CN205137797U - Computer lab team control device based on overall situation is related to be optimized - Google Patents

Abstract

The utility model discloses a computer lab team control device based on overall situation is related to be optimized, including central team control device, pump control device, cooling tower controlling means, cooling water set communication device and air -handling unit controlling means, pump control device, cooling tower controlling means, cooling water set communication device and air -handling unit controlling means all are connected with central team control device, central authorities' team control device built -in industrial computer, industry switch and central processing unit, cooling water set communication device connects cold water unit control device, and cold water unit control device includes the fourth controller, the utility model discloses can make central air -conditioning system move with best efficiency under the prerequisite of guaranteeing the application performance demand, reach the optimization purpose of lowering system total energy consumption, realize that the energy effectively utilizes and realize energy -conserving effect.

Description

A kind of machine room group control device optimized based on global association

Technical field

The utility model relates to central air-conditioning Automated condtrol and field of energy-saving technology, is specifically related to a kind of machine room group control device optimized based on global association.

Background technology

Current people are when Green is built, and the wisdom constantly playing the mankind is from science, management, aspect set off in search new material and the new technology such as energy-conservation; Wherein, handpiece Water Chilling Units central air conditioner system is as the important component part of building system, its proportion accounting for whole building system energy power consumption is very large, according to statistics, the energy resource consumption of building trade accounts for 30% of national total energy consumption, and air-conditioning system institute consuming electric power accounts for 60% ~ 70% of whole building power consumption, accounts for the total power consumption about 18% of full building system, along with the demand of Humanizing of architecture service, this numeral also can constantly increase; So huge power consumption not only brings huge pressure to power system, also brings heavy financial burden to user simultaneously; Therefore, the energy-conservation of handpiece Water Chilling Units central air conditioner system saves business electrical expenditure to the power consumption of reduction building system, and optimizing State Grid's structure has very important meaning and function; With regard to any architectural design, for making air-conditioning system can ensure the refrigeration requirement of building interior at annual arbitrary period, be all choose type by about 115% of the refrigeration demand needed for the most hot weather in locality when selecting air-conditioning system; Due in the running of central air-conditioning, main frame, water pump, cooling tower etc. all without any fluctuant loading ability, thus cause air-conditioning to run under higher operating mode for a long time, cause a large amount of energy wastes.

In the running of handpiece Water Chilling Units central air-conditioning, the flow of water pump and shaft power are constant outputs, are namely in peak load state always, waste more energy; Particularly in spring and summer and autumn and winter in excessive season, the output load of handpiece Water Chilling Units declines to a great extent, and the load of water pump can not correspondingly decrease, and forms the little temperature difference phenomenon of large discharge, waste electric energy; If but implement pump variable frequency control, the energy consumption of water pump reduces, and the deleterious of handpiece Water Chilling Units, cause efficiency of refrigerator COP (refrigerating efficiency) value to decline, handpiece Water Chilling Units energy consumption rises.

Utility model content

The utility model provides a kind of machine room team control control device optimized based on global association.

The technical solution adopted in the utility model is: a kind of machine room group control device optimized based on global association, comprises central group control device, pump control unit, cooling tower control device, handpiece Water Chilling Units communication device and air-treatment unit control device; Described pump control unit, cooling tower control device, handpiece Water Chilling Units communication device are all connected with central group control device with air-treatment unit control device; The built-in industrial computer of described central group control device, industrial switch and central processing unit; Built-in first controller of described pump control unit and the first intelligent electric meter; The built-in second controller of described cooling tower control device and the second intelligent electric meter; Built-in 3rd controller of described air-treatment unit control device and the 3rd intelligent electric meter; The built-in building energy protocol gateway of described handpiece Water Chilling Units communication device; Handpiece Water Chilling Units communication device connects handpiece Water Chilling Units control device, and handpiece Water Chilling Units control device comprises the 4th controller;

The embedded operating conditions logic of described first controller; Described central group control device receives the first controller, second controller, the 3rd controller and the 4th controller uploading data; Central authorities' group control device collecting temperature, pressure and data on flows; Central authorities' group control device sends the data to the first controller according to operating mode logic control water pump operation; Water pump current operating parameter sends to central group control device to complete global association by the first controller.

Further, described central group control device connects the 4th controller by building energy protocol gateway.

Further, described pump control unit also includes pump variable frequency device, and pump variable frequency device connects the first controller.

