CN107367972A - A kind of good architectural energy saving system of energy-saving effect - Google Patents

Abstract

The invention provides a kind of good architectural energy saving system of energy-saving effect, including Building Energy Analysis subsystem, architectural environment acquisition subsystem and building energy conservation subsystem, the Building Energy Analysis subsystem is used to analyze building energy consumption situation, the architectural environment acquisition subsystem is used to gather the ambient parameter in building, the building energy conservation subsystem carries out Energy Saving Control according to the ambient parameter in building energy consumption situation and building to building, including transport module and control module, the transport module is connected with Building Energy Analysis subsystem and architectural environment acquisition subsystem, for obtaining building energy consumption situation and ambient parameter, the control module is controlled according to building energy consumption situation and ambient parameter to the energy consumption equipment in building.Beneficial effects of the present invention are：Energy Saving Control is carried out to building by building energy consumption situation and ambient parameter, energy-saving effect is notable.

Description

A kind of good architectural energy saving system of energy-saving effect

Technical field

The present invention relates to building field, and in particular to a kind of good architectural energy saving system of energy-saving effect.

Background technology

Important component of the building energy consumption as energy resource consumption, account for the toatl proportion of energy resource consumption increases year by year, how section Effectively promote Building Energy-saving Work, goes back neither one total solution.

The content of the invention

A kind of in view of the above-mentioned problems, the present invention is intended to provide good architectural energy saving system of energy-saving effect.

The purpose of the present invention is realized using following technical scheme：

Provide a kind of good architectural energy saving system of energy-saving effect, including Building Energy Analysis subsystem, architectural environment Acquisition subsystem and building energy conservation subsystem, the Building Energy Analysis subsystem are used to analyze building energy consumption situation, The architectural environment acquisition subsystem is used to gather the ambient parameter in building, and the building energy conservation subsystem is according to building energy Ambient parameter in consumption situation and building carries out Energy Saving Control, including transport module and control module, the transmission to building Module is connected with Building Energy Analysis subsystem and architectural environment acquisition subsystem, for obtaining building energy consumption situation and environment ginseng Number, the control module are controlled according to building energy consumption situation and ambient parameter to the energy consumption equipment in building.

Beneficial effects of the present invention are：Energy Saving Control, energy-conservation are carried out to building by building energy consumption situation and ambient parameter Significant effect.

Brief description of the drawings

Using accompanying drawing, the invention will be further described, but the embodiment in accompanying drawing does not form any limit to the present invention System, for one of ordinary skill in the art, on the premise of not paying creative work, can also be obtained according to the following drawings Other accompanying drawings.

Fig. 1 is the structural representation of the present invention；

Reference：

Building Energy Analysis subsystem 1, architectural environment acquisition subsystem 2, building energy conservation subsystem 3.

Embodiment

The invention will be further described with the following Examples.

Referring to Fig. 1, a kind of good architectural energy saving system of energy-saving effect of the present embodiment, including Building Energy Analysis subsystem System 1, architectural environment acquisition subsystem 2 and building energy conservation subsystem 3, the Building Energy Analysis subsystem 1 are used for building energy Consumption situation is analyzed, and the architectural environment acquisition subsystem 2 is used to gather the ambient parameter in building, the building energy conservation Subsystem 3 according to the ambient parameter in building energy consumption situation and building to building carry out Energy Saving Control, including transport module and Control module, the transport module is connected with Building Energy Analysis subsystem 1 and architectural environment acquisition subsystem 2, for obtaining Building energy consumption situation and ambient parameter, the control module is according to building energy consumption situation and ambient parameter to the energy consumption in building Equipment is controlled.

The present embodiment carries out Energy Saving Control by building energy consumption situation and ambient parameter to building, and energy-saving effect is notable.

Preferably, the environment acquisition subsystem 2 is set including temperature acquisition equipment, humidity collection equipment, illuminance collection Standby and gas concentration lwevel collecting device.

The ambient parameter that this preferred embodiment obtains is comprehensive, improves the science of Energy Saving Control.

