CN201273637Y - Environment climate compensation multi-stage regulation synthetic energy-saving control system - Google Patents

Abstract

The utility model discloses an integrated energy-saving system which can adjust the environment climate in multistep and is used for solving the problems of dynamic adjustment and grading adjustment of a heat supplying system in the prior art. The system comprises a boiler controller, a climate compensator and temperature sensors, wherein the temperature sensors are arranged in a room and outside a room, the boiler controller is connected with a heat source, and the climate compensator is respectively connected with the boiler controller and the temperature sensors. The system further comprises a valve adjustor which is used for controlling the opening and the closing of valves and is connected with the climate compensator, and a wireless sensor which forms a wireless self-network with the temperature sensors, and the wireless sensor is located inside the climate compensator. According to the proposal provided by the utility model, the problem of the single adjusting means in the prior art is overcome, and the performance of the whole system is improved.

Description

Amblent air temperature compensates multistage adjusting synthesis energy saving control system

Technical field

The utility model relates to a kind of comprehensive energy-saving system, and is particularly a kind of by each link of heating system is carried out central controlled energy conserving system.

Background technology

Climate compensating system is a kind of according to the outdoor climate variations in temperature, and the indoor temperature requirement of the different time that the user sets is obtained appropriate supply water temperature according to setting curve, controls supply water temperature automatically, realizes the system of the supply water temperature of heating system.

The major function of climate compensating system is applied in two aspects:

The one, China central heating lacks quantitative management, and the fireman is with sensation, burning boiler by rule of thumb.Heating equipment such as radiator, boiler carries out type selecting according to design conditions, and generally, outdoor temperature is higher than the design temperature point, exerts oneself if can not in time regulate according to the indoor and outdoor situation, will inevitably cause waste.Climate compensating system is controlled leaving water temperature at any time then according to return water temperature and outdoor temperature, realizes dynamic matter adjusting simply, accurately;

The 2nd, the heat supply heating system of China mostly is the direct connection system, no matter all unified heat supply in 24 hours of the type of building and function, and therefore for example nobody heat supply that does as usual the time of public place, office building has caused very big waste.Utilize threeway to mix water valve or small-sized thermal substation, just can be with the separated independent control of system.In some public places, utilize the different demand temperature of function setting different time sections of the time programming of climate compensating system, realize energy-conservation significantly.

One of prior art has proposed a kind of heating system climate compensating system, its technical scheme mainly comprises: cabinet and control panel, the panel of casing is provided with LCDs, row is for being provided with button, displacement button, adding key and printing key down for it, and down the left side is the casing lock again, and the right is a mini-printer, power switch is in the instrument downside upper right corner, be outlet below it, the left side one row is control interface, and control interface comprises temperature signal input interface and control output interface; The temperature signal input interface comprises the input interface of supply water temperature, return water temperature, indoor temperature and outdoor temperature sensor.But this climate compensator is only regulated the power of boiler, and regulating measure is single, in the system of extensive, multi-cascade, can not effectively rationally regulate each link.

Two of prior art has proposed a kind of climate compensating system, and its technical scheme mainly comprises: host CPU, control, collection, storage, output, display circuit are formed; Acquisition Circuit, memory circuit, communicating circuit, output circuit, display circuit are connected with host CPU control corresponding supervisor respectively in the main circuit, by host CPU directly control, computing and directly exporting; Also have data acquisition expansion interface, PWM electrodeless power regulating output interface in the circuit.But obtaining and issuing of all parameters of this climate compensator all is by wired mode, is not suitable for the deployment of extensive heating system.

This shows that there is following shortcoming in existing climate compensating system:

1 temperature-compensating means are single; Boiler power and leaving water temperature can only be controlled,, when each heat supply regional demand changes, each regional temperature can not be effectively controlled when the structure more complicated of heating system;

2 data owners will transmit by wired mode, are not suitable for the large scale deployment system; The temperature of each monitoring point is obtained and the issuing mainly of control signal of each link is undertaken by wired mode, is unfavorable for that system disposes.

