CN201666640U - Control system of central air conditioner based on wireless sensor network - Google Patents

Abstract

The utility model discloses a control system of a central air conditioner based on a wireless sensor network, which comprises a chilled water control subsystem, a cooling water control subsystem and a main control system based on the wireless sensor network. In the light of the inherent hysteretic characteristics of the chilled (cooling) water system, the time synchronization processing is carried out for the outlet/return water temperature. A water pump and the rotating speed of a fan are adjusted through the fuzzy feedback control, and the control quality and comfortableness of the system are improved. The real-time room temperature of the air conditioner area is collected based on the wireless sensor network, a pyroelectric infrared sensor of a fresnel lens is combined to detect an unoccupied room, i.e. the feedforward control of the chilled (cooling) water pump and the rotating speed of the fan is carried out according to the real-time load and load variation value of the air conditioner, and the comfortableness and energy consumption index of the central air conditioner are further improved; based on the rated temperature difference parameters of the domestic fan coil, a system structure in which the fan coil is connected with a fresh air handling unit in series is provided, and the energy saving is realized according to the principle of the cold energy cascade utilization.

Description

Central air conditioning system based on wireless sense network

Technical field

The utility model belongs to central air-conditioning control technology field, relates in particular to a kind of central air conditioning system based on wireless sense network.

Background technology

Along with the propelling of Urbanization in China, skyscraper and supporting with it central air-conditioning emerge in multitude, wherein the central air-conditioning energy consumption accounts for more than 50% of total energy consumption of building.Therefore, business circles and academia have carried out lasting research and practice extensively and profoundly to the energy consumption that reduces central air-conditioning.Press 110%～120% design of maximum load in view of central air-conditioning, and the actual load of 80% time air-conditioning is less than 50% design load, the solution of central air-conditioning cold (heat) amount by terminal workload demand proposed, promptly adopt frequency converter to freezing (but) water pump, fan speed-regulating, corresponding reduction rotating speed is realized energy-conservation during low load condition, this technology is very ripe, and obtains certain effect.U.S.'s ASHRAE IES90 energy conservation standard spells out: " water system should be designed to variable flow system ".Owing to the load variations that backwater temperature difference has directly reflected air-conditioning that goes out of air conditioning water, therefore can regulate freezing (but) discharge by the backwater temperature difference that goes out that detects chilled water.Consider that central air-conditioning has the time varying characteristic of non-linear, large time delay, close coupling, the control strategy of main flow is multi-modal fuzzy PID at present.The representative studies achievement is as follows:

Central air-conditioning intelligent cluster control system (ZL200710026954.X) proposes to utilize converter technique, and the surplus capacity of air-conditioning is reduced to minimum.

Control central air-conditioning end supply backwater temperature difference and device (application number 200810027472.0) propose to compare backwater temperature difference and regulate the proportioning valve aperture with setting the temperature difference, satisfy the control requirement of room temperature.

Central air-conditioning energy control system centralized Control method and sensing module (ZL03117539.2) thereof, freezing water system of central air conditioner fuzzy expection control method and device (ZL200410040667.0) propose to adopt FUZZY ALGORITHMS FOR CONTROL to regulate chilled-water flow.

The temperature control (ZL200510036470.4) of central air-conditioning loading temp control optimization system, method and employing proposes to measure flow of the people, makes the central air conditioner system end can in time adjust economical and comfortable environment state.

Above-mentioned useful exploration, indicated the general thought of central air-conditioning energy consumption reduction, but explore achievement and still have suitable limitation, further excavate the potential of central air-conditioning consumption reduction, especially under energy-saving and cost-reducing prerequisite, guarantee to still have a large amount of work aspect the comfortableness of central air-conditioning, be necessary on existing achievement in research basis, to do further research and innovate.