Preferably, the temperature acquisition equipment is contact type temperature sensor.

This preferred embodiment arrangement of temperature sensor is simple, measurement accuracy is high.

Preferably, the Building Energy Analysis subsystem 1 includes single treatment module, after-treatment module, handled three times Module and four processing modules, the single treatment module are used to building energy consumption being divided into heating energy consumption and non-heating energy consumption, institute It is to be heated and caused energy consumption for building to state heating energy consumption, and the non-heating energy consumption is building consumption in addition to heating All energy consumptions, the after-treatment module be used for obtain building energy consumption data, the processing module three times be used for obtain Building energy consumption data handled, four processing modules be used for building energy consumption situation is divided according to result Analysis；

The after-treatment module includes first information acquisition submodule, the second statistic submodule and the 3rd building monitoring Module, the first information acquisition submodule be used for obtain building essential information, the essential information include construction area and Architecture storey, second statistic submodule are used for the heating energy consumption for obtaining building, and the 3rd building monitoring submodule is used for Obtain the non-heating energy consumption of building.

Building energy consumption is divided into heating energy consumption and non-heating energy consumption by this preferred embodiment single treatment module, is easy to south Building and summer do not need heating when situation make a distinction, improve Building Energy Analysis efficiency, realize building energy consumption Scientific analysis；After-treatment module obtains essential information, heating energy consumption and the non-heating energy consumption of building, is handled for follow-up data Laid a good foundation with energy consumption analysis.

Preferably, the processing module three times includes building energy consumption preliminary treatment submodule and building energy consumption after-treatment Module, the building energy consumption preliminary treatment submodule carry out preliminary treatment to the energy consumption data of building, and the building energy consumption is secondary Submodule is handled to be used to carry out after-treatment to the energy consumption data of building according to preliminary processing results；

Preliminary treatment is carried out to the energy consumption data of the building in the following ways：According to the confession of architecture storey and building Warm energy consumption and non-heating energy consumption calculate the individual layer heating energy consumption and the non-heating energy consumption of individual layer of building, according to construction area and building Heating energy consumption and non-heating energy consumption calculate building unit area heating energy consumption and the non-heating energy consumption of unit area；

After-treatment is carried out to the energy consumption data of the building, including after-treatment is carried out to the energy consumption data of single building After-treatment is carried out with the energy consumption data to groups of building；

After-treatment is carried out to the energy consumption data of described single building in the following ways：Establish single building energy consumption because Son：In formula, M represents the number of floor levels of building, and PJ represents the single building energy consumption factor, z₁ Represent the individual layer heating energy consumption of building, z₂Represent the non-heating energy consumption of individual layer of building.

After-treatment is carried out to the energy consumption data of the groups of building in the following ways, is specially：A, the first energy consumption is established The factor：In formula, N represents the asd number of groups of building, and RU represents groups of building The first Energy consumption factor, x_iRepresent the unit area heating energy consumption of i-th building, y_iRepresent the unit area heating of i-th building Energy consumption；

B, the second Energy consumption factor is established：In formula In, MH represents the second Energy consumption factor of groups of building, S_iRepresent the construction area of i-th building；

C, groups of building Energy consumption factor is calculated according to the first Energy consumption factor and the second Energy consumption factor：DT=m³×(RU+MH)× Ln (RU+MH+1), in formula, DT represents groups of building Energy consumption factor, and m represents the area factor of groups of building.

This preferred embodiment three times analyze the energy consumption of single building and groups of building by processing module, improves and builds Build the scope of application and the field of energy consumption analysis system；By establishing the single building energy consumption factor, it is established that building energy consumption and floor Relation, can more intuitively to single building energy consumption analyze；By establishing groups of building Energy consumption factor to groups of building Energy consumption is analyzed, and analysis result is more directly perceived accurate, specifically, groups of building Energy consumption factor according to the first Energy consumption factor and Second Energy consumption factor obtains, and the first Energy consumption factor considers the average energy consumption situation of building, and the second Energy consumption factor considers building Construction area weight situation, by introducing area factor, improve the stability and reliability of groups of building Energy consumption factor.