The beneficial effects of the utility model are:

(1) the utility model Auto-matching meets the energy optimization duty parameter of current system refrigeration demand, and automatically the operation conditions of handpiece Water Chilling Units in system and water pump is adjusted according to this energy optimization duty parameter, under the prerequisite ensureing application performance demand, handpiece Water Chilling Units central air conditioner system is run with optimum efficiency, reaches the optimization object of reduction system total energy consumption;

(2) the utility model is by judging that the general power of system judges whether increase or subtract to stop refrigeration host computer, chilled water pump, cooling water pump and blower fan of cooling tower, thus the energy is effectively utilized and realizes energy-conservation effect;

(3) the utility model is by judging that the situation of indoor temperature carrys out interconnected system overall situation equipment, thus realizes global association control and management.

Accompanying drawing explanation

Fig. 1 is the utility model apparatus system block diagram.

Fig. 2 is the utility model apparatus structure schematic diagram.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described further.

Based on the machine room group control device that global association is optimized, comprise central group control device, pump control unit, cooling tower control device, handpiece Water Chilling Units communication device and air-treatment unit control device; Described pump control unit, cooling tower control device, handpiece Water Chilling Units communication device are all connected with central group control device with air-treatment unit control device; The built-in industrial computer of described central processing unit, industrial switch and central processing unit; Built-in first controller of described pump control unit and the first intelligent electric meter; The built-in second controller of described cooling tower control device and the second intelligent electric meter; Built-in 3rd controller of described air-treatment unit control device and the 3rd intelligent electric meter; The built-in building energy protocol gateway of described handpiece Water Chilling Units communication device; Handpiece Water Chilling Units communication device connects handpiece Water Chilling Units control device, and handpiece Water Chilling Units control device comprises the 4th controller;

The embedded operating conditions logic of described first controller; Described central group control device receives the first controller, second controller, the 3rd controller and the 4th controller uploading data; Central authorities' group control device collecting temperature, pressure and data on flows; Central authorities' group control device sends the data to the first controller according to operating mode logic control water pump operation; Water pump current operating parameter sends to central group control device to complete global association by the first controller; Water pump operation parameter is sent to central group control device by the first controller, fan operation data are sent to central group control device by second controller, fan operation, wind pushing temperature and water valve aperture data are sent to central group control device by the 3rd controller, and the 4th controller gathers data unit operation and carries out protocol analysis by building energy protocol gateway; Industrial computer is responsible for history data store, data analysis, Controlling model foundation and human-computer dialogue etc.; Central processing unit is responsible for global association, energy optimization, core parameter collection and protocol analysis etc.; Pump control unit is responsible for freezing, cooling water pump parameter acquisition, operating state monitoring, core parameter protection etc.; The monitoring of blower fan of cooling tower operating state is responsible for by cooling tower control device; Air-treatment unit is responsible for fan operation condition monitoring, temperature acquisition and water valve parameter acquisition etc.

Further technical scheme is, central group control device connects the 4th controller by building energy protocol gateway, by ModbusRTU protocol between central group control device and building energy protocol gateway; Described central group control device and the first controller, between second controller and the 3rd controller all by ModbusTCP/IP protocol; Described first controller is by ModbusRTU protocol integrated test system first intelligent electric meter; Described second controller is by ModbusRTU protocol integrated test system second intelligent electric meter; Described 3rd controller is by ModbusRTU protocol integrated test system the 3rd intelligent electric meter;

Further technical scheme is, described pump control unit is provided with pump variable frequency device, and pump variable frequency device connects the first controller; Described first controller is by ModbusRTU protocol integrated test system pump variable frequency device; When first controller receives the controling parameters of central processing unit transmission, by ModbusRTU protocol integrated test system pump variable frequency device, thus realize the control of temperature, flow and pressure; Pump energy consumption parameter is gathered by intelligent electric meter, then sends to the first controller by ModbusRTU agreement, finally sends to central group control device to carry out the process of global association Optimal Parameters.

Based on the machine room group control device control method that global association is optimized, comprise the following steps:

A, NS model is utilized to carry out simulation calculation, component database;

B, access time territory ∫ t as control cycle, according to temperature T in air-treatment unit plenum chamber ₀control air-treatment unit water valve aperture;

C, according to operating conditions logic, carry out stability contorting;

D, by operational factor uploading data storehouse in time-domain ∫ t;

Operation energy consumption optimized parameter in time-domain ∫ t in E, selection database;

F, send each parameter to operation that the first controller, second controller, the 3rd controller and the 4th controller control each equipment;

G, choose next time-domain, repeat step B-F.

Further technical scheme is, described operating conditions logic comprises:

1) return water temperature control logic, with freezing return main temperature T _d1or cooling water main temperature T _q2for control objectives;

2) cold and hot amount control logic is equal to control objectives with the energy variation of cold side or freezing side;

3) temperature pressure reduction serials control logic, the absolute value controlling each back-flowing and branched pressure differential of freezing side is graded pressure difference; The difference controlling each back-flowing and branched temperature of freezing side is zero.