Under humidity 50% condition, the winter temperature scope of central air-conditioning comfort index is 20-23.5 ℃, and summer temp then is 23-26 ℃ (Ashrea).With the air conditioner refrigerating pattern is example, every raising 1 degree of desired temperature, and 6%-7% can fall in energy consumption.The decision in 2005 of Guangdong Province government, office of provincial government air-conditioner temperature transfers to (Yangcheng Evening News 2005.5.16) more than 26 ℃ or 26 ℃ from 23 ℃; Other province municipal government makes similar resolution subsequently, has extended to all public places, the whole nation at present, and statistics shows: the effect of government's energy-saving and emission-reduction behave is remarkable.But what must carry is on the other hand: the complaint to comfortableness increases day by day, because transfer to the upper limit of comfortableness on the desired temperature, when the river rises the boat goes up to the requirement of control quality, and the control quality defect under previous low temperature setting value has been covered shows especially out.Existing temperature difference control scheme is gathered the water outlet and the backwater side temperature of evaporimeter synchronization, and in fact the leaving water temperature of chilled water will be through after the chilled water circulation, and its variations in temperature could reflect in backwater.In other words, institute's survey time coolant-temperature gage is actually preceding air-condition freezing water outlet of a circulation (being generally tens minutes) and air conditioner load results of interaction, and what its reflected is chilled water cycle period operating mode before.Therefore, go out return water temperature with the chilled water of synchronization monitoring and ask the temperature difference, and obviously be problematic as the adjusting that controlled quentity controlled variable is carried out chilled-water flow, because what above-mentioned leaving water temperature and return water temperature characterized is the operating mode of different time points, asynchronous on both times, differ a chilled water cycle period.What the leaving water temperature of the computational methods existence and the similar defective of the chilled water temperature difference of cooling range--cooling water and return water temperature characterized is the operating mode of different time points, asynchronous on both times, differs a cooling water cycle period.

Also must be pointed out: existing temperature difference control scheme does not relate to real-time room temperature, and the introducing of room temperature in real time helps to control the improvement of quality; Monitor unmanned room, eliminate the potential that can further excavate the central air-conditioning consumption reduction to unmanned room cooling (heat), and deduct unmanned room factor during predictive user side load, also be beneficial to the raising of precision of prediction.

The chilled water temperature parameter of domestic central air-conditioning design generally is 7 ℃/12 ℃, and cooling water is then got 37 ℃/32 ℃, and supporting parts such as fan coil all design by the above-mentioned parameter value.When strengthening supply backwater temperature difference minimizing pump energy consumption, can cause the decline of fan coil heat transfer efficiency.Freezing, the cooling water parameter of the PVG international finance mansion central air-conditioning of day enterprise's design are respectively 5.6 ℃/15.6 ℃, 38.9 ℃/30.6 ℃, freezing, the coolant water temperature difference that are much higher than domestic central air-conditioning, the backwater high temperature difference that goes out of freezing (but) water was looked forward to obtaining original achievement on the central air-conditioning in day.No matter homemade fan coil is that material or manufacturing process and developed country still have suitable gap, base oneself upon parts such as existing homemade fan coil, seeking the backwater temperature difference that goes out that increases chilled water does not influence another approach that the fan coil heat transfer efficiency is an excavation central air-conditioning consumption reduction again.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of central air conditioning system based on wireless sense network is provided.

PC respectively with the ZigBee wireless sense network, programmable logic controller (PLC), air-conditioner host links to each other, the room is positioned at the ZigBee wireless sense network, programmable logic controller (PLC) respectively with first frequency converter, second frequency converter, the 3rd frequency converter, evaporation gauge, condensation sensor links to each other, first frequency converter links to each other with chilled water pump, chilled water pump successively with fan coil, new blower fan group, evaporimeter links to each other, evaporimeter respectively with evaporation gauge, chilled water pump links to each other, fan coil and new blower fan group are positioned at the room part, second frequency converter successively with cooling water pump, cooling tower links to each other, the 3rd frequency converter successively with the cooling tower fan, cooling tower links to each other, cooling tower links to each other with condenser, condenser respectively with condensation sensor, cooling water pump links to each other; Evaporation gauge comprises the temperature sensor of evaporimeter both sides installation and flow and the pressure sensor that install the evaporimeter water side, condensation sensor comprises the temperature sensor of condenser both sides installation and flow and the pressure sensor that install the condenser water side, districution temperature sensor, Fresnel Lenses pyroelectric infrared sensor in the room, evaporation gauge and condensation sensor directly send information to programmable logic controller (PLC), and the temperature sensor in the room, Fresnel Lenses pyroelectric infrared sensor send information to PC by the ZigBee wireless sense network.

