CN103994552B - Building temperature-controlled process and system - Google Patents

Abstract

The invention discloses a kind of building temperature-controlled process and system, this building temperature-controlled process comprises the following steps: S1, the Current Temperatures T of collection building perimeter；The initial temperature in the one or more regions gathering interior of building controls set point；S2, control the temperature control settings point that set point adjusts one or more regions of this interior of building according to the initial temperature in the Current Temperatures of described building perimeter, the one or more region of described interior of building；S3, will adjust after temperature control settings point be sent to the corresponding region of described interior of building to adjust the temperature of this corresponding region.The present invention has the beneficial effect saved the energy, improve Consumer's Experience.

Description

Building temperature-controlled process and system

Technical field

The present invention relates to air regulation control field, more particularly, it relates to a kind of building temperature controlling party Method and system.

Background technology

It is currently available that the heating ventilation that building energy management uses generally makes with air regulation (HVAC) system Adjustment set point is determined, to guide utilization of energy and protection: (a) user predefines by two kinds of methods Timetable, i.e. presupposed information or (b) is used to obtain librarian use data from human body sensor.

The example that preset HVAC control point is presented herein below

Use [9:00 in the morning to 7:00 in afternoon from Monday to Friday]

Heat supply temperature set point: 18 DEG C

Cryogenic temperature set point: 26 DEG C

Do not use [7:01 in afternoon to 8:59 in the morning from Monday to Friday；Saturday is to Sunday]

Heat supply temperature set point: 14 DEG C

Cryogenic temperature set point: 30 DEG C

Many buildings, particularly commercial building, there is the situation of of short duration use.This type of commercial building, including visitor The retail shop that single purchase is movable is done at family in a short period of time；Client has dinner one or two hour there Dining room；The unmanned Office Area of Administrative Area is arrived for employee or visitor's walking.This of short duration use, can The control device that energy waste or human comfort decline can be caused, HVAC control and suboptimum HVAC are controlled It it is a challenge.Such as, when outdoor and indoor temperature difference is very big, and when personnel leave from indoor or from During outdoor entrance indoor, have certain discomfort.And, in order to produce this useless temperature difference, The energy is wasted.

Summary of the invention

The technical problem to be solved in the present invention is the defect according to prior art, it is provided that a kind of building temperature control Method and system processed.

The present invention solves the technological means of technical problem employing: provide a kind of building temperature-controlled process, Comprise the following steps:

S1, the Current Temperatures T of collection building perimeter；

The initial temperature in the one or more regions gathering interior of building controls set point；

S2, according to the Current Temperatures of described building perimeter, the one or more district of described interior of building The initial temperature in territory controls the temperature in one or more regions that set point adjusts this interior of building and controls to set Fixed point；

S3, will adjust after temperature control settings point be sent to the corresponding region of described interior of building to adjust The temperature of this corresponding region.

In the building temperature-controlled process that the present invention provides, also include in described step S1: in advance Set heat supply lower threshold X and heat supply upper limit threshold S；Preset multiple heat supply intermediate threshold (H1, H2 ..., Hn-1, Hn) and correspondence multiple heat supplies adjust increment (R1, R2 ..., Rn-1, Rn)； Described initial temperature controls set point and includes default heat supply set point T1 and minimum heat supply set point T2；

In described step S2, the heat supply set point T3 after adjustment meets following relation:

The Current Temperatures T of described building perimeter meets T > S time, T3=T1；

When the Current Temperatures T of described building perimeter meets S≤T≤H1, T3=T1-H1；

The Current Temperatures T of described building perimeter meet Hi < during T≤Hi-1, T3=T1-Ri, wherein 2≤i≤n；

The Current Temperatures T of described building perimeter meet T < during X, T3=T2.

In the building temperature-controlled process that the present invention provides, also include in described step S1: in advance Set cooling lower threshold P and cooling upper limit threshold Q；Preset multiple cooling intermediate threshold (E1, E2 ..., En-1, En) and correspondence multiple refrigeration adjust increments (W1, W2 ..., Wn-1, Wn)；Described initial temperature controls set point and includes default cooling set point T4 and maximum cooling set point T5；

In described step S2, cooling after adjustment controls set point T3 and meets following relation:

The Current Temperatures T of described building perimeter meet T < during P, T3=T4；

When the Current Temperatures T of described building perimeter meets P≤T≤E1, T3=T4+W1；

The Current Temperatures T of described building perimeter meet Ei-1 < during T≤Ei, T3=T4+Wi, wherein 2≤i≤n；

The Current Temperatures T of described building perimeter meets T > Q time, T3=T5.

