CN107238185A - A kind of intelligent temperature regulating system based on zonally-graded - Google Patents

Abstract

The invention discloses a kind of intelligent temperature regulating system based on zonally-graded, including：Region division module is used to target area being divided into n sub-regions；Zonally-graded module is used to n sub-regions being divided into first area and second area；Temperature detecting module is used to detect the temperature in 2n region；Temperature analysis module is used to analyze the temperature in 2n region, and exports analysis result；Temperature adjustment module, the temperature in n sub-regions is adjusted for the analysis result according to temperature analysis module.Target area is divided into many sub-regions by the present invention first, further single subregion is divided, reduce the scope of single subregion, then the temperature in each sub-regions is acquired again, and then the actual temperature in single subregion is analyzed, temperature adjustment is carried out to different subregions finally according to analysis result, the specific aim of temperature adjustment is not only increased, and be effectively improved the effect of temperature adjustment.

Description

A kind of intelligent temperature regulating system based on zonally-graded

Technical field

The present invention relates to temperature intelligent regulation technology field, more particularly to a kind of intelligent temperature regulation based on zonally-graded System.

Background technology

The mode of operation of air-conditioning is divided into heating mode and refrigeration mode, heating module and demand of the refrigeration mode according to user It is configured, and line translation is entered according to indoor actual temperature.In actual application environment, Indoor Temperature is adjusted when using air-conditioning When spending, indoor temperature distribution is uneven, and specifically, indoor temperature is probably with the relation from indoor floor height：It is liftoff Plate more high-temperature is higher, and vertical temperature gradient is very big.Therefore, in synchronization same room, if indoor apparatus of air conditioner is pacified The position of different vertical height in room, then the sample temperature value of indoor set return air inlet temperature sensor is different.But it is empty Adjust the installation site of indoor set often single and fixed, therefore return air inlet for air-conditioner temperature and the actual temperature of diverse location are often deposited In certain difference.

Based on above mentioned problem, due to the difference of installation positions of indoor machines of air conditioners, different operation conditions can be presented in air-conditioning, lead Cause indoor temperature adjustment unreasonable, influence actual temperature regulation effect；Therefore a kind of temperature based on zonally-graded is needed Regulating system, the temperature to different zones is acquired and analyzed, then targetedly carries out temperature adjustment, optimization temperature adjustment Effect.

The content of the invention

The technical problem existed based on background technology, the present invention proposes a kind of intelligent temperature regulation based on zonally-graded System.

Intelligent temperature regulating system proposed by the present invention based on zonally-graded, including：

Region division module, for target area to be divided into n sub-regions；

Zonally-graded module, for each sub-regions in n sub-regions to be divided into first area and the secondth area Domain, is designated as A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2；

Temperature detecting module, for detecting A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2Temperature in region, is designated as T₁₁、T₁₂、T₂₁、T₂₂、T₃₁、T₃₂……T_n1、T_n2；

Temperature analysis module, for the temperature T to the first area in n region and second area₁₁、T₁₂、T₂₁、T₂₂、 T₃₁、T₃₂……T_n1、T_n2Analyzed, and export analysis result；

Temperature adjustment module, is adjusted for the analysis result according to temperature analysis module to the temperature in n sub-regions Section.

Preferably, temperature analysis module internal memory contains preset temperature difference T_D, the first temperature value T_one, second temperature value T_two；

Temperature analysis module is to the first area in n region and the temperature T of second area₁₁、T₁₂、T₂₁、T₂₂、T₃₁、 T₃₂……T_n1、T_n2Analyzed, when | T_j1-T_j2|≥T_DWhen, temperature analysis module is further to T_j1And T_j2Analyzed, work as T_j1 ≤aT_oneWhen, temperature analysis module exports the first analysis result, works as T_j1≥bT_oneWhen, temperature analysis module output the second analysis knot Really, T is worked as_j2≤cT_twoWhen, temperature analysis module exports the 3rd analysis result, works as T_j2≥dT_twoWhen, temperature analysis module output the Four analysis results；

Wherein, 1≤j≤n, 0<a<1, b>0,0<c<1, d>0.