Described fan coil and new blower fan group are positioned at the room part, fan coil and new blower fan group arranged in series, the cascade utilization of realization cold or heat, promptly chilled water enters new blower fan group again after the fan coil heat exchange, substitute traditional doublet architecture, reduce pump discharge and pipeline loss of refrigeration capacity.

Described ZigBee wireless sense network is made up of main control module, Fresnel Lenses signal conditioning circuit, ambient temperature sensor assembly, ZigBee-EIB modular converter, serial port module, power module, crystal oscillator module, RF circuit module, antenna, main control module CC2430 integrated chip links to each other with Fresnel Lenses signal conditioning circuit, ambient temperature sensor assembly, ZigBee-EIB modular converter, serial port module, power module, crystal oscillator module, RF circuit module respectively, and RF circuit module links to each other with antenna; Temperature sensor in the room is gathered the real-time room temperature of air-conditioning representative region, detect unmanned room in conjunction with the Fresnel Lenses pyroelectric infrared sensor, air-conditioning load is in real time imported PC by wireless sense network, PC changes frequency converter frequency by programmable logic controller (PLC), carries out the control of chilled water pump, cooling water pump and cooling tower rotation speed of the fan; The temperature sensor that install evaporimeter, condenser both sides is gathered the temperature of evaporimeter and condenser both sides, flow that install the water side of evaporimeter, condenser and pressure sensor are gathered flow, the pressure of chilled water pump and cooling water pump, the temperature of evaporimeter and condenser, flow, pressure are imported PC by programmable logic controller (PLC), change frequency converter frequency by programmable logic controller (PLC), carry out the control of chilled water pump, cooling water pump and cooling tower rotation speed of the fan.

The utility model is compared with background technology, and the beneficial effect that has is:

The time synchronizing that goes out return water temperature can be obtained the real working condition of central air-conditioning, regulates frequency converter frequency--water pump and rotation speed of the fan according to the backwater temperature difference fuzzy feedback-control that goes out of time synchronized, can effectively promote control quality and comfortableness.Wireless sense network detects unmanned room in conjunction with the Fresnel Lenses pyroelectric infrared sensor, obtain the real-time load of air-conditioning, FEEDFORWARD CONTROL according to the real-time load and the load variations value of air-conditioning are carried out water pump and cooling tower rotation speed of the fan is further promoted the comfortableness of central air-conditioning and energy consumption index.Fan coil and new blower fan group arranged in series on the basis of keeping the fan coil heat transfer efficiency, reduce the loss of refrigeration capacity of chilled-water flow and freezing pipe arrangement by the cold cascade utilization.

Description of drawings

Fig. 1 is based on the central air conditioning system schematic diagram of wireless sense network;

Fig. 2 is the conventional fan coil pipe and the chilled water block diagram of new blower fan group configuration in parallel;

Fig. 3 is the chilled water block diagram of fan coil and new blower fan group arranged in series;

Fig. 4 is a Fresnel Lenses pyroelectric infrared sensor circuit block diagram;

Fig. 5 is a room temperature wireless sense network block diagram;

Fig. 6 is the control block diagram of chilled water system;

Fig. 7 is the control block diagram of cooling water system;

Fig. 8 be freezing, cool off backwater temperature difference time synchronizing flow chart.

The specific embodiment

As shown in Figure 1, PC in the central air conditioning system of wireless sense network respectively with the ZigBee wireless sense network, programmable logic controller (PLC), air-conditioner host links to each other, the room is positioned at the ZigBee wireless sense network, programmable logic controller (PLC) respectively with first frequency converter, second frequency converter, the 3rd frequency converter, evaporation gauge, condensation sensor links to each other, first frequency converter links to each other with chilled water pump, chilled water pump successively with fan coil, new blower fan group, evaporimeter links to each other, evaporimeter respectively with evaporation gauge, chilled water pump links to each other, fan coil and new blower fan group are positioned at the room part, second frequency converter successively with cooling water pump, cooling tower links to each other, the 3rd frequency converter successively with the cooling tower fan, cooling tower links to each other, cooling tower links to each other with condenser, condenser respectively with condensation sensor, cooling water pump links to each other; Evaporation gauge comprises the temperature sensor of evaporimeter both sides installation and flow and the pressure sensor that install the evaporimeter water side, condensation sensor comprises the temperature sensor of condenser both sides installation and flow and the pressure sensor that install the condenser water side, districution temperature sensor, Fresnel Lenses pyroelectric infrared sensor in the room, evaporation gauge and condensation sensor directly send information to programmable logic controller (PLC), and the temperature sensor in the room, Fresnel Lenses pyroelectric infrared sensor send information to PC by the ZigBee wireless sense network.