In the building temperature-controlled process that the present invention provides, in described step S1, described collection is built The initial temperature control set point building the one or more regions within thing includes:

Set up the use timetable in one or more regions of interior of building, described use timetable has The initial temperature in one or more regions of described interior of building controls the mapping pass of set point and time period System；

The mapping relations described interior of building of acquisition of set point and time period is controlled according to described initial temperature One or more regions current slot initial temperature control set point.

In the building temperature-controlled process that the present invention provides, in described step S1, obtain building The Current Temperatures of perimeter includes: gather the positional information of described building, exists according to described positional information Data base inquires about the Current Temperatures of described building perimeter.

In the building temperature-controlled process that the present invention provides, in described step S1, passed by temperature Sensor gathers the Current Temperatures of described building perimeter.

Present invention also offers a kind of building temperature control system, including:

For gathering first acquisition module of the Current Temperatures T of building perimeter；

Adopt for gathering the second of the initial temperature control set point in one or more regions of interior of building Collection module；

Control module, described control module is for according to the Current Temperatures of described building perimeter, described The initial temperature in the one or more region of interior of building controls set point and adjusts one of this interior of building Or the temperature control settings point in multiple region, and the temperature control settings point after adjusting is sent to institute State the corresponding region of interior of building to adjust the temperature of this corresponding region.

In the building temperature control system that the present invention provides, described control module is additionally operable to:

Preset heat supply lower threshold X and heat supply upper limit threshold S；

Preset multiple heat supply intermediate threshold (H1, H2 ..., Hn-1, Hn) and multiple confessions of correspondence Heat adjustment increment (R1, R2 ..., Rn-1, Rn)；

Described initial temperature controls set point and includes default heat supply set point T1 and minimum heat supply set point T2； In described step S2, the heat supply set point T3 after adjustment meets following relation:

The Current Temperatures T of described building perimeter meets T > S time, T3=T1；

When the Current Temperatures T of described building perimeter meets S≤T≤H1, T3=T1-H1

The Current Temperatures T of described building perimeter meet Hi < during T≤Hi-1, T3=T1-Ri, wherein 2≤i≤n；

The Current Temperatures T of described building perimeter meet T < during X, T3=T2.

In the building temperature control system that the present invention provides, described control module is additionally operable to:

Preset cooling lower threshold P and cooling upper limit threshold Q；

Preset multiple cooling intermediate threshold (E1, E2 ..., En-1, En) and multiple systems of correspondence The whole increment of cool tone (W1, W2 ..., Wn-1, Wn)；

Described initial temperature controls set point and includes default cooling set point T4 and maximum cooling set point T5； Cooling after adjustment controls set point T3 and meets following relation:

The Current Temperatures T of described building perimeter meet T < during P, T3=T4；

When the Current Temperatures T of described building perimeter meets P≤T≤E1, T3=T4+W1

The Current Temperatures T of described building perimeter meet Ei-1 < during T≤Ei, T3=T4+Wi, wherein 2≤i≤n；

The Current Temperatures T of described building perimeter meets T > Q time, T3=T5.

In the building temperature control system that the present invention provides, also include being connected with described second acquisition module Memorizer, described memorizer is preserved the making of one or more regions of the interior of building preestablished With timetable, described use timetable has the initial temperature in one or more regions of described interior of building Degree controls the mapping relations of setting value and time period；

Described second acquisition module obtains according to the mapping relations of described initial temperature control setting value with time period The initial temperature of the current slot taking one or more regions of described interior of building controls set point.

Implement to the method have the advantages that owing to the present invention is current according to building perimeter The initial temperature in the one or more region of temperature, interior of building controls set point and adjusts this interior of building The temperature control settings point in one or more regions, can meet people for temperature requirement on the basis of, Reduce the use for the energy, there is the beneficial effect saved the energy, improve Consumer's Experience.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 is the FB(flow block) of the building temperature-controlled process in one embodiment of the present invention；

Fig. 2 is the theory diagram of the building temperature control system in one embodiment of the present invention.

Detailed description of the invention

In order to be more clearly understood from the technical characteristic of the present invention, purpose and effect, now comparison accompanying drawing is detailed Describe the detailed description of the invention of the bright present invention in detail.