Preferably, temperature adjustment module includes n temperature adjustment submodule, n temperature adjustment submodule and n sub-regions Correspond, any of n temperature adjustment submodule temperature adjustment submodule includes first module and second unit；

When temperature analysis module exports the first analysis result, temperature adjustment module starts the first temperature adjustment pattern, works as temperature When analysis module exports the second analysis result, temperature adjustment module starts the second temperature adjustment pattern, when temperature analysis module output the During three analysis results, temperature adjustment module starts the 3rd temperature adjustment pattern, when temperature analysis module exports four analysis results, temperature Spend adjustment module and start the 4th temperature adjustment pattern；

Wherein, under the first temperature adjustment pattern, A_j1First module in the corresponding j temperature adjustments submodule in region is heated up Regulation, under the second temperature adjustment pattern, A_j1First module in the corresponding j temperature adjustments submodule in region carries out cooling regulation, Under 3rd temperature adjustment pattern, A_j2Second unit in the corresponding j temperature adjustments submodule in region carries out heating regulation, in the 4th temperature adjustment Under pattern, A_j2Second unit in the corresponding j temperature adjustments submodule in region carries out cooling regulation.

Preferably, temperature analysis module internal memory contains the first Suitable ranges [T_1min,T_1max] and the second preference temperature model Enclose [T_2min,T_2max]；

Work as T_1min≤T_j1≤T_1maxWhen, temperature analysis module exports the 5th analysis result, and temperature adjustment module is according to temperature 5th analysis result of analysis module output is by A_j1First module in the corresponding j temperature adjustments submodule in region is adjusted to stop Working condition, works as T_2min≤T_j2≤T_2maxWhen, temperature analysis module exports the 6th analysis result, and temperature adjustment module is according to temperature 6th analysis result of analysis module output is by A_j2Second unit in the corresponding j temperature adjustments submodule in region is adjusted to stop Working condition.

Preferably, temperature detecting module includes 2n temperature detection submodule, and 2n temperature detection submodule is respectively used to Gather A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2Temperature in region, any of 2n temperature detection submodule temperature Detection sub-module includes multiple temperature sensors.

Preferably, the temperature sensor uses infrared temperature sensor.

Target area is divided into many sub-regions by the present invention first, and further single subregion is divided, and is contracted The scope of small single subregion, is then acquired to the temperature in each sub-regions again, and then in single subregion Actual temperature is analyzed, and is carried out temperature adjustment to different subregions finally according to analysis result, is not only increased temperature adjustment Specific aim, and be effectively improved the effect of temperature adjustment.Specifically：Temperature in single subregion is analyzed When, the first area in single subregion and the temperature gap of second area are analyzed first, when first area and second area When temperature gap exceedes preset value, show that the actual temperature of diverse location in the subregion differs greatly, now improve to the son The accuracy of temperature analysis in region, further the actual temperature to first area and second area analyze, when the firstth area When temperature in domain exceedes preset range, then enter trip temperature to first area using the corresponding temperature adjustment module in first area and adjust Section, when the temperature departure preset range in second area, then using the corresponding temperature adjustment module of second area to the secondth area Temperature in domain is adjusted, to realize the specific aim to temperature adjustment in different subregions, and by the way that subregion is further Two zonules are divided into, then select temperature adjustable strategies according to the temperature change in zonule respectively, not only contribute to carry The effect of high-temperature adjustment, and avoid region it is larger when temperature Adjustment effect do not cause the waste of resource significantly.

Target area is divided into multiple analyzed areas by the present invention by region division, further according to the reality in multiple analyzed areas Border temperature formulates suitable temperature adjustment strategy, not only contributes to improve the specific aim of temperature adjustment, and is conducive to improving temperature tune The effect of section, so as to avoid the waste of resource on the basis of using effect is ensured.

Brief description of the drawings

Fig. 1 is a kind of structural representation of the intelligent temperature regulating system based on zonally-graded.

