CN204830360U - Based on dividing regional load energy dynamic relocation system - Google Patents

Abstract

The utility model discloses a that real based on dividing regional load energy dynamic relocation system includes: the control unit, ability allocation of resource appearance, return water temperature sensor, water supply pressure sensor, secondary circulating pump, water supply branch is last to be installed secondary circulating pump and water supply pressure sensor install on the branch pipe of refrigerated water water collector return water temperature sensor, return water temperature sensor, water supply pressure sensor with the control unit links to each other, can the allocation of resource appearance respectively with secondary circulating pump, the control unit link to each other. The utility model discloses an adjust the discharge on the freezing water supply branch pipe in every way, every divides regional cooling load to change air conditioning system, and the accurate rational distribution in cold (heat) the source of air conditioner gives terminally, reduces system energy consumption.

Description

Based on subregion load energy dynamic reallocation system

Technical field

The utility model relates to energy-conserving and environment-protective technical field, refers to especially based on subregion load energy dynamic reallocation system.

Background technology

Along with expanding economy, growth in the living standard, people require also more and more higher to living environment.And reality is, water pollutions, atmosphere pollution are all more serious.Country advocates energy-saving and emission-reduction energetically, and low carbon ring is protected.Air conditioner industry is as building energy consumption eldest child, and the energy-conservation upgrading of itself reduces discharging particularly important to response national energy-saving.Central air-conditioning technical performance is complicated, and the continuous increase of maintenance service maintenance project, management work is unartificial can be dealt with.Therefore, use computer control software to carry out central air conditioner room equipment and automatically control and monitoring, become the most important management means of central air-conditioning.It can be a large amount of saving manpower, the energy, reduction equipment failure rate, improve equipment operating efficiency, extension device service life, reduce and safeguard and operation costs, improve central air-conditioning overall operation managerial skills.

The centralized management of central air conditioner room is even more important, and especially current central air conditioner room robot control system(RCS) energy distribution ratio is more extensive, and the energy distributes uneven, and control specifically distinguishes each branch road end load difference.This is undoubtedly a unfavorable factor to the safe operation of economize energy and machine room.

Utility model content

The purpose of this utility model is to solve the above problems, there is provided a kind of use computer control software to central air conditioner room equipment carry out automatically control based on subregion load energy dynamic reallocation system, the program comprises: control unit, the energy distributes instrument, return water temperature sensor, pressure of supply water sensor, secondary cycle pump, water supply branch road is provided with described secondary cycle pump and pressure of supply water sensor, the arm of chilled water water collector is provided with described return water temperature sensor, described return water temperature sensor, pressure of supply water sensor is connected with described control unit, the described energy distribute instrument respectively with described secondary cycle pump, control unit is connected.

As preferably, describedly also comprise based on subregion load energy dynamic reallocation system the first temperature sensor be arranged on water main.

As preferably, describedly also comprise based on subregion load energy dynamic reallocation system the first pressure sensor that chilled water water collector is installed.

As preferably, describedly also comprise based on the subregion load energy dynamic reallocation system check-valves that water supply branch road is installed.

As preferably, describedly also comprise based on the subregion load energy dynamic reallocation system Pressure gauge that chilled water water collector is installed.

The utility model has following beneficial effect: by regulating the discharge on the freezing water supply arm in every road, and change air-conditioning system each subregional for refrigeration duty, the accurate reasonable distribution in air-conditioning cold (heat) source, to end, reduces system energy consumption.

Accompanying drawing explanation

Fig. 1 is the principle schematic based on subregion load energy dynamic reallocation system;

Fig. 2 freezes water water collector schematic diagram;

Fig. 3 is water supply branch road schematic diagram;

Fig. 4 is water main's schematic diagram;

1, control unit; 2, the energy distributes instrument; 3, return water temperature sensor; 4, pressure of supply water sensor; 5, secondary cycle pump; 6, the first temperature sensor; 7, the first pressure sensor; 8, Pressure gauge; 9, check-valves.

Detailed description of the invention

Below in conjunction with specific embodiment, and by reference to the accompanying drawings, the technical solution of the utility model is further described:

As shown in Figure 1, distribute instrument 2 based on the described control unit 1 of subregion load energy dynamic reallocation system with the described energy to be connected.

As Fig. 2, every road arm of machine room water collector is provided with return water temperature sensor 3, water collector is installed the first pressure sensor 7.

As Fig. 3, every road water supply arm is provided with secondary cycle pump 5 and pressure of supply water sensing 4.

As Fig. 4, central air conditioner system computer-room air conditioning system water main is provided with the first temperature sensor 6.

Described control unit 1 is connected 7 with return water temperature sensor 3, pressure of supply water sensor 4, first temperature sensor 6, first pressure sensor, and the described energy distributes instrument 2 and is connected with described secondary cycle pump 5.

Pressure of supply water sensing 4 and return water temperature sensor 3 send testing result to control unit 1, described control unit 1 judges the size of each region load according to the pressure of supply water signal on the return water temperature signal on the arm of every road and every road arm, thus determines the freezing water supply flow on the arm of every road; Then described control unit 1 outputs signal to energy distribution instrument 2 and then acts on chilled water secondary cycle pump 5 on branch road, and described secondary cycle pump 5, by regulating the discharge on the freezing water supply arm in every road, changes air-conditioning system each subregional for refrigeration duty.

Above-mentioned detailed description of the invention is used for explaining and the utility model is described; instead of the utility model is limited; in the protection domain of spirit of the present utility model and claim, any amendment make the utility model and change, all fall into protection domain of the present utility model.

Claims (5)

1. based on subregion load energy dynamic reallocation system, it is characterized in that comprising: control unit (1), the energy distributes instrument (2), return water temperature sensor (3), pressure of supply water sensor (4), secondary cycle pump (5), water supply branch road is provided with described secondary cycle pump (5) and pressure of supply water sensor (4), the arm of chilled water water collector is provided with described return water temperature sensor (3), described return water temperature sensor (3), pressure of supply water sensor (4) is connected with described control unit (1), the described energy distribute instrument (2) respectively with described secondary cycle pump (5), control unit (1) is connected.

2. according to according to claim 1 based on subregion load energy dynamic reallocation system, it is characterized in that: also comprise the first temperature sensor (6) be arranged on water main.

3. according to according to claim 1 based on subregion load energy dynamic reallocation system, it is characterized in that: also comprise the first pressure sensor (7) that chilled water water collector is installed.

4. according to according to claim 1 based on subregion load energy dynamic reallocation system, it is characterized in that: also comprise the check-valves (9) that water supply branch road is installed.

5. according to according to claim 1 based on subregion load energy dynamic reallocation system, it is characterized in that: also comprise the Pressure gauge (8) that chilled water water collector is installed.