CN107036257A - A kind of intelligent temperature regulator control system of district management - Google Patents

Abstract

The invention discloses a kind of intelligent temperature regulator control system of district management, including：Region division module is used to target area being divided into n sub-regions；Zonally-graded module is used to that first area and second area will to be divided into n sub-regions；Temperature detecting module, for detecting the temperature in 2n region；Temperature analysis module, for carrying out analyzing and output result to the temperature in 2n region；The temperature in n sub-regions is adjusted according to temperature analysis result for temperature adjustment module.Target area is divided into many sub-regions by the present invention first, it is again first area and second area by multiple sub-zone dividings, then preset temperature range is set, the actual temperature of actual temperature, second area and the comparative result of preset temperature range finally according to the first area in many sub-regions to carry out temperature adjustment to first area and second area respectively, not only increase the specific aim and effect of temperature adjustment, and effective save the energy.

Description

A kind of intelligent temperature regulator control system of district management

Technical field

The present invention relates to the intelligent temperature regulation and control system in temperature classification control technique field, more particularly to a kind of district management System.

Background technology

Generally, in same space, because of the difference of position, air themperature especially exists there is also certain difference The season that winter or summer equitemperature differ greatly, and, it is necessary to the particular space of temperature is adjusted with air-conditioning equipment, to temperature The accuracy of regulation and control and the effect of temperature adjusting are present in larger requirement, and above-mentioned situation due to the different meetings of locus Homogeneity to temperature is impacted.The position that existing temperature-detecting device is set is more single and fixed, in temperature detection The actual temperature that device is detected deviates before preset temperature, and the temperature of other positions deviates preset temperature already in the space, Temperature adjustment is now carried out again and there is certain hysteresis quality, and the change and regulation and control of other positions temperature are impacted.

Based on above mentioned problem, to ensure that the promptness and accuracy of temperature adjustment are drawn, it is necessary to carry out region to target area Point, then the temperature in each zonule is acquired, analyzed and regulated and controled so that the temperature in each zonule is with presetting Temperature is more matched, so as to improve the specific aim and validity of temperature adjustment, is conducive to improving the using effect of user.

The content of the invention

The technical problem existed based on background technology, the present invention proposes a kind of intelligent temperature regulation and control system of district management System.

The intelligent temperature regulator control system of district management proposed by the present invention, 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 A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2Temperature T in region₁₁、T₁₂、 T₂₁、T₂₂、T₃₁、T₃₂……T_n1、T_n2Analyzed, and export analysis result；

Temperature adjustment module, the analysis result for being exported according to temperature analysis module is entered to the temperature in n sub-regions Row regulation.

Preferably, temperature analysis module internal memory contains the first temperature range [T_1min,T_1max], second temperature scope [T_2min, T_2max]；

Temperature analysis module is to A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2Temperature T in region₁₁、T₁₂、T₂₁、T₂₂、 T₃₁、T₃₂……T_n1、T_n2Analyzed, work as T_i1≤T_1minWhen, temperature analysis module exports the first analysis result, works as T_i1≥T_1max When, temperature analysis module exports the second analysis result, works as T_j2≤T_2minWhen, temperature analysis module exports the 3rd analysis result, when T_j2≥T_2maxWhen, temperature analysis module exports the 4th analysis result；

Wherein, 1≤i≤n, 1≤j≤n.

Preferably, temperature adjustment module includes 2n temperature adjustment submodule, is designated as W₁₁、W₁₂、W₂₁、W₂₂、W₃₁、W₃₂…… W_n1、W_n2, and 2n temperature adjustment submodule W₁₁、W₁₂、W₂₁、W₂₂、W₃₁、W₃₂……W_n1、W_n2With 2n sub-regions A₁₁、A₁₂、A₂₁、 A₂₂、A₃₁、A₃₂……A_n1、A_n2Correspond；

When temperature analysis module exports the first analysis result, temperature adjustment module is by W_i1Temperature adjustment submodule is adjusted to Heat up mode of operation, and when temperature analysis module exports the second analysis result, temperature adjustment module is by W_i1Temperature adjustment submodule The mode of operation that cools is adjusted to, when temperature analysis module exports three analysis results, temperature adjustment module is by W_j2Temperature adjustment Submodule is adjusted to the mode of operation that heats up, and when temperature analysis module exports four analysis results, temperature adjustment module is by W_j2Temperature Degree regulation submodule is adjusted to the mode of operation that cools.

