CN203177324U - Heat supply pipe network energy-saving control system - Google Patents

Abstract

The utility model relates to the technical field of heat supply control, in particular to a heat supply pipe network energy-saving control system, which comprises a water supply pipeline and a water return pipeline, wherein the water supply pipeline and the water return pipeline are connected with a heat radiator in a public building region for forming a heat supply loop, a branch pipeline is connected in parallel with the water return pipeline, an electric regulating valve is arranged on the branch pipeline, a temperature sensor is respectively arranged on the water supply pipeline and the water return pipeline, at least three temperature sensors are arranged in different regions in the public building region, the heat supply pipe network energy-saving control system also comprises an intelligent PID (proportion integration differentiation) controller, and the intelligent PID controller is respectively connected with the temperature sensors and the electric regulating valve. The heat supply pipe network energy-saving control system can realize the in-site or remote heat supply energy-saving control according to the use requirements of users and the weather change, the waste caused by excessive heat supply in a heat supply system is solved, and the heat supply according to requirements can be realized on heat use units.

Description

A kind of heating network energy-saving control system

Technical field

The utility model belongs to public building heating network energy-saving field, relates in particular to a kind of heating network energy-saving control system.

Background technology

At present heating industry rests on manual operation pipeline valve aperture substantially or reconciles the supply that the steam generator system Coal-fired capacity is controlled thermal energy heat energy control aspect, can't be according to the user because weather or time period are different to the heat energy demand different requirements carry out heating according to need.

The utility model content

The purpose of this utility model is to provide a kind of heating network energy-saving control system in order to overcome shortcoming of the prior art, be intended to solve present heating industry heat energy control aspect rested on manual operation pipeline valve aperture substantially or reconciles the supply that the steam generator system Coal-fired capacity is controlled thermal energy, can't be according to the user because weather or time period are different to the heat energy demand different requirements carry out the problem of heating according to need.

For achieving the above object, the utility model is by the following technical solutions:

A kind of heating network energy-saving control system comprises water supply line and water return pipeline; Radiator in described water supply line and water return pipeline and the public building zone is connected to form heat supplying loop, at the parallel branch pipe(tube) that is connected with of described water return pipeline, be provided with electric control valve at described branch pipe(tube), be respectively equipped with a temperature sensor on described water supply line and the water return pipeline, diverse location is provided with at least three temperature sensors in the described public building zone; Also comprise an intelligent PID controller, be connected with described temperature sensor and described electric control valve respectively, be used for the temperature-averaging value in the described public building zone of described temperature sensor collection is compared with supply water temperature and return water temperature, and with the design temperature comparative analysis, then according to comparative analysis as a result output current signal control described motorized adjustment valve opening.

Described intelligent PID controller comprises that the Programmable Logic Controller that is embedded with pid control module, input and described temperature sensor be connected respectively is used for the analog signals that described temperature sensor transmits is converted to the touch display screen of analog module, the input setting that is used for described design temperature and displays temperature data that digital quantity signal is input to described Programmable Logic Controller and the power module that working power is provided for described Programmable Logic Controller and touch display screen; Described Programmable Logic Controller is electrically connected with described analog module, touch display screen.

Described intelligent PID controller is reserved with the network interface that is connected for host computer.

Described temperature sensor on described water supply line and the water return pipeline is installed on described water supply line and the water return pipeline by a metal sleeve.

Described metal sleeve partly is welded in water supply line and the described water return pipeline, and described temperature sensor places in the described metal sleeve.

Described electric control valve both sides are respectively equipped with a butterfly valve at described branch pipe(tube).

The utility model can carry out scene or the control of long-range heating energy-saving according to user's instructions for use and Changes in weather, can solve the waste that the heat supply surplus causes in the heating system, can be to accomplishing heating according to need with heat unit.

Description of drawings

Figure 1 shows that the structural representation of the heating network energy-saving control system that the utility model provides.

1, water supply line; 2, water return pipeline; 3, branch pipe(tube); 4, electric control valve; 5, butterfly valve; 6, hand stop valve.

The specific embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing, the utility model is further elaborated.

The utility model is by the real-time detection to resident family's indoor and outdoor regional temperature in heating network water supply and return water temperature and the public building, adopt the local area network communication mode that detected heat distribution pipe network state and user are regulated in real time to the demand of heat energy, thereby accomplish heating according to need.

Referring to Fig. 1, the figure shows the structure of a kind of heating network energy-saving control system that the utility model provides.For convenience of explanation, only show the relevant part of the utility model.

Referring to Fig. 1, a kind of heating network energy-saving control system comprises water supply line 1 and water return pipeline 2; Be located at hand stop valve 6 on described water supply line 1 and the water return pipeline 2, radiator in described water supply line 1 and water return pipeline 2 and the public building zone is connected to form heat supplying loop, at the described water return pipeline 2 parallel branch pipe(tube)s 3 that are connected with, be provided with electric control valve 4 at described branch pipe(tube) 3, be respectively equipped with temperature sensor T1, T2 on described water supply line 1 and the water return pipeline 2, diverse location is provided with at least three temperature sensor T in the described public building zone; Also comprise an intelligent PID controller, be connected with described temperature sensor and described electric control valve respectively, be used for the temperature-averaging value in the described public building zone of described temperature sensor collection is compared with supply water temperature and return water temperature, and with the design temperature comparative analysis, then according to comparative analysis as a result output current signal control described motorized adjustment valve opening.

