecast networkThe value C is the specific heat of hot water, and C is 4.18 kJ/(kg).
The overpressure protection system comprises an overpressure protection water drain valve, the data processing system acquires two-network backwater pressure data detected by a two-network backwater pressure sensor and can synchronously transmit the data to the intelligent heat supply network system for displaying, the data processing system carries out comparison calculation according to the two-network backwater pressure data and set overpressure protection pressure data, and when the two-network pressure is too high, the overpressure protection water drain valve is controlled to be started so as to reduce the pressure of an official network and realize overpressure protection.
The running water charging system comprises a water charging electromagnetic valve, a water charging tank 50 and a running water inlet pipe, the data processing system collects water tank liquid level data of a water tank liquid level sensor, the water tank liquid level data and a preset liquid level value are compared and calculated, when the water tank liquid level data is lower than the liquid level value, the water charging electromagnetic valve is controlled to be opened, the installed running water inlet pipe is opened, running water is charged, and the liquid level height is kept in a set safety range.
The sewage drainage system comprises a sewage level sensor and a sewage pump which are arranged in a sewage pit, the sewage pump is started through a sewage control box, the data processing system collects detection data of the sewage level sensor, the sewage pump is automatically started to drain water through the sewage control box when the liquid level of the sewage pit is too high, the sewage pump is automatically stopped after the liquid level is lowered to a safety height, and the phenomenon of water accumulation does not occur in a station.
The video monitoring system comprises a plurality of groups of high-definition network cameras arranged in the heat exchange station, and the network cameras are connected with an editable controller so as to be synchronously connected with the intelligent heat supply network system, so that the situation in the heat exchange station is monitored in real time at the background; the fire alarm system comprises a smoke alarm 90 arranged at the top of an electric cabinet of the heat exchange station, the smoke alarm is connected with a programmable controller, smoke conditions sensed by the smoke alarm are transmitted to the intelligent heat supply network system through the programmable controller, when the smoke alarm is triggered, information can be transmitted to the intelligent heat supply network system in real time, the intelligent heat supply network system sends out a sound prompt after being processed, and a background manager can quickly feed the information back to operation and maintenance support personnel to carry out field processing; the intrusion alarm system is used with the video monitoring system in a matched mode, the intrusion alarm system comprises a curtain alarm 70 installed at an inlet and an outlet of the heat exchange station, when people enter the heat exchange station, an alarm signal of the curtain alarm is triggered, the intelligent heat supply network system is uploaded to carry out voice prompt, a backstage manager receives the alarm signal and then observes the condition in the station through the video monitoring system, judges whether the intrusion is not the invasion of workers, and arranges operation and maintenance support personnel to go to the process if necessary.
The intelligent heat supply network system is an upper scheduling system used in the heat supply field, and comprises an energy consumption statistical system, an operation and maintenance management system, a customer service system and an intelligent mobile terminal besides the function of a climate curve model, wherein the energy consumption statistical system is used for energy consumption metering analysis of a heat exchange station, and a data processing system is used for collecting data of metering instruments such as a heat meter, an electric meter and a water meter in the heat exchange station and data of heat consumption, electricity consumption, water consumption and the like in the metering station; the operation and maintenance management system is responsible for scheduling and managing personnel in each department, has the functions of card punching, work order dispatching and the like, and manages the daily work and maintenance tasks of the operation and maintenance personnel; the customer service system can be connected with a customer service telephone, a customer service center, customer complaint information in a classified manner and return visit tasks; the intelligent mobile terminal monitors the operation parameters and equipment conditions of each system in the heat exchange station in real time through mobile equipment, and meanwhile, operation and maintenance personnel can receive work order delivery information and various alarm information prompts of the system through a mobile phone, wherein the mobile equipment can be a mobile phone or a tablet and the like.
A heat exchange station in the utility model corresponds to a building or a district or a region, as shown in figure 2, the hardware part of the heat exchange station is as shown in figure 2, including heat exchange unit 10, sump 60, water replenishing tank 50, curtain sensor 70, video equipment, power distribution cabinet 20, frequency conversion cabinet 30, programmable cabinet 40, smoke alarm 90, etc., the video equipment includes ball machine camera, rifle camera and video control box 80, one net water supply shut-off valve 11a and one net return water shut-off valve 11b in the heat exchange unit are respectively connected with municipal one net water supply pipe and one net return water pipe, two net water supply shut-off valve 12a and two net return water shut-off valve 12b are respectively connected with user two net water supply pipe and two net return water pipe, the water replenishing pipe in the heat exchange unit is connected with the water replenishing tank, the main cable of the heat exchange unit is connected with the main power inlet wire of the power distribution cabinet, the main power outlet is connected with the load control cabinet, the circulating pump frequency converter, the water replenishing pump frequency converter, the remote transmission ammeter and the like are arranged in the frequency conversion cabinet, a power inlet wire of the frequency conversion cabinet comes from the power distribution cabinet, and a power outlet wire is connected to a circulating pump and a water replenishing pump wiring terminal on a terminal transition box of the heat exchange unit; the programmable controller is installed on the programmable cabinet 40, the programmable cabinet further comprises a human-computer interface, a switch and a temperature and humidity controller, and a power inlet wire of the programmable cabinet comes from the frequency conversion cabinet; the sewage draining box comprises an internal logic circuit and a sump floating ball controller and is connected with the programmable cabinet. As shown in fig. 3, the structure diagram of the heat exchanger unit includes a plate heat exchanger, a first network water supply shut-off valve, a first network backwater shut-off valve, a second network water supply shut-off valve, a second network backwater shut-off valve, a temperature control valve, a second network water supply pressure sensor, a second network backwater pressure sensor, a second network water supply temperature sensor, a second network backwater temperature sensor, a first network calorimeter, a second network calorimeter, a water replenishing meter, an electromagnetic pressure relief valve, a first network water supply pressure sensor, a first network backwater pressure sensor, a first network temperature sensor, a first network backwater temperature sensor, a first network cleaner outlet pressure sensor, a second network cleaner outlet pressure sensor, a circulating pump outlet pressure sensor, a terminal transition box, a circulating pump, a water replenishing pump, and the like.