Embodiment

As shown in figure 1, Fig. 1 is a kind of intelligent temperature regulating system based on zonally-graded proposed by the present invention.

Reference picture 1, the intelligent temperature regulating system proposed by the present invention based on zonally-graded, it is characterised in that including：

Region division module, for target area to be divided into n sub-regions；Target area is divided into smaller area has It is acquired, analyzes and adjusts beneficial to the temperature in each zonule, temperature is ensured on the basis of acquisition precision is improved The effect of regulation.

Zonally-graded module, for each sub-regions in n sub-regions to be divided into first area and the secondth area Domain, is designated as A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2；By n sub-regions be further divided into smaller first area and Second area, is conducive to further improving the precision to temperature acquisition in smaller first area and second area and regulation and control and has Effect property.

Temperature detecting module, for detecting A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2Temperature in region, is designated as T₁₁、T₁₂、T₂₁、T₂₂、T₃₁、T₃₂……T_n1、T_n2；

In present embodiment, temperature detecting module includes 2n temperature detection submodule, 2n temperature detection submodule point A Yong Yu not gathered₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2It is any in temperature in region, 2n temperature detection submodule Individual temperature detection submodule includes multiple temperature sensors, and the temperature sensor uses infrared temperature sensor；For each Zonule is respectively provided with a temperature detection submodule and is conducive to improving the accuracy to temperature detection in each zonule, and often One temperature detection submodule includes multiple infrared temperature sensors, can detect the actual temperature value of diverse location, and then conveniently Temperature detection submodule calculates the average temperature value in the zonule according to the actual temperature value of diverse location, is temperature analysis Module provides accurate analyze data.

Temperature analysis module, for the temperature T to the first area in n region and second area₁₁、T₁₂、T₂₁、T₂₂、 T₃₁、T₃₂……T_n1、T_n2Analyzed, and export analysis result；

Temperature adjustment module, is adjusted for the analysis result according to temperature analysis module to the temperature in n sub-regions Section.

Specifically：Temperature analysis module internal memory contains preset temperature difference T_D, the first temperature value T_one, second temperature value T_two；

Temperature analysis module is to the first area in n region and the temperature T of second area₁₁、T₁₂、T₂₁、T₂₂、T₃₁、 T₃₂……T_n1、T_n2Analyzed, when | T_j1-T_j2|≥T_DWhen, show the first area in j regions and the actual temperature of second area The difference of degree is larger, now there may be the feelings that temperature value is changed greatly in the first area in j regions and/or second area Condition, to determine the actual temperature situation in above-mentioned two region, temperature analysis module is further to T_j1And T_j2Analyzed, when T_j1≤aT_oneWhen, show that the actual temperature value in the first area in j regions is relatively low, now temperature analysis module exports first point Result is analysed, works as T_j1≥bT_oneWhen, show that the actual temperature value in the first area in j regions is higher, now temperature analysis module The second analysis result is exported, works as T_j2≤cT_twoWhen, show that the actual temperature value in the second area in j regions is relatively low, it is now warm Spend analysis module and export the 3rd analysis result, work as T_j2≥dT_twoWhen, show that the actual temperature value in the second area in j regions is inclined Height, the 4th analysis result of now temperature analysis module output；

Temperature adjustment module includes n temperature adjustment submodule, a pair of n temperature adjustment submodule and n sub-regions 1 Should, any of n temperature adjustment submodule temperature adjustment submodule includes first module and second unit；

When temperature analysis module exports the first analysis result, temperature adjustment module starts the first temperature adjustment pattern, then A_j1Area First module in the corresponding j temperature adjustments submodule in domain carries out heating regulation, by A_j1Region is adjusted to optimum range；Work as temperature When spending analysis module the second analysis result of output, temperature adjustment module starts the second temperature adjustment pattern, i.e. A_j1The corresponding j temperature in region The first module adjusted in submodule carries out cooling regulation, to reduce A_j1High temperature in region；When temperature analysis module output the During three analysis results, temperature adjustment module starts the 3rd temperature adjustment pattern, i.e. A_j2In the corresponding j temperature adjustments submodule in region Unit two carry out heating regulation；When temperature analysis module exports four analysis results, temperature adjustment module starts the 4th temperature adjustment Pattern, i.e. A_j2Second unit in the corresponding j temperature adjustments submodule in region carries out cooling regulation, within a short period of time will A_j2High temperature in region is reduced in optimum range；

Wherein, 1≤j≤n, 0<a<1, b>0,0<c<1, d>0.