Programmable logic controller (PLC) PLC selects the product S7-200 of Siemens company for use: digital extended module EM223 24VDC, 16 inputs/16 outputs;

Frequency converter is selected the blower fan/water pump special converter of the MicroMaster430 of Siemens company series for use.

As shown in Figure 2, the conventional central air-conditioner water system is sent into chilled water pipe (claiming " water outlet ") from the chilled water that freezing unit flows out by the refrigerating water pump pressurization, in each room, carry out heat exchange, take away the heat in the room, temperature in the room is descended, flow back to freezing unit (claiming " backwater ") then, so constantly circulation.In cooling water recirculation system, the heat that cooling water absorption refrigerating unit discharges, water temperature raises, coolant pump is pressed into cooling tower with the cooling water (claiming " water outlet ") that heats up, make it in cooling tower, to carry out heat exchange with atmosphere, and then the cooling water of cooling sent back to freezing unit (claim " backwater "), so constantly circulation.New blower fan group and fan coil that chilled water enters configuration in parallel carry out heat exchange, the freezing backwater Returning evaporimeter cooling after the intensification; Be subjected to the limitation of homemade fan coil process conditions, the backwater temperature difference rated value that goes out of chilled water is 5 ℃, increases the decline that the temperature difference then can cause the fan coil heat transfer efficiency.

As shown in Figure 3, described fan coil and new blower fan group are positioned at the room part, fan coil and new blower fan group arranged in series, realize the cascade utilization of cold or heat, be that chilled water enters new blower fan group again after the fan coil heat exchange, substitute traditional doublet architecture, reduce pump discharge and pipeline loss of refrigeration capacity.The fan coil of sending into each room by the refrigerating water pump pressurization from the freezing water outlet of evaporimeter outflow carries out heat exchange, and chilled water temperature rises to 12 ℃ from 7 ℃; Flow through again new blower fan group and the outdoor fresh air heat exchange of 12 ℃ chilled water is warming up to 15 ℃, thereby realizes the cascade utilization of cold.Chilled water heat exchange formula is:

Q＝q·c·ΔT

In the formula, Q is the heat exchange amount of chilled water;

C is the specific heat capacity of chilled water;

Δ T is the backwater temperature difference that of chilled water.

Obviously, increase Δ T value, can corresponding minimizing flow and reach identical chilled water heat exchange amount.Flow descends and has effectively reduced the power consumption of refrigerating water pump, and the loss of refrigeration capacity of chilled water distribution also has decline to a certain degree simultaneously.

Shown in Fig. 4,5, described ZigBee wireless sense network is made up of main control module, Fresnel Lenses signal conditioning circuit, ambient temperature sensor assembly, ZigBee-EIB modular converter, serial port module, power module, crystal oscillator module, RF circuit module, antenna, main control module CC2430 integrated chip links to each other with Fresnel Lenses signal conditioning circuit, ambient temperature sensor assembly, ZigBee-EIB modular converter, serial port module, power module, crystal oscillator module, RF circuit module respectively, and RF circuit module links to each other with antenna; Temperature sensor in the room is gathered the real-time room temperature of air-conditioning representative region, detect unmanned room in conjunction with the Fresnel Lenses pyroelectric infrared sensor, air-conditioning load is in real time imported PC by wireless sense network, PC changes frequency converter frequency by programmable logic controller (PLC), carries out the control of chilled water pump, cooling water pump and cooling tower rotation speed of the fan; The temperature sensor that install evaporimeter, condenser both sides is gathered the temperature of evaporimeter and condenser both sides, flow that install the water side of evaporimeter, condenser and pressure sensor are gathered flow, the pressure of chilled water pump and cooling water pump, the temperature of evaporimeter and condenser, flow, pressure are imported PC by programmable logic controller (PLC), change frequency converter frequency by programmable logic controller (PLC), carry out the control of chilled water pump, cooling water pump and cooling tower rotation speed of the fan.