Preferably, temperature analysis module internal memory contains the 3rd temperature range [T_3min,T_3max], the 4th temperature range [T_4min, T_4max]；

Work as T_3min≤T_i1≤T_3maxWhen, temperature analysis module exports the 5th analysis result, and temperature adjustment module is according to above-mentioned 5th analysis result is by W_i1Temperature adjustment submodule is adjusted to the state of being stopped, and works as T_4min≤T_j2≤T_4maxWhen, temperature analysis Module exports the 6th analysis result, and temperature adjustment module is according to above-mentioned 6th analysis result by W_j2Temperature adjustment submodule is adjusted to Be stopped state.

Preferably, any one temperature adjustment submodule in 2n temperature adjustment submodule in temperature adjustment module includes Heat up unit and cooling member；

When temperature adjustment module is by W_i1When temperature adjustment submodule is adjusted to heating mode of operation, W_i1Temperature adjustment submodule Heating unit in block is started working, when temperature adjustment module is by W_i1When temperature adjustment submodule is adjusted to cooling mode of operation, W_i1Temperature reducing unit in temperature adjustment submodule is started working, when temperature adjustment module is by W_j2Temperature adjustment submodule is adjusted to During the mode of operation that heats up, W_j2Heating unit in temperature adjustment submodule is started working, when temperature adjustment module is by W_j2Temperature is adjusted When knot module is adjusted to cooling mode of operation, W_j2Temperature reducing unit in temperature adjustment submodule is started working.

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, then by multiple sub-zone dividings is first area and the Two regions, are then that first area and second area set preset temperature range respectively, finally according in many sub-regions The actual temperature in one region is made with the comparative result of preset temperature range, the actual temperature of second area and preset temperature range Constant temperature degree adjustable strategies, first area and second area progress temperature adjustment, not only increase the specific aim of temperature adjustment respectively And effect, and effective saved the energy.Specifically：Many sub-regions are divided into behind first area and second area, will be many The first area of sub-regions is divided into a class and is compared the actual temperature in such first area and preset temperature range Compared with, and the second area of many sub-regions is divided into a class and by the actual temperature in such second area and preset temperature model Enclose and be compared, when comparative result shows that actual temperature in first area or second area deviates preset range, show the Temperature in one region and second area needs adjustment, now utilizes first area and the corresponding temperature equipment of second area Temperature adjustment is carried out to first area and second area, the temperature in first area and second area is adjusted to suitable model Enclose, it is ensured that the regulating effect of temperature in first area and second area.

The present invention is each configured with a temperature equipment for each first area and second area, and to each first Temperature in region and second area is analyzed, when there is temperature departure using corresponding temperature equipment to first area and Second area carries out temperature adjustment, not only increases the specific aim to temperature adjustment in first area and second area, Er Qieti The effect of temperature adjusting in high whole target area, and effectively saved the energy.

Brief description of the drawings

Fig. 1 is a kind of structural representation of the intelligent temperature regulator control system of district management.

Embodiment

As shown in figure 1, Fig. 1 is a kind of intelligent temperature regulator control system of district management proposed by the present invention.

Reference picture 1, the intelligent temperature regulator control system of district management proposed by the present invention, 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_n2Temperature in region, by setting 2n temperature detection submodule Block is corresponded with 2n zonule, is detected using the corresponding temperature detection submodule in each zonule in the zonule Actual temperature value, further increases the accuracy of temperature detection result；And any of 2n temperature detection submodule temperature Detection sub-module includes multiple temperature sensors, and the temperature sensor uses infrared temperature sensor, utilizes multiple infrared temperatures Spend sensor to detect the temperature value of diverse location in each zonule, calculate this further according to the temperature value of diverse location small Actual average temperature value in region, the further precision and validity that improve temperature acquisition in each zonule.

Temperature analysis module, for A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2Temperature T in region₁₁、T₁₂、 T₂₁、T₂₂、T₃₁、T₃₂……T_n1、T_n2Analyzed, and export analysis result；

Specifically：Temperature analysis module internal memory contains the first temperature range [T_1min,T_1max], second temperature scope [T_2min, T_2max]；

Temperature analysis module is to A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2Temperature T in region₁₁、T₁₂、T₂₁、T₂₂、 T₃₁、T₃₂……T_n1、T_n2Analyzed, that is, check whether the actual temperature in 2n zonule exceeds the default temperature in respective region Scope is spent, so that spending the region when temperature deviation is larger in zonule in time carries out temperature adjustment；Work as T_i1≤T_1minWhen, show A_i1Actual temperature in region is relatively low, and now temperature analysis module exports the first analysis result, works as T_i1≥T_1maxWhen, show A_i1 Actual temperature in region is higher, and now temperature analysis module exports the second analysis result, works as T_j2≤T_2minWhen, show A_j2Region Interior actual temperature is relatively low, and now temperature analysis module exports the 3rd analysis result, works as T_j2≥T_2maxWhen, show A_j2In region Actual temperature is higher, and now temperature analysis module exports the 4th analysis result；

Wherein, 1≤i≤n, 1≤j≤n.