During temperature adjustment, to prevent temperature adjustment module excessive exercise from money is impacted and wasted to temperature In source, present embodiment, temperature analysis module internal memory contains the first Suitable ranges [T_1min,T_1max] and the second preference temperature Scope [T_2min,T_2max]；

Work as T_1min≤T_j1≤T_1maxWhen, show A_j1Actual temperature in region is adjusted to Suitable ranges, now warm Spend analysis module and export the 5th analysis result, the 5th analysis result that temperature adjustment module is exported according to temperature analysis module is by A_j1 First module in the corresponding j temperature adjustments submodule in region is adjusted to the state of being stopped, and works as T_2min≤T_j2≤T_2maxWhen, table Bright A_j2Actual temperature in region is adjusted to Suitable ranges, and now temperature analysis module exports the 6th analysis result, temperature The 6th analysis result that degree adjustment module is exported according to temperature analysis module is by A_j2In the corresponding j temperature adjustments submodule in region Second unit is adjusted to the state of being stopped；Opening for temperature adjustment submodule work is adjusted by setting Suitable ranges Stop, not only can effectively being maintained at the temperature value stabilization in each region in Suitable ranges, and can be effective Avoid the waste of resource.

Target area is divided into many sub-regions by present embodiment first, and further single subregion is drawn Point, the scope of single subregion is reduced, then the temperature in each sub-regions is acquired again, and then to single subregion Interior actual temperature is analyzed, and is carried out temperature adjustment to different subregions finally according to analysis result, is not only increased temperature The specific aim of regulation, and it is effectively improved the effect of temperature adjustment.Specifically：Temperature in single subregion is divided During analysis, the first area in single subregion and the temperature gap of second area are analyzed first, when first area and second area Temperature gap exceed preset value when, show that the actual temperature of diverse location in the subregion differs greatly, now improve to this The accuracy of temperature analysis in subregion, further the actual temperature to first area and second area analyze, when first When temperature in region exceedes preset range, then trip temperature is entered to first area using the corresponding temperature adjustment module in first area Regulation, when the temperature departure preset range in second area, then using the corresponding temperature adjustment module of second area to second Temperature in region is adjusted, to realize the specific aim to temperature adjustment in different subregions, and by the way that subregion is entered into one Step is divided into two zonules, then selects temperature adjustable strategies according to the temperature change in zonule respectively, not only contributes to Improve the effect of temperature adjustment, and avoid region it is larger when temperature Adjustment effect do not cause the waste of resource significantly.

Target area is divided into multiple analyzed areas by present embodiment by region division, further according in multiple analyzed areas Actual temperature formulate suitable temperature adjustment strategy, not only contribute to improve the specific aim of temperature adjustment, and be conducive to improving temperature The effect of regulation is spent, so as to avoid the waste of resource on the basis of using effect is ensured.It is described above, be only the present invention compared with Good embodiment, but protection scope of the present invention is not limited thereto, any one skilled in the art The invention discloses technical scope in, technique according to the invention scheme and its inventive concept are subject to equivalent substitution or change, It should all be included within the scope of the present invention.