Further technical scheme is, described air-treatment unit water valve aperture control method is as follows:

Get time-domain ∫ _t, air-treatment unit water valve aperture V is divided into 10 sections, and every section of water valve aperture is 10%, and air-treatment unit plenum chamber temperature is T ₀, indoor temperature is T ₁;

T ₁> T ₀for t ₀moment, t ₀during the moment, water valve aperture rises 1 section;

T ₁< T ₀for t ₁moment, t ₁during the moment, water valve aperture declines 1 section;

60%≤V≤90% is t ₃moment, t ₃regulating chilled-water flow during the moment, regulating by regulating chilled water pump frequency;

V < 60% is t ₄moment, t ₄reduce cooling water flow during the moment, water pump reduces one;

T ₃during the moment, the freezing Inlet and outlet water mean temperature T of handpiece Water Chilling Units _s, cooling Inlet and outlet water mean temperature T ₀, outdoor temperature T _h, cooling backwater temperature T _b; Blower fan of cooling tower is according to return water temperature T _bcarry out number of units selection, cooling water pump frequency (frequency is higher, and energy consumption is larger) is according to T ₀regulate.

Further technical scheme is, operation energy consumption W _alwayscomputational methods are as follows:

W _always=W _{handpiece Water Chilling Units}+ W _{water pump}+ W _{cooling tower}+ W _{air-treatment unit}

In formula: W _{handpiece Water Chilling Units}for the energy consumption of handpiece Water Chilling Units, W _{water pump}for pump energy consumption, W _{cooling tower}for cooling tower energy consumption, W _{air-treatment unit}for air-treatment unit energy consumption; Central air conditioner system energy consumption is made up of handpiece Water Chilling Units, water pump, blower fan of cooling tower and air-treatment unit, and handpiece Water Chilling Units consumes as system maximum energy consumption, headed by it is optimized; t ₃during the moment, the freezing Inlet and outlet water mean temperature T of handpiece Water Chilling Units _s, cooling Inlet and outlet water mean temperature T ₀, handpiece Water Chilling Units energy consumption and T _sand T ₀difference relevant; Chilled water pump energy consumption is relevant with refrigerating capacity Q, namely with T _srelevant, cooling water pump energy consumption and T ₀relevant, air-treatment unit energy consumption is constant in optimizing space,

Further technical scheme is, described handpiece Water Chilling Units Calculation Method of Energy Consumption is as follows:

$W=\underset{i=0}{\overset{2}{\&Sigma;}}\underset{j=0}{\overset{2}{\&Sigma;}}{D}_{ij}{\left(Ts\right)}^i{\left(To\right)}^j$

In formula: T _sfor freezing Inlet and outlet water mean temperature, T _ofor cooling Inlet and outlet water mean temperature.

Further technical scheme is, described pump energy consumption computational methods are as follows:

W＝K _s1T _s+K _s2T ₀

In formula: T _sfor freezing Inlet and outlet water mean temperature, T _ofor cooling Inlet and outlet water mean temperature.

The utility model under the prerequisite ensureing application performance demand, can make central air conditioner system run with optimum efficiency, reaches the optimization object of reduction system total energy consumption, realize the energy and effectively utilize and realize energy-saving effect.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (3)

1., based on the machine room group control device that global association is optimized, it is characterized in that: comprise central group control device, pump control unit, cooling tower control device, handpiece Water Chilling Units communicator and air-treatment unit control device; Described pump control unit, cooling tower control device, handpiece Water Chilling Units communicator are all connected with central group control device with air-treatment unit control device; The built-in industrial computer of described central group control device, industrial switch and central processing unit; Built-in first controller of described pump control unit and the first intelligent electric meter; The built-in second controller of described cooling tower control device and the second intelligent electric meter; Built-in 3rd controller of described air-treatment unit control device and the 3rd intelligent electric meter; The built-in building energy protocol gateway of described handpiece Water Chilling Units communicator; Handpiece Water Chilling Units communication device connects handpiece Water Chilling Units control device, and handpiece Water Chilling Units control device comprises the 4th controller;

The embedded operating conditions logic of described first controller; Described central group control device receives the first controller, second controller, the 3rd controller and the 4th controller uploading data; Central authorities' group control device sends the data to the first controller according to operating mode logic control water pump operation; Water pump current operating parameter sends to central group control device to complete global association by the first controller.

2. a kind of machine room group control device optimized based on global association according to claim 1, is characterized in that: described central group control device connects the 4th controller by building energy protocol gateway.

3. a kind of machine room group control device optimized based on global association according to claim 1, it is characterized in that: described pump control unit is provided with pump variable frequency device, pump variable frequency device connects the first controller.