Temperature adjustment module, the analysis result for being exported according to temperature analysis module is entered to the temperature in n sub-regions Row regulation；In present embodiment, temperature adjustment module includes 2n temperature adjustment submodule, is designated as W₁₁、W₁₂、W₂₁、W₂₂、W₃₁、 W₃₂……W_n1、W_n2, and 2n temperature adjustment submodule W₁₁、W₁₂、W₂₁、W₂₂、W₃₁、W₃₂……W_n1、W_n2With 2n sub-regions A₁₁、 A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2Correspond；

When temperature analysis module exports the first analysis result, temperature adjustment module is by W_i1Temperature adjustment submodule is adjusted to Heat up mode of operation, with to A_i1Warming temperature is carried out in region, by A_i1Actual temperature rise in region；When temperature analysis mould When block exports the second analysis result, temperature adjustment module is by W_i1Temperature adjustment submodule is adjusted to the mode of operation that cools, by right A_i1Cooling operation is taken by A in region_i1High temperature in region is reduced in optimum range；When temperature analysis module exports the 3rd During analysis result, temperature adjustment module is by W_j2Temperature adjustment submodule be adjusted to heat up mode of operation, using heating mode by A_j2Actual temperature value rise in region, when temperature analysis module exports four analysis results, temperature adjustment module is by W_j2Temperature Degree regulation submodule is adjusted to the mode of operation that cools, to by A_j2Temperature in region is reduced to optimum range, makes A_j2In region Actual temperature more matched with actual demand.

During temperature adjustment, to avoid each temperature adjustment submodule from flogging a dead horse, temperature analysis module memory storage There is the 3rd temperature range [T_3min,T_3max], the 4th temperature range [T_4min,T_4max]；

Work as T_3min≤T_i1≤T_3maxWhen, show A_i1Actual temperature in region has been adjusted in optimum range, now Temperature analysis module exports the 5th analysis result, and temperature adjustment module is according to above-mentioned 5th analysis result by W_i1Temperature adjustment submodule Block is adjusted to the state of being stopped, it is to avoid A_i1The corresponding temperature adjustment submodule in region works on and influences A_i1In region Actual temperature value, while A can be avoided_i1The corresponding temperature adjustment submodule in region, which works on, causes the waste of resource；Work as T_4min ≤T_j2≤T_4maxWhen, show A_j2Actual temperature in region has been adjusted in optimum range, and now temperature analysis module is defeated Go out the 6th analysis result, temperature adjustment module is according to above-mentioned 6th analysis result by W_j2Temperature adjustment submodule is adjusted to stop work Make state, can not only avoid A_j2The corresponding temperature adjustment submodule in region, which works on, influences A_j2Actual temperature in region, and And effectively saved the energy.

In present embodiment, any one temperature adjustment submodule in 2n temperature adjustment submodule in temperature adjustment module Block includes heating unit and cooling member；

When temperature adjustment module is by W_i1When temperature adjustment submodule is adjusted to heating mode of operation, W_i1Temperature adjustment submodule Heating unit in block is started working, when temperature adjustment module is by W_i1When temperature adjustment submodule is adjusted to cooling mode of operation, W_i1Temperature reducing unit in temperature adjustment submodule is started working, when temperature adjustment module is by W_j2Temperature adjustment submodule is adjusted to During the mode of operation that heats up, W_j2Heating unit in temperature adjustment submodule is started working, when temperature adjustment module is by W_j2Temperature is adjusted When knot module is adjusted to cooling mode of operation, W_j2Temperature reducing unit in temperature adjustment submodule is started working；By by temperature The heating function and cooling function for adjusting submodule are distinguished, and are conducive to improving the validity and pin of warming temperature and cooling operation To property, the effect to temperature adjustment in each region is further improved.

Target area is divided into many sub-regions by present embodiment first, then by multiple sub-zone dividings is first area And second area, then it is that first area and second area set preset temperature range respectively, finally according in many sub-regions First area actual temperature and preset temperature range, the actual temperature of second area and preset temperature range comparative result To formulate temperature adjustable strategies, first area and second area carry out temperature adjustment respectively, not only increase the pin of temperature adjustment To property and effect, and effective the energy is saved.Specifically：Many sub-regions are divided into behind first area and second area, The first area of many sub-regions is divided into a class and enters the actual temperature in such first area and preset temperature range Row compares, and the second area of many sub-regions is divided into a class and by the actual temperature in such second area with presetting temperature Degree scope is compared, when the actual temperature that comparative result shows in first area or second area deviates preset range, table Temperature in bright first area and second area needs adjustment, now utilizes first area and the corresponding temperature adjustment of second area Equipment carries out temperature adjustment to first area and second area, and the temperature in first area and second area is adjusted into suitable Scope, it is ensured that the regulating effect of temperature in first area and second area.