In order to make the purpose, technical solution and advantages of the present invention more concise and clear, the present invention is described with the above embodiments, which are only used for describing the present invention, and can not be understood as a limitation to the scope of the present invention. It should be understood that any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. An intelligent heat exchange station control system is characterized by comprising an intelligent heat supply network system arranged in a background control center, and a two-network circulating system, a two-network water supply system, a temperature adjusting system and a data processing system which are arranged in a heat exchange station;
the data processing system is used for acquiring data of the two-network circulating system, the two-network water replenishing system and the temperature adjusting system in respective running processes, carrying out PID (proportion integration differentiation) comparison calculation on the acquired data and a corresponding preset value, and feeding back a comparison result and controlling the two-network circulating system, the two-network water replenishing system and the temperature adjusting system to carry out automatic adjustment;
the data processing system is in signal connection with the intelligent heat supply network system, the data processing system can transmit the acquired data and the comparison result to the intelligent heat supply network system for display, and the intelligent heat supply network system can adjust a preset value in the data processing system;
the intelligent heat supply network system is provided with a climate curve model, the intelligent heat supply network system is connected with an interface of a local weather forecast network through a network, and the climate curve model forms a scheduling curve of a preset value of the temperature at regular time according to a temperature parameter value provided by the local weather forecast network so as to automatically adjust the preset value of the temperature at regular time.
2. The intelligent heat exchange station control system according to claim 1, wherein the climate curve model collects air temperature parameter values of a local weather forecast network every 24 hours, and calculates the corresponding preset values of the temperature according to the following formula and the air temperature parameter values every hour, and the 24-hour preset values are all calculated to form a 24-hour dispatching curve, wherein the formula is T1=[Q1+K1*(t1-t2)](K2+2*G*C)/2*K2G C, wherein T1For a predetermined value of temperature, Q1For the unit heating load of the heating system, K1Taking a correction factor, K, for the outdoor temperature2Is the heat transfer coefficient per unit area of the heat consumer, G is the unit circulation volume of the system, t1For an estimated value of the local outdoor temperature, t2The air temperature parameter value of the local weather forecast network is C, and the specific heat of the hot water is C.
3. The intelligent heat exchange station control system according to claim 1, wherein an overpressure protection system is further provided in the heat exchange station, the two-network backwater pressure data in the two-network backwater system collected by the data processing system is compared with a preset overpressure protection pressure value, and the comparison result is fed back and used for controlling the overpressure protection system to perform automatic adjustment.
4. The intelligent heat exchange station control system according to claim 1, wherein a tap water replenishing system is further provided in the heat exchange station, the data processing system compares the tank level data in the two-network water replenishing system collected by the data processing system with a preset level value, and feeds back the comparison result to control the tap water replenishing system to automatically adjust.
5. The intelligent control system for heat exchange station according to claim 1, wherein a sewage drainage system is further provided in the heat exchange station, the data processing system collects sewage level data of the sewage drainage system during operation, compares the sewage level data with preset water level height data, and feeds back the comparison result to control the sewage drainage system to automatically adjust.
6. The intelligent heat exchange station control system according to claim 1, wherein a video monitoring system connected to a data processing system is further provided in the heat exchange station, and the data processing system synchronously transmits video data of the video monitoring system to the intelligent heat network system for real-time display so as to monitor the heat exchange station.
7. The intelligent heat exchange station control system according to claim 1, wherein an intrusion alarm system connected to the data processing system is further provided in the heat exchange station, and the intelligent heat supply network system provides an alarm warning to a back-end manager according to an intrusion alarm signal provided by the data processing system.
8. The intelligent heat exchange station control system according to claim 1, wherein a fire alarm system connected to the data processing system is further provided in the heat exchange station, and the intelligent heat supply network system provides an alarm warning to a back-end manager according to a fire alarm signal provided by the data processing system.
9. The intelligent heat exchange station control system according to claim 1, wherein the intelligent heat supply network system further comprises an energy consumption statistical system, an operation and maintenance management system, a customer service system and an intelligent mobile terminal, and the intelligent mobile terminal monitors the operation parameters and equipment conditions of each system in the heat exchange station in real time through mobile equipment.
CN201921073768.6U 2019-07-10 2019-07-10 Intelligent heat exchange station control system Active CN210267499U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110274302A (en) * 2019-07-10 2019-09-24 合肥瑞纳节能工程有限公司 A kind of wisdomization heat exchange station control system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110274302A (en) * 2019-07-10 2019-09-24 合肥瑞纳节能工程有限公司 A kind of wisdomization heat exchange station control system

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