Fresnel Lenses gathers the infrared ray of human body radiation on the pyroelectric infrared sensor, changes voltage into and is handled by signal conditioning circuit, and the signal after the processing is sent by the ZigBee wireless sending module, detects unmanned room.

The ZigBee network is made up of telegon, route, terminal three category nodes; A ZigBee network has only a telegon, telegon be responsible for whole ZigBee network establishment and with the communicating by letter of host computer; The data that route is responsible for waking up terminal, upload terminal merge and communicate by letter with host computer by the EIB bus; Terminal is distributed in each room, gathers the temperature in room and sends to route.When building are equipped with the EIB bus, route through the EIB-ZigBee modular converter by the EIB bus with transfer of data to host computer; When the EIB bus is not installed in the building, then information is transferred to telegon by the jump relay between each route, telegon transfers to host computer by serial ports.ZigBee job stream of network journey is as follows: enter duty after telegon powers on, allow route and terminal to add the ZigBee network.Whether the route that is positioned at the doorway, room detects the room by Fresnel Lenses the people: if the people is arranged, Fresnel Lenses produces a high level by signal conditioning circuit, route sends the temperature acquisition order to terminal, after receiving the information of waking up, terminal is gathered the temperature in room by temperature sensor, regularly be uploaded to route, route calculates the Current Temperatures in room by data anastomosing algorithm, is uploaded to host computer by EIB bus or telegon and serial ports again; If unmanned, then Fresnel Lenses produces a low level by signal conditioning circuit, and route is not sent any instruction to terminal; When last people leaves in the room, Fresnel Lenses by produce after the signal conditioning circuit one from high level to low level level saltus step, if still nobody enters between ten minutes back rooms, route is sent the order that stops to gather to terminal, and terminal reenters the resting state state.

Shown in Fig. 6,7,8, central air-conditioning control method based on wireless sense network is: the method for employing time synchronized is handled the return water temperature that of chilled water or cooling water, go out backwater temperature difference as controlled quentity controlled variable with time synchronized, adopt fuzzy feedback-control to regulate water pump and cooling tower rotation speed of the fan, provide corresponding cold or heat by terminal workload demand; Real-time room temperature based on wireless sense network is gathered air conditioning area detects unmanned room in conjunction with the Fresnel Lenses pyroelectric infrared sensor, promptly according to the real-time load and the load variations value of air-conditioning, implements the FEEDFORWARD CONTROL of chilled water pump, cooling water pump, rotation speed of the fan.

The temperature of freezing (but) water water outlet will be through after the circulation, its variations in temperature could reflect in backwater, in view of the intrinsic hysteresis characteristic of freezing (but) water system, estimate the lag time of freezing (but) water system in real time, carry out time synchronizing to going out return water temperature.

The return water temperature that goes out that the method for described employing time synchronized is handled chilled water or cooling water is:

Chilled water cycle period s (is time of day with the sampling period):

$J=|V-\underset{i=k}{\overset{k-s}{\mathrm{\Σ}}}{q}_i\mathrm{\Δt}|\→\min$

In the formula, V is the pipe capacity of chilled water;

q _iIt is the chilled-water flow of the i time sampling instant;

Δ t is the sampling period.

Cooling water cycle period s (is time of day with the sampling period):

$J=|V-\underset{i=k}{\overset{k-s}{\mathrm{\Σ}}}{q}_i\mathrm{\Δt}|\→\min$

In the formula, V is the pipe capacity of cooling water;

q _iIt is the cooling water flow of the i time sampling instant;

Δ t is the sampling period.