Present embodiment is that each first area and second area are each configured with a temperature equipment, and to each Temperature in first area and second area is analyzed, when there is temperature departure using corresponding temperature equipment to the firstth area Domain and second area carry out temperature adjustment, not only increase the specific aim to temperature adjustment in first area and second area, and And the effect of temperature adjusting in whole target area is improved, and effectively saved the energy.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be 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 is subject to equivalent substitution or change, should all be included within the scope of the present invention.

Claims (7)

1. a kind of intelligent temperature regulator control system of district management, 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 A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2Temperature T in region₁₁、T₁₂、T₂₁、T₂₂、 T₃₁、T₃₂……T_n1、T_n2Analyzed, and export analysis result；

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

2. the intelligent temperature regulator control system of district management according to claim 1, it is characterised in that temperature analysis module Internal memory contains the first temperature range [T_1min,T_1max], second temperature scope [T_2min,T_2max]；

Temperature analysis module is to A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2Temperature T in region₁₁、T₁₂、T₂₁、T₂₂、T₃₁、 T₃₂……T_n1、T_n2Analyzed, work as T_i1≤T_1minWhen, temperature analysis module exports the first analysis result, works as T_i1≥T_1maxWhen, Temperature analysis module exports the second analysis result, works as T_j2≤T_2minWhen, temperature analysis module exports the 3rd analysis result, works as T_j2≥ T_2maxWhen, temperature analysis module exports the 4th analysis result；

Wherein, 1≤i≤n, 1≤j≤n.

3. the intelligent temperature regulator control system of district management according to claim 2, it is characterised in that temperature adjustment module Including 2n temperature adjustment submodule, W is designated as₁₁、W₁₂、W₂₁、W₂₂、W₃₁、W₃₂……W_n1、W_n2, and 2n temperature adjustment submodule W₁₁、W₁₂、W₂₁、W₂₂、W₃₁、W₃₂……W_n1、W_n2With 2n sub-regions A₁₁、A₁₂、A₂₁、A₂₂、A₃₁、A₃₂……A_n1、A_n2One a pair Should；

When temperature analysis module exports the first analysis result, temperature adjustment module is by W_i1Temperature adjustment submodule is adjusted to heating Mode of operation, when temperature analysis module exports the second analysis result, temperature adjustment module is by W_i1Temperature adjustment submodule is adjusted For cooling mode of operation, when temperature analysis module exports three analysis results, temperature adjustment module is by W_j2Temperature adjustment submodule Block is adjusted to the mode of operation that heats up, and when temperature analysis module exports four analysis results, temperature adjustment module is by W_j2Temperature is adjusted Knot module is adjusted to the mode of operation that cools.

4. the intelligent temperature regulator control system of district management according to claim 3, it is characterised in that temperature analysis module Internal memory contains the 3rd temperature range [T_3min,T_3max], the 4th temperature range [T_4min,T_4max]；

Work as T_3min≤T_i1≤T_3maxWhen, temperature analysis module exports the 5th analysis result, and temperature adjustment module is according to above-mentioned 5th point Result is analysed by W_i1Temperature adjustment submodule is adjusted to the state of being stopped, and works as T_4min≤T_j2≤T_4maxWhen, temperature analysis module is defeated Go out the 6th analysis result, temperature adjustment module is according to above-mentioned 6th analysis result by W_j2Temperature adjustment submodule is adjusted to stop work Make state.

5. the intelligent temperature regulator control system of the district management according to claim 3 or 4, it is characterised in that temperature adjustment Any one temperature adjustment submodule in 2n temperature adjustment submodule in module includes heating unit and cooling member；

When temperature adjustment module is by W_i1When temperature adjustment submodule is adjusted to heating mode of operation, W_i1In temperature adjustment submodule The unit that heats up is started working, when temperature adjustment module is by W_i1When temperature adjustment submodule is adjusted to cooling mode of operation, W_i1Temperature The temperature reducing unit adjusted in submodule is started working, when temperature adjustment module is by W_j2Temperature adjustment submodule is adjusted to the work that heats up During pattern, W_j2Heating unit in temperature adjustment submodule is started working, when temperature adjustment module is by W_j2Temperature adjustment submodule When being adjusted to cooling mode of operation, W_j2Temperature reducing unit in temperature adjustment submodule is started working.

6. the intelligent temperature regulator control system of district management according to claim 1, it is characterised in that temperature detecting module Including 2n temperature detection submodule, 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 TEMPs Device.

7. the intelligent temperature regulator control system of district management according to claim 6, it is characterised in that the TEMP Device uses infrared temperature sensor.