Claims (6)

1. a kind of intelligent temperature regulating system based on zonally-graded, it is characterised in that including：

Region division module, for target area to be divided into n sub-regions；

Zonally-graded module, for each sub-regions in n sub-regions to be divided into first area and second area, note For A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2；

Temperature detecting module, for detecting A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2Temperature in region, is designated as T₁₁、T₁₂、 T₂₁、T₂₂、T₃₁、T₃₂……T_n1、T_n2；

Temperature analysis module, for the temperature T to the first area in n region and second area₁₁、T₁₂、T₂₁、T₂₂、T₃₁、 T₃₂……T_n1、T_n2Analyzed, and export analysis result；

Temperature adjustment module, the temperature in n sub-regions is adjusted for the analysis result according to temperature analysis module.

2. the intelligent temperature regulating system according to claim 1 based on zonally-graded, it is characterised in that temperature analysis mould Block internal memory contains preset temperature difference T_D, the first temperature value T_one, second temperature value T_two；

Temperature analysis module is to the first area in n region and the temperature T of second area₁₁、T₁₂、T₂₁、T₂₂、T₃₁、T₃₂…… T_n1、T_n2Analyzed, when | T_j1-T_j2|≥T_DWhen, temperature analysis module is further to T_j1And T_j2Analyzed, work as T_j1≤aT_one When, temperature analysis module exports the first analysis result, works as T_j1≥bT_oneWhen, temperature analysis module exports the second analysis result, when T_j2≤cT_twoWhen, temperature analysis module exports the 3rd analysis result, works as T_j2≥dT_twoWhen, temperature analysis module exports the 4th point Analyse result；

Wherein, 1≤j≤n, 0<a<1, b>0,0<c<1, d>0.

3. the intelligent temperature regulating system according to claim 2 based on zonally-graded, it is characterised in that temperature adjustment mould Block includes n temperature adjustment submodule, and n temperature adjustment submodule is corresponded with n sub-regions, n temperature adjustment submodule Any of block temperature adjustment submodule includes first module and second unit；

When temperature analysis module exports the first analysis result, temperature adjustment module starts the first temperature adjustment pattern, works as temperature analysis When module exports the second analysis result, temperature adjustment module starts the second temperature adjustment pattern, when temperature analysis module exports the 3rd point When analysing result, temperature adjustment module starts the 3rd temperature adjustment pattern, and when temperature analysis module exports four analysis results, temperature is adjusted Save module and start the 4th temperature adjustment pattern；

Wherein, under the first temperature adjustment pattern, A_j1First module in the corresponding j temperature adjustments submodule in region carries out heating tune Section, under the second temperature adjustment pattern, A_j1First module in the corresponding j temperature adjustments submodule in region carries out cooling regulation, the Under three temperature adjustment patterns, A_j2Second unit in the corresponding j temperature adjustments submodule in region carries out heating regulation, in the 4th temperature adjustment mould Under formula, A_j2Second unit in the corresponding j temperature adjustments submodule in region carries out cooling regulation.

4. the intelligent temperature regulating system according to claim 3 based on zonally-graded, it is characterised in that temperature analysis mould Block internal memory contains the first Suitable ranges [T_1min,T_1max] and the second Suitable ranges [T_2min,T_2max]；

Work as T_1min≤T_j1≤T_1maxWhen, temperature analysis module exports the 5th analysis result, and temperature adjustment module is according to temperature analysis mould 5th analysis result of block output is by A_j1First module in the corresponding j temperature adjustments submodule in region is adjusted to the shape that is stopped State, works as T_2min≤T_j2≤T_2maxWhen, temperature analysis module exports the 6th analysis result, and temperature adjustment module is according to temperature analysis mould 6th analysis result of block output is by A_j2Second unit in the corresponding j temperature adjustments submodule in region is adjusted to the shape that is stopped State.

5. the intelligent temperature regulating system according to claim 1 based on zonally-graded, it is characterised in that temperature detection mould Block includes 2n temperature detection submodule, and 2n temperature detection submodule is respectively used to gather A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、 A₃₂……A_n1、A_n2Temperature in region, any of 2n temperature detection submodule temperature detection submodule includes multiple temperature Sensor.

6. the intelligent temperature regulating system according to claim 5 based on zonally-graded, it is characterised in that the temperature is passed Sensor uses infrared temperature sensor.