The time synchronized of the k time sampling instant chilled water goes out backwater temperature difference Δ T _kFor:

$\mathrm{\Δ}{T}_k\stackrel{\mathrm{\Δ}}{=}-T_{O(k-s)}+T_{I\left(k\right)}$

In the formula, k is the k time sampling instant;

S is the cycle period (is time of day with the sampling period) of chilled water;

T _{O (k-s)}It is chilled water cycle period of the k time sampling instant leaving water temperature before;

T _{I (k)}It is the chilled water return water temperature of the k time sampling instant.

The time synchronized of the k time sampling instant cooling water goes out backwater temperature difference Δ τ _kFor:

$\mathrm{\Δ}{\mathrm{\τ}}_k\stackrel{\mathrm{\Δ}}{=}{\mathrm{\τ}}_{O(k-s)}-{\mathrm{\τ}}_{I\left(k\right)}$

In the formula, k is the k time sampling instant;

S is the cycle period (is time of day with the sampling period) of cooling water;

τ _{O (k-s)}It is cooling water cycle period of the k time sampling instant leaving water temperature before;

τ _{I (k)}It is the cooling water return water temperature of the k time sampling instant.

The data structure that freezing (but) goes out the backwater temperature difference time synchronizing is as shown in table 1.What freezing (but) went out backwater time synchronized temperature difference sign is: (k-s) inferior sampling instant water outlet (water temperature T _{O (k-s)}) result---the k time sampling instant backwater (water temperature T after interacting with load _{I (k)}).T _{I (k)}Hysteresis T _{O (k-s)}Freezing (but) water cycle period (s sampling period), T _{O (k-s)}With T _{I (k)}What characterize is the operating mode of same time point.

Table 1 freezing (but) goes out backwater temperature difference time synchronizing data structure table

Sampling instant	Freezing (but) leaving water temperature	Freezing (but) return water temperature
			1	T O1	T I1
2	T O2	T I2
			......	......	......
k-s	T O(k-s)	T I(k-s)
			k-s+1	T O(k-s+1)	T I(k-s+1)
......	......	......
			k	T O(k)	T I(k)

Among the figure, T _{O (k-s)}It is cycle period of the k time sampling instant freezing (but) water leaving water temperature (as grey color part among the figure) before;

T _{I (k)}It is freezing (but) water return water temperature (as grey color part among the figure) of the k time sampling instant.

With time synchronized go out backwater temperature difference as controlled quentity controlled variable, adopt fuzzy feedback-control to regulate water pump and cooling tower rotation speed of the fan, provide corresponding cold or heat by terminal workload demand.

Described real-time room temperature of gathering air conditioning area based on wireless sense network, detect unmanned room in conjunction with the Fresnel Lenses pyroelectric infrared sensor, promptly according to the real-time load and the load variations value of air-conditioning, the FEEDFORWARD CONTROL of implementing water pump and cooling tower rotation speed of the fan is: the controlled quentity controlled variable of FEEDFORWARD CONTROL

For:

$\widetilde{u_k}=f\·[\mathrm{\α}\·\mathrm{\Δ}{\tilde{T}}_k+(1-\mathrm{\α})\·(\mathrm{\Δ}{\tilde{T}}_k-\mathrm{\Δ}{\tilde{T}}_{k-s})]$

In the formula, f is a frequency temperature difference proportionality coefficient, and room temperature departs from the area weighted volumes of setting value and the frequency converter frequency Hz of weighting variable quantity changes proportionality coefficient;

α is a weight coefficient, 0＜α＜1;

It is the area weighted volumes that the k time sampling instant room temperature departs from setting value;

It is the area weighting variable quantity that the k time sampling instant room temperature departs from setting value.

$\mathrm{\Δ}{\tilde{T}}_k\stackrel{\mathrm{\Δ}}{=}\frac{\underset{i=1}{\overset{n}{\mathrm{\Σ}}}(T_i-T_{26})S_i}{\underset{i\≠j}{\overset{n}{\underset{i=1}{\mathrm{\Σ}}}}{S}_i}$

In the formula, T _iIt is the room temperature of the k time sampling instant room i;

T ₂₆For setting room temperature, tentative 26 ℃ in the room of central air-conditioning;

S _iArea for room i;

N is for detecting the room number of real-time room temperature;

J is the sequence number in unmanned room.