Fig. 1 shows the FB(flow block) of the building temperature-controlled process in one embodiment of the present invention, should Method comprises the following steps:

S1, the Current Temperatures T of collection building perimeter；Gather one or more districts of interior of building The initial temperature in territory controls set point；

S2, according to the Current Temperatures of building perimeter, the one or more region of interior of building initial Temperature control settings point adjusts the temperature control settings point in one or more regions of this interior of building；

S3, will adjust after temperature control settings point be sent to the corresponding region of described interior of building to adjust The temperature of this corresponding region.

In the present embodiment, its perimeter can be inquired about in data base by the positional information of this building Current Temperatures T, this data base is weather data storehouse.This positional information can pass through GPRS positioning function Realize, it is also possible to manually typing.Therefore, in step sl, working as of building perimeter is obtained Front temperature includes: gathers the positional information of building, inquires about outside building according to positional information in data base The Current Temperatures in region, portion.

Understandably, it is also possible to by realizing detection at the perimeter mounting temperature sensor of building The Current Temperatures of building perimeter.Therefore, in step sl, built by temperature sensor collection The Current Temperatures of thing perimeter.

Preferably, in the present invention, it is also possible to according to the use timetable of the corresponding region of interior of building Determine the initial temperature set-point of correspondence.The closeness of the number in this region of the different time sections of a day is Different, therefore for some region of different time sections, set different initial temperatures and control set point, The utilization rate of the energy can be provided.Therefore, in step sl, this step " gathers the one of interior of building Individual or multiple region initial temperature controls set point " particularly as follows:

Set up the use timetable in one or more regions of interior of building, this use timetable has and builds The initial temperature building the one or more regions within thing controls the mapping relations of set point and time period；According to Initial temperature controls one or more regions of set point and the mapping relations acquisition interior of building of time period Current slot initial temperature control set point.In this step, this use timetable can be by using Family is manually entered.Understandably, it is also possible to sensed the turnover of this corresponding region by human body sensor Number, the demographics of this turnover goes out the flow of the people of each time period of this region, and according to this flow of the people to being somebody's turn to do The region correspondence time period sets up the initial temperature of correspondence to control set point.

Preferably, initial temperature control set point can include that default heat supply set point T1 and minimum heat supply set Fixed point T2.

Default heat supply set point T1 is under system default state, is usually used in self-operated thermostatic controller.Work as building When the internal temperature of interior corresponding region is less than T1, heating ventilation regulates (HVAC) system start-up with air Heat supply to this region so that the temperature in this region rises.Minimum heat supply set point T2 refers to this building The minimum temperature that individual region must keep at specific time point.This minimum heat supply set point T2 is used to really Protect in this building or the comfortableness of the habitant of building or safety.When the corresponding region in building When internal temperature is less than T2, heating ventilation regulates (HVAC) system start-up heat supply to this region with air, The temperature making this region rises.

Specifically, the most also include: preset heat supply lower threshold X and heat supply upper limit threshold S；Preset multiple heat supply intermediate threshold (H1, H2 ..., Hn-1, Hn) and multiple confessions of correspondence Heat adjustment increment (R1, R2 ..., Rn-1, Rn).In step s 2, the heat supply set point after adjustment T3 meets following relation:

The Current Temperatures T of building perimeter meets T > S time, T3=T1；

When the Current Temperatures T of building perimeter meets S≤T≤H1, T3=T1-H1；

The Current Temperatures T of building perimeter meet Hi < during T≤Hi-1, T3=T1-Ri, wherein 2≤i ≤n；

The Current Temperatures T of building perimeter meet T < during X, T3=T2.

Use this algorithm that heat supply set point is adjusted, control more accurate so that while energy-conservation also Can preferably meet the demand to temperature of user of service, Consumer's Experience can be improved.

The purpose being merely to illustrate, provides an example in table below, represent a district in building Territory is initialization temperature set-point and a reference point at a certain particular point in time in specific a day.

	Temperature (DEG C)
		Default heat supply set point T1	18
Minimum heat supply set point T2	15
		Heat supply upper limit threshold S	10
H1	8
		H2	5
…	…
		Hn-1	3
Hn	0
		Heat supply lower threshold X	-1
R1	0.5
		R2	1
…	…
		Rn-1	4
Rn	4.5

Such as, when ambient temperature is higher than heat supply upper limit threshold S (10 DEG C), it is not necessary to initial temperature control Setting value is adjusted, and is maintained at default heat supply set point T1 (18 DEG C).When ambient temperature reduces To time between heat supply upper limit threshold S and H1, such as 9 DEG C, adjustment algorithm is triggered, after adjustment Heat supply set point T3=T1 (18 DEG C)-R1 (0.5 DEG C)=17.5 DEG C.