Among the utility model embodiment, described intelligent PID controller comprises that the Programmable Logic Controller that is embedded with pid control module, input and described temperature sensor be connected respectively is used for the analog signals that described temperature sensor transmits is converted to the touch display screen of analog module, the input setting that is used for described design temperature and displays temperature data that digital quantity signal is input to described Programmable Logic Controller and the power module that working power is provided for described Programmable Logic Controller and touch display screen; Described Programmable Logic Controller is electrically connected with described analog module, touch display screen.

The course of work of described intelligent PID controller is that Programmable Logic Controller arranges mean value and the confession that software will be gathered three indoor temperature points that come according to program, the hot water temperature of water return pipeline collection is worth comparison (whether the single-point that exceeds preset value for temperature is rejected and checked breaks down), and be analyzed with user's design temperature, three indoor temperatures that collect are shown on touch display screen on the spot, and aforesaid temperature data can be uploaded to host computer by controller and show, export 4-20mA current signal control motorized adjustment valve opening simultaneously, by the controller ratio, integration, differential (PID) regulatory function, realize multi-period control, improve degree of regulation, the user can conveniently set the different temperatures requirement of different periods, to realize the dividing gentle candidate of time-division temperature Energy Saving Control to repay control.

Further, among the utility model embodiment, described intelligent PID controller is reserved with to be connected for host computer and carries out the network interface of transfer of data.

Among the utility model embodiment, the described temperature sensor on described water supply line and the water return pipeline is installed on described water supply line and the water return pipeline by a metal sleeve.

Concrete, described metal sleeve partly is welded in water supply line and the described water return pipeline, and described temperature sensor places in the described metal sleeve.During concrete enforcement, can described metal sleeve 2/3 be welded on supply water and water return pipeline in, 1/3 leak supply water and water return pipeline outside.

Diverse location is provided with at least three temperature sensors in the described public building zone, for example can be arranged in corridor, room and the toilet, is used for gathering the temperature of building diverse location.

Further, described electric control valve 4 both sides are respectively equipped with a butterfly valve 5 at described branch pipe(tube) 3.

Among the utility model embodiment, described motor regulated valve is to be made of valve body, valve body actuator, controls described valve actuator by described intelligent PID controller and comes by-pass valve control aperture size to change flow by valve hot water; Described two butterfly valves are to be made of valve body and hand switch knob, water conservancy in the pipeline dam when being used for pipeline maintenance and motor regulated valve being installed in construction, during concrete operations, when pipeline has water, former pipeline hand stop valve is opened, with two butterfly valve manual-locks, so just can make electrically operated valve construction and installation or maintenance in anhydrous environment.

Compare with like product on the market, the utlity model has following beneficial effect:

(1) adopts the efficient intelligent closed-loop control, can carry out software configuration and design temperature etc. on demand and carry out the PID adjusting, make indoor temperature and environment temperature reach rational, comfortable temperature, be issued to energy-conservation to greatest extent in the prerequisite that satisfies instructions for use.

(2) regulative mode, arbitrarily design temperature, aperture easily; The parameters such as aperture of temperature, valve can be presented on the panel, also can see and set at the screen of Surveillance center.Advanced setting and monitoring and regulatory function have been improved system's operation characteristic makes system easy to use, for the dilatation of computer later on is reserved with interface, can carry out transfer of data, system group network, information system management control.

(3) system can select the automatic or manual mode to control, selective energy-saving or the operation of non-power save mode.When needed, energy conserving system switches to the control of original system control mode, does not influence the normal use of original system;

(4) can be with a year adjusting continuously.

The above only is preferred embodiment of the present utility model; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (6)

1. a heating network energy-saving control system is characterized in that, comprises water supply line and water return pipeline; Radiator in described water supply line and water return pipeline and the public building zone is connected to form heat supplying loop, at the parallel branch pipe(tube) that is connected with of described water return pipeline, be provided with electric control valve at described branch pipe(tube), be respectively equipped with a temperature sensor on described water supply line and the water return pipeline, diverse location is provided with at least three temperature sensors in the described public building zone; Also comprise an intelligent PID controller, be connected with described temperature sensor and described electric control valve respectively, be used for the temperature-averaging value in the described public building zone of described temperature sensor collection is compared with supply water temperature and return water temperature, and with the design temperature comparative analysis, then according to comparative analysis as a result output current signal control described motorized adjustment valve opening.

2. according to the described heating network energy-saving control system of claim 1, it is characterized in that described intelligent PID controller comprises that the Programmable Logic Controller that is embedded with pid control module, input and described temperature sensor be connected respectively is used for the analog signals that described temperature sensor transmits is converted to the touch display screen of analog module, the input setting that is used for described design temperature and displays temperature data that digital quantity signal is input to described Programmable Logic Controller and the power module that working power is provided for described Programmable Logic Controller and touch display screen; Described Programmable Logic Controller is electrically connected with described analog module, touch display screen.

3. according to the described heating network energy-saving control system of claim 2, it is characterized in that described intelligent PID controller is reserved with the network interface that is connected for host computer.

4. according to the described heating network energy-saving control system of claim 1, it is characterized in that the described temperature sensor on described water supply line and the water return pipeline is installed on described water supply line and the water return pipeline by a metal sleeve.

5. according to the described heating network energy-saving control system of claim 4, it is characterized in that described metal sleeve partly is welded in water supply line and the described water return pipeline, described temperature sensor places in the described metal sleeve.

6. according to the described heating network energy-saving control system of claim 1, it is characterized in that described electric control valve both sides are respectively equipped with a butterfly valve at described branch pipe(tube).

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