FEEDBACK CONTROL and FEEDFORWARD CONTROL superposition are regulated the rotating speed of water pump and cooling tower fan in the frequency converter of water pump and cooling tower fan.

Freezing temperature difference adjuster adopts the single output of two inputs fuzzy feedback-control, and the input quantity of the k time sampling instant is: time synchronized freezing goes out backwater temperature difference and the freezing deviation value e that goes out the backwater setting temperature difference _k, and deviation value e _kChanging value de _k:

e _k＝ΔT _k-ΔT ₀

de _k＝e _k-e _k-1

In the formula, Δ T _kThe time synchronized that is the k time sampling instant chilled water goes out backwater temperature difference, referring to Fig. 6 explanation;

Δ T ₀Go out backwater and set the temperature difference for freezing, be set at 8 ℃ at this.

That central air-conditioning has is non-linear, the time varying characteristic of large time delay, close coupling, fuzzy control has obtained good application in central air conditioning system, the bright employing fuzzy feedback-control of the utility model thermoregulator is regulated water pump and fan frequency converter frequency, adjust discharge, realize energy-conservation to greatest extent; For guaranteeing that discharge is not less than minimum discharge, to set under the chilled water pump operating frequency and be limited to 25Hz, the sampling period is set at 4s.Input quantity e _kFuzzy processing such as following table.

Table 2 input quantity e _kFuzzy processing

e k(℃)	＜6	(6，7)	(7，9)	(9，10)	＞10
						Fuzzy quantity	NB	NS	ZE	PS	PB

Because the sampling period is 4s, temperature is the large time delay variable, and changing between double sampling not can be clearly, therefore to input quantity de _kOnly carry out positive and negative differentiation.

Fuzzy reasoning table is as shown in the table, u in the table _kCorresponding PB represents that frequency converter frequency increases 1Hz, and PS represents that frequency converter frequency increases 0.5Hz, and * represents that frequency converter frequency is constant, and NS represents that frequency converter frequency reduces 0.5Hz, and NB represents that frequency converter frequency reduces 1Hz.

Table 3 temperature difference fuzzy reasoning table

Freezing temperature difference adjuster adopts fuzzy control to obtain chilled-water flow regulated quantity u _k, u _kWith the FEEDFORWARD CONTROL amount

Superimposed, act on the chilled water pump frequency converter, regulate the chilled water pump operating frequency, control chilled water pump discharge.

The temperature τ at cooling water system condenser two ends _{I (k)}, τ _{O (k)}Feed back to thermoregulator, calculate the time synchronized temperature difference τ that cools off backwater _kSet temperature difference τ according to cooling off backwater ₀, cool off the time synchronized temperature difference τ of backwater _kThe coolant water temperature dropout regulator adopts the regulated quantity of fuzzy feedback-control cooling water flow, the Flow-rate adjustment amount superposition of the Flow-rate adjustment amount of cooling water FEEDBACK CONTROL and FEEDFORWARD CONTROL is regulated the cooling water pump operating frequency in the cooling water pump frequency converter, control cooling water pump discharge.The rotating speed of cooling tower fan rises, and cooling water system flow q rises.

The cooling range adjuster adopts the single output of two inputs fuzzy feedback-control, and the input quantity of the k time sampling instant is: the cooling of time synchronized goes out backwater temperature difference and cools off the deviation value e that backwater is set the temperature difference _k, and deviation value e _kChanging value de _k:

e _k＝Δτ _k-Δτ ₀

de _k＝e _k-e _k-1

In the formula, Δ τ _kThe time synchronized that is the k time sampling instant cooling water goes out backwater temperature difference, referring to Fig. 6 explanation;

Δ τ ₀Set the temperature difference for cooling off backwater, be set at 7 ℃ at this.

The bright employing fuzzy feedback-control of chilling temperature adjuster is regulated water pump, adjusts discharge, realizes energy-conservation to greatest extent; For guaranteeing that discharge is not less than minimum discharge, to set under the cooling water pump operating frequency and be limited to 25Hz, the sampling period is set at 4s.Input quantity e _kFuzzy processing such as following table.