Preferably, the area factor of the groups of building is obtained in the following ways：A, heated according to the unit area of building Energy consumption and the non-heating energy consumption of unit area calculate the unit area total energy consumption of each building；Remove construction unit area total energy consumption number Maximum and minimum value in, the unit area total energy consumption w that will be obtained₍₁₎,w₍₂₎,…,w_(N-2)According to descending order；

B, the initial value of area factor is set：W '=me { w_(i)| i=1,2 ..., N-2 }, in formula, w ' expression areas The initial value of the factor, me { w_(i)| i=1,2 ..., N-2 } represent to take w_(i)Median；A, w ' is updated, updated Area factor：In formula, m represents the updated value of area factor, w '_(i)According to w_(i)Calculate：Wherein, σ '=me | w_(i)- w ' | | i=1,2 ..., N-2 }, me {|w_(i)- w ' | | i=1,2 ..., N-2 } represent to take | w_(i)- w ' | median.

This preferred embodiment eliminates influence of the Outliers to area factor, led to by being rejected to Outliers Cross and area factor is updated, reduce influence of the outlier to result, can more truly reflect building energy consumption reality Situation.

Preferably, the building energy consumption situation is analyzed in the following ways：Groups of building Energy consumption factor is smaller, shows The energy consumption of groups of building is smaller, and the single building energy consumption factor is smaller, shows that single building energy consumption is smaller.

Four processing modules of this preferred embodiment are according to the single building energy consumption factor and groups of building Energy consumption factor to building energy Consumption situation is analyzed, and realizes the efficient analysis of building energy consumption, and strong support is provided for building energy conservation.

Administration of energy conservation is carried out to 5 district structures using the good architectural energy saving system of energy-saving effect of the present invention, is designated as small Area 1, cell 2, cell 3, cell 4, cell 5, are counted to cell energy consumption and user satisfaction, compared with building energy conservation System is compared, caused to have the beneficial effect that shown in table：

	Energy consumption is reduced	User satisfaction improves
			Residential quarters 1	29%	21%
Residential quarters 2	27%	23%
			Residential quarters 3	26%	25%
Residential quarters 4	25%	27%
			Residential quarters 5	24%	29%

Finally it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than the present invention is protected The limitation of scope is protected, although being explained with reference to preferred embodiment to the present invention, one of ordinary skill in the art should Work as understanding, technical scheme can be modified or equivalent substitution, without departing from the reality of technical solution of the present invention Matter and scope.

Claims (7)

1. the good architectural energy saving system of a kind of energy-saving effect, it is characterised in that including Building Energy Analysis subsystem, building ring Border acquisition subsystem and building energy conservation subsystem, the Building Energy Analysis subsystem are used to divide building energy consumption situation Analysis, the architectural environment acquisition subsystem are used to gathering ambient parameter in building, and the building energy conservation subsystem is according to building Build the ambient parameter in energy consumption and building and Energy Saving Control, including transport module and control module are carried out to building, it is described Transport module is connected with Building Energy Analysis subsystem and architectural environment acquisition subsystem, for obtaining building energy consumption situation and ring Border parameter, the control module are controlled according to building energy consumption situation and ambient parameter to the energy consumption equipment in building.

2. the good architectural energy saving system of energy-saving effect according to claim 1, it is characterised in that environment collection System includes temperature acquisition equipment, humidity collection equipment, illuminance collecting device and gas concentration lwevel collecting device.

3. the good architectural energy saving system of energy-saving effect according to claim 2, it is characterised in that the temperature acquisition is set Standby is contact type temperature sensor.