If ambient temperature continues to reduce, such as, to 2.8 DEG C, between Hn-1, Hn, so, Heat supply set point T3=T1 (18 DEG C) Hn (4.5 DEG C) after adjustment=13.5 DEG C.Once ambient temperature is less than Heat supply lower threshold X, the heat supply set point T3 after adjustment are maintained at minimum heat supply set point T2=15 DEG C, and And can not reduce again.To guarantee in this building or the comfortableness of the habitant of building or safety.

Preferably, this initial temperature control set point also includes that default cooling set point T4 and maximum cooling set Fixed point T5.Default cooling set point T4 is the temperature control settings point under default conditions.When in building When the internal temperature of corresponding region is less than T4, heating ventilation and air regulation (HVAC) system start-up are to this The cooling in region so that the temperature in this region declines.Maximum cooling set point T5 refers to certain district of this building The maximum temperature that territory can keep at specific time point.This maximum cooling set point T5 is used to assure that The comfortableness of the habitant of this building or building or safety.Inside when the corresponding region in building When temperature is higher than T5, heating ventilation and air regulate (HVAC) system start-up to this region for cold and hot, The temperature making this region declines.

Specifically, the most also include: preset cooling lower threshold P and cooling upper limit threshold Q；Preset multiple cooling intermediate threshold (E1, E2 ..., En-1, En) and multiple systems of correspondence The whole increment of cool tone (W1, W2 ..., Wn-1, Wn).Accordingly, in step s 2, the confession after adjustment Cold control set point T3 meets following relation:

The Current Temperatures T of building perimeter meet T < during P, T3=T4；Such as when default cooling Set point is 26 DEG C, therefore, when Current Temperatures T is less than cooling lower threshold P, and T3=26 DEG C.

When the Current Temperatures T of building perimeter meets P≤T≤E1, T3=T4+W1；

The Current Temperatures T of building perimeter meet Ei-1 < during T≤Ei, T3=T4+Wi, wherein 2≤i ≤n；

The Current Temperatures T of building perimeter meets T > Q time, T3=T5.

The purpose being merely to illustrate, provides an example in table below, represent a district in building Territory one in specific one day the external temperature of a certain particular point in time with adjust after cooling set point Between relation.

External temperature (DEG C)	Cooling set point (DEG C) after adjustment
		20	26
27	27
		31	28
35	29

It is to be appreciated that any or all of temperature control settings point all can according to the preference of user comfortable by User's input.Additionally provide further method to determine part or all of set point and/or reference point. Any temperature control settings point and/or the adjustment of reference point, it is considered to factor include using timetable and use The hobby of person, position, the weather data of history, the target saving the energy or purpose, heat supply or refrigeration plant Age or situation.

Fig. 2 shows the building temperature control system in one embodiment of the present invention, including the first collection Module the 101, second acquisition module 102 and control module 103.

This first acquisition module 101 is for gathering the Current Temperatures T of building perimeter.It can pass through Connect and be arranged on the temperature sensor of corresponding region to gather the Current Temperatures T of building perimeter, also may be used With according to the positional information of this building data base, such as weather data storehouse, inquire about this building outside area The Current Temperatures T in territory.

This second acquisition module 102 is for gathering the initial temperature in one or more regions of interior of building Control set point.The initial temperature that second acquisition module 102 gathers controls set point and includes that default heat supply sets Point T1, minimum heat supply set point T2, default cooling set point T4 and maximum cooling set point T5.

This control module 103 for the Current Temperatures according to building perimeter, interior of building one or The initial temperature in multiple regions controls the temperature that set point adjusts one or more regions of this interior of building Control set point, and the temperature control settings point after adjusting is sent to the corresponding region of described interior of building To adjust the temperature of this corresponding region.

Specifically, control module 103 is additionally operable to: preset heat supply lower threshold X and heat supply upper limit threshold S；Preset multiple heat supply intermediate threshold (H1, H2 ..., Hn-1, Hn) and multiple confessions of correspondence Heat adjustment increment (R1, R2 ..., Rn-1, Rn).

Heat supply set point T3 after control module 103 adjusts meets following relation:

The Current Temperatures T of building perimeter meets T > S time, T3=T1；

When the Current Temperatures T of building perimeter meets S≤T≤H1, T3=T1-H1；

The Current Temperatures T of building perimeter meet Hi < during T≤Hi-1, T3=T1-Ri, wherein 2≤i ≤n；

The Current Temperatures T of building perimeter meet T < during X, T3=T2.