Table 4 input quantity e _kFuzzy processing

e k(℃)	＜5	(5，6)	(6，8)	(8，9)	＞9
						Fuzzy quantity	NB	NS	ZE	PS	PB

Because the sampling period is 4s, temperature is the large time delay variable, and changing between double sampling not can be clearly, therefore to input quantity de _kOnly carry out positive and negative differentiation.

Fuzzy reasoning table is as shown in the table, u in the table _kCorresponding PB represents that frequency converter frequency increases 1Hz, and PS represents that frequency converter frequency increases 0.5Hz, and * represents that frequency converter frequency is constant, and NS represents that frequency converter frequency reduces 0.5Hz, and NB represents that frequency converter frequency reduces 1Hz.

Table 5 temperature difference fuzzy reasoning table

The cooling range adjuster adopts fuzzy control to obtain cooling water flow regulated quantity u _k, u _kWith the FEEDFORWARD CONTROL amount

(with chilled water FEEDFORWARD CONTROL amount) is superimposed, acts on cooling water pump, regulates cooling water pump, control cooling water pump discharge.

The output quantity of cooling range adjuster also acts on cooling tower fan frequency converter simultaneously, regulates cooling tower fan work frequency, control cooling tower rotation speed of the fan.

Claims (2)

1. central air conditioning system based on wireless sense network, it is characterized in that PC respectively with the ZigBee wireless sense network, programmable logic controller (PLC), air-conditioner host links to each other, the room is positioned at the ZigBee wireless sense network, programmable logic controller (PLC) respectively with first frequency converter, second frequency converter, the 3rd frequency converter, evaporation gauge, condensation sensor links to each other, first frequency converter links to each other with chilled water pump, chilled water pump successively with fan coil, new blower fan group, evaporimeter links to each other, evaporimeter respectively with evaporation gauge, chilled water pump links to each other, fan coil and new blower fan group are positioned at the room part, second frequency converter successively with cooling water pump, cooling tower links to each other, the 3rd frequency converter successively with the cooling tower fan, cooling tower links to each other, cooling tower links to each other with condenser, condenser respectively with condensation sensor, cooling water pump links to each other; Evaporation gauge comprises the temperature sensor of evaporimeter both sides installation and flow and the pressure sensor that install the evaporimeter water side, condensation sensor comprises the temperature sensor of condenser both sides installation and flow and the pressure sensor that install the condenser water side, districution temperature sensor, Fresnel Lenses pyroelectric infrared sensor in the room, evaporation gauge and condensation sensor directly send information to programmable logic controller (PLC), and the temperature sensor in the room, Fresnel Lenses pyroelectric infrared sensor send information to PC by the ZigBee wireless sense network.

2. a kind of central air conditioning system according to claim 1 based on wireless sense network, it is characterized in that described ZigBee wireless sense network is by main control module, the Fresnel Lenses signal conditioning circuit, the ambient temperature sensor assembly, the ZigBee-EIB modular converter, serial port module, power module, the crystal oscillator module, RF circuit module, antenna is formed, main control module CC2430 integrated chip respectively with the Fresnel Lenses signal conditioning circuit, the ambient temperature sensor assembly, the ZigBee-EIB modular converter, serial port module, power module, the crystal oscillator module, RF circuit module links to each other, and RF circuit module links to each other with antenna; Temperature sensor in the room is gathered the real-time room temperature of air-conditioning representative region, detect unmanned room in conjunction with the Fresnel Lenses pyroelectric infrared sensor, air-conditioning load is in real time imported PC by wireless sense network, PC changes frequency converter frequency by programmable logic controller (PLC), carries out the control of chilled water pump, cooling water pump and cooling tower rotation speed of the fan; The temperature sensor that install evaporimeter, condenser both sides is gathered the temperature of evaporimeter and condenser both sides, flow that install the water side of evaporimeter, condenser and pressure sensor are gathered flow, the pressure of chilled water pump and cooling water pump, the temperature of evaporimeter and condenser, flow, pressure are imported PC by programmable logic controller (PLC), change frequency converter frequency by programmable logic controller (PLC), carry out the control of chilled water pump, cooling water pump and cooling tower rotation speed of the fan.

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