The utility model content

Because the above-mentioned defective of prior art, the utility model embodiment provides a kind of amblent air temperature to compensate multistage adjusting synthesis energy saving control system, to solve the shortcoming of the single and data wire transmission of temperature-compensating means in the prior art, make that each target heat supply zone can heating according to need, reach the purpose of multistage dynamic adjustments.

This utility model comprises:

A kind of climate compensating system comprises:

Boiler controller;

Climate compensator;

Temperature sensor;

Wherein, temperature sensor is arranged in inside and outside the room, and boiler controller is connected with thermal source, climate compensator respectively with climate compensator, temperature sensor wireless connections;

It is characterized in that: described climate compensating system further comprises:

The valve regulated device that is used for the by-pass valve control switch, itself and climate compensator wireless connections;

Described climate compensator also comprises the comparator of comparison room internal and external temperature.

Described climate compensator also comprises the wireless senser that constitutes wireless self-organization network with temperature sensor.

Description of drawings

Fig. 1 is the structural representation that amblent air temperature of the present utility model compensates multistage adjusting synthesis energy saving control system;

Fig. 2 is a climate compensator structural representation of the present utility model;

Fig. 3 is a system of the present utility model dynamic adjustments flow chart;

Fig. 4 is that system level of the present utility model is regulated flow chart;

The specific embodiment

Below in conjunction with Figure of description, the amblent air temperature that the embodiment of the invention is provided by specific embodiment compensates multistage adjusting synthesis energy saving control system and is described in detail.

Fig. 1 has illustrated that the utility model amblent air temperature compensates the structure chart of multistage adjusting synthesis energy saving control system.This system mainly comprises: climate compensator 1, thermal source 2, person in charge's net valve regulated device 3, branch's pipe network valve regulated device 4 and 5, temperature sensor 6 and 7, building A unit 8, building B unit 9, outlet pipe 10 and return pipe 11.Wherein, outlet pipe is connected with construction unit A thermal source with return pipe with B, climate compensator is collected temperature parameter, outside air temperature parameter, leaving water temperature parameter and the return water temperature parameter that the temperature sensor in each building unit returns, thereby reaches the temperature control to each unit through control boiler power, person in charge's net valve regulated device, branch's pipe network valve regulated device after calculating.Wherein thermal source can be coal-burning boiler or gas fired-boiler; Adopt the wireless data transmission means between climate compensator and each sensor, system all is provided with temperature sensor in outlet pipe and return pipe, and temperature sensor is gathered the temperature of water, and it is transferred to climate compensator.Climate compensator calculates parameter, and control command is transferred to each valve regulated device and boiler controller with wireless mode.Described valve can adopt the smart electronics formula electric linear-motion control valve of ROPO company, it supports multiple signal input: executing agency directly accepts 4-20mADC or 0-10VDC control signal, the valve feedback signal of output 4-20mADC, insert the 24V/AC/DC power supply and can control operation, line is very simple.

Fig. 2 has illustrated the climate compensator structure chart in the utility model.

Climate compensator of the present utility model comprises input block, control module and output unit; Input block is mainly gathered indoor temperature information from be arranged in indoor temperature sensor, the outer temperature information of collecting chamber, and the water temperature of outlet pipe and return pipe; These information are by control module CPU in the analog-digital converter conversion back transmission; CPU carries out computing to parameter, and control command is handed down to output unit; Output unit comprises display, alarm, valve regulated device and boiler power controller.In the utility model, input block is connected with CPU by analog-digital converter, CPU is connected with output unit by data/address bus, and climate compensator is also integrated wireless senser is used for and is deployed between each temperature sensor in the room constituting wireless self-organization network.

Fig. 3 has illustrated the dynamic adjustments flow chart of the system in the utility model.