4. the good architectural energy saving system of energy-saving effect according to claim 3, it is characterised in that the building energy consumption point Analysing subsystem includes single treatment module, three times after-treatment module, processing module and four processing modules, the single treatment Module is used to building energy consumption being divided into heating energy consumption and non-heating energy consumption, and the heating energy consumption produces to be heated for building Energy consumption, the non-heating energy consumption is all energy consumptions in addition to heating of building consumption, and the after-treatment module is used for The energy consumption data of building is obtained, the processing module three times is used to handle the building energy consumption data of acquisition, described four times Processing module is used to analyze building energy consumption situation according to result；

The after-treatment module includes first information acquisition submodule, the second statistic submodule and the 3rd building monitoring submodule Block, the first information acquisition submodule are used for the essential information for obtaining building, and the essential information includes construction area and built Floor is built, second statistic submodule is used for the heating energy consumption for obtaining building, and the 3rd building monitoring submodule is used to obtain Take the non-heating energy consumption of building.

5. the good architectural energy saving system of energy-saving effect according to claim 4, it is characterised in that described to handle mould three times Block includes building energy consumption preliminary treatment submodule and building energy consumption after-treatment submodule, the building energy consumption preliminary treatment submodule Block carries out preliminary treatment to the energy consumption data of building, and the building energy consumption after-treatment submodule is used for according to preliminary processing results After-treatment is carried out to the energy consumption data of building；

Preliminary treatment is carried out to the energy consumption data of the building in the following ways：According to architecture storey and the heating energy of building Consumption and non-heating energy consumption calculate the individual layer heating energy consumption and the non-heating energy consumption of individual layer of building, according to the confession of construction area and building Warm energy consumption and non-heating energy consumption calculate the unit area heating energy consumption and the non-heating energy consumption of unit area of building；

Carry out after-treatment to the energy consumption data of the building, including after-treatment and right is carried out to the energy consumption data of single building The energy consumption data of groups of building carries out after-treatment；

After-treatment is carried out to the energy consumption data of described single building in the following ways：Establish the single building energy consumption factor：In formula, M represents the number of floor levels of building, and PJ represents the single building energy consumption factor, z₁Table Show the individual layer heating energy consumption of building, z₂Represent the non-heating energy consumption of individual layer of building；

After-treatment is carried out to the energy consumption data of the groups of building in the following ways, is specially：A, the first Energy consumption factor is established：In formula, N represents the asd number of groups of building, and RU represents the first of groups of building Energy consumption factor, x_iRepresent the unit area heating energy consumption of i-th building, y_iRepresent the unit area heating energy consumption of i-th building；

B, the second Energy consumption factor is established：In formula, MH Represent the second Energy consumption factor of groups of building, S_iRepresent the construction area of i-th building；

C, groups of building Energy consumption factor is calculated according to the first Energy consumption factor and the second Energy consumption factor：DT=m³×(RU+MH)×ln(RU+ MH+1), in formula, DT represents groups of building Energy consumption factor, and m represents the area factor of groups of building.

6. the good architectural energy saving system of energy-saving effect according to claim 5, it is characterised in that obtain in the following ways Take the area factor of the groups of building：A, calculated according to the non-heating energy consumption of unit area heating energy consumption and unit area of building each Building unit area total energy consumption；The maximum and minimum value in construction unit area total energy consumption data are removed, by what is obtained Unit area total energy consumption w₍₁₎, w₍₂₎,…,w_(N-2)According to descending order；

B, the initial value of area factor is set：W '=me { w_(i)| i=1,2 ..., N-2 }, in formula, w ' expression area factors Initial value, me { w_(i)| i=1,2 ..., N-2 } represent to take w_(i)Median；A, w ' is updated, the area updated The factor：In formula, m represents the updated value of area factor, w '_(i)According to w_(i)Calculate：Wherein, σ '=me | w_(i)- w ' | | i=1,2 ..., N-2 }, me {|w_(i)- w ' | | i=1,2 ..., N-2 } represent to take | w_(i)- w ' | median.

7. the good architectural energy saving system of energy-saving effect according to claim 6, it is characterised in that right in the following ways The building energy consumption situation is analyzed：Groups of building Energy consumption factor is smaller, shows that the energy consumption of groups of building is smaller, single building energy consumption The factor is smaller, shows that single building energy consumption is smaller.