Step 1: system starts, and each equipment carries out self check;

Step 2:, wait for that the attendant handles if device fails starts and reports to the police;

Step 3: do not finding under the situation of fault that climate compensator is collected temperature information by the temperature sensor that is arranged in indoor and outdoor;

Step 4: counting chamber inside and outside temperature difference;

Step 5: whether the C.T difference is greater than setting value, when temperature difference greater than when setting value, this is that room temperature is too high, should adjust boiler power in real time, particularly, when temperature is too high, reduces boiler power, thereby reduce leaving water temperature, when temperature is crossed when low, increase boiler power, thereby improve leaving water temperature, therefore reach the dynamic equilibrium of temperature in the room;

Step 6: it is poor to monitor indoor and outdoor temperature in real time, and room temperature is dynamically adjusted;

Above-mentioned dynamic adjustments process mainly is to utilize that the monitoring indoor and outdoor temperature is poor in real time, relatively this temperature difference and the value of setting, thus make indoor temperature keep constant, reach purpose of energy saving.

Fig. 4 has illustrated the classification adjusting flow chart of the system in the utility model.

Step 1: system starts, and each equipment carries out self check;

Step 2:, wait for that the attendant handles if device fails starts and reports to the police;

Step 3: do not finding under the situation of fault that climate compensator is collected temperature information by the temperature sensor that is arranged in indoor and outdoor;

Step 4: the indoor and outdoor temperature that calculates the indoor and outdoor temperature difference of A unit and B unit respectively is poor;

Step 5: relatively whether the indoor and outdoor temperature difference of A unit is poor greater than the indoor and outdoor temperature of B unit, particularly, when the indoor and outdoor temperature difference of A unit poor greater than the indoor and outdoor temperature of B unit, the indoor temperature that at this moment the A unit is described is higher, climate compensator with the valve of temporary close A unit to reduce the indoor temperature of A unit; If the indoor and outdoor temperature difference of B unit is poor greater than the indoor and outdoor temperature of A unit, illustrate that at this moment the indoor temperature of B unit is higher, climate compensator with the valve of temporary close B unit to reduce the indoor temperature of B unit;

Step 6: wait for a period of time, return step 3, the indoor and outdoor temperature that recomputates A, B unit is poor;

Above-mentioned classification adjustment process mainly is to utilize real-time monitoring different units indoor and outdoor temperature poor, reaches purpose of energy saving by the switch of regulating terminal valve.

The utility model amblent air temperature compensates coming into operation of multistage adjusting synthesis energy saving control system, can make original heating system reach the effect of automation, by automatic adjusting, greatly reduce heating personnel's labour intensity, system carries out the unified allocation of resources operation according to the variation of environment temperature, heat is optimized reasonable distribution, makes heating system more scientific and reasonable.

The above only is several specific embodiment of the present invention, and above embodiment only is used for technical scheme of the present invention and inventive concept are done explanation and unrestricted claim scope of the present invention.All technical staff in the art in conjunction with prior art, by the available other technologies scheme of logic analysis, reasoning or limited experiment, also should be considered to drop within the claim protection domain of the present invention on the inventive concept basis of this patent.

Claims (2)

1, a kind of amblent air temperature compensates multistage adjusting synthesis energy saving control system, comprising:

Boiler controller;

Climate compensator;

Temperature sensor;

Wherein, temperature sensor is arranged in inside and outside the room, and boiler controller is connected with thermal source, climate compensator respectively with boiler controller, temperature sensor connects;

It is characterized in that: described system further comprises:

Be used for the valve regulated device of by-pass valve control switch, it is connected with climate compensator, and forms the wireless senser of mobile Ad hoc network with temperature sensor, and this wireless senser is positioned at climate compensator inside.

2, amblent air temperature according to claim 1 compensates multistage adjusting synthesis energy saving control system, it is characterized in that described climate compensator also comprises the comparator of comparison room internal and external temperature.

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