It is to be appreciated that control module 103 is additionally operable to: preset cooling lower threshold P and the cooling upper limit Threshold value Q and preset multiple cooling intermediate threshold (E1, E2 ..., En-1, En) and correspondence Multiple refrigeration adjustment increments (W1, W2 ..., Wn-1, Wn).

Accordingly, the cooling after this control module 103 adjusts controls set point T3 and meets following relation:

The Current Temperatures T of building perimeter meet T < during P, T3=T4；

When the Current Temperatures T of building perimeter meets P≤T≤E1, T3=T4+W1；

The Current Temperatures T of building perimeter meet Ei-1 < during T≤Ei, T3=T4+Wi, wherein 2≤i ≤n；

The Current Temperatures T of building perimeter meets T > Q time, T3=T5.

Preferably, this building temperature control system can also include and depositing that the second acquisition module 102 is connected Reservoir 104, preserves the making of one or more regions of the interior of building preestablished in memorizer 104 Use timetable.The initial temperature using one or more regions in timetable with interior of building controls to set Definite value and the mapping relations of time period；Second acquisition module 102 controls setting value and time according to initial temperature The mapping relations of section obtain the initial temperature control of the current slot in one or more regions of interior of building Set up fixed point.

It is to be appreciated that this building temperature control system may be disposed at the server of this locality, it is also possible to arrange On cloud server.

Above in conjunction with accompanying drawing, embodiments of the invention are described, but the invention is not limited in above-mentioned Detailed description of the invention, above-mentioned detailed description of the invention is only schematic rather than restrictive, this The those of ordinary skill in field, under the enlightenment of the present invention, is being protected without departing from present inventive concept and claim Under the ambit protected, it may also be made that a lot of form, within these belong to the protection of the present invention.

Claims (9)

1. a building temperature-controlled process, it is characterised in that comprise the following steps:

S1, the Current Temperatures T of collection building perimeter；Obtain the current temperature of building perimeter Degree includes: gather the positional information of described building, inquires about institute according to described positional information in data base State the Current Temperatures of building perimeter；

The initial temperature in the one or more regions gathering interior of building controls set point；

S2, one or more according to Current Temperatures, the described interior of building of described building perimeter The initial temperature in region controls the temperature in one or more regions that set point adjusts this interior of building and controls Set point；

S3, will adjust after temperature control settings point be sent to the corresponding region of described interior of building to adjust The temperature of this corresponding region whole.

Building temperature-controlled process the most according to claim 1, it is characterised in that in described step Rapid S1 also includes: preset heat supply lower threshold X and heat supply upper limit threshold S；Preset multiple Heat supply intermediate threshold (H1, H2 ..., Hn-1, Hn) and correspondence multiple heat supplies adjust increment (R1, R2 ..., Rn-1, Rn)；Described initial temperature controls set point and includes default heat supply set point T1 and Little heat supply set point T2；

In described step S2, the heat supply set point T3 after adjustment meets following relation:

The Current Temperatures T of described building perimeter meets T > S time, T3=T1；

When the Current Temperatures T of described building perimeter meets S≤T≤H1, T3=T1-H1；

The Current Temperatures T of described building perimeter meet Hi < during T≤Hi-1, T3=T1-Ri, wherein 2≤i≤n；

The Current Temperatures T of described building perimeter meet T < during X, T3=T2.

Temperature-controlled process the most according to claim 1 and 2, it is characterised in that in described step S1 also includes: preset cooling lower threshold P and cooling upper limit threshold Q；Preset multiple cooling Intermediate threshold (E1, E2 ..., En-1, En) and multiple refrigeration adjustment increments of correspondence (W1, W2 ..., Wn-1, Wn)；Described initial temperature controls set point and includes default cooling set point T4 and maximum cooling set point T5；

In described step S2, cooling after adjustment controls set point T3 and meets following relation:

The Current Temperatures T of described building perimeter meet T < during P, T3=T4；

When the Current Temperatures T of described building perimeter meets P≤T≤E1, T3=T4+W1；

The Current Temperatures T of described building perimeter meet Ei-1 < during T≤Ei, T3=T4+Wi, wherein 2≤i≤n；

The Current Temperatures T of described building perimeter meets T > Q time, T3=T5.

Building temperature-controlled process the most according to claim 1, it is characterised in that in described step In rapid S1, the initial temperature in one or more regions of described collection interior of building controls set point bag Include:

Set up the use timetable in one or more regions of interior of building, described use timetable has The initial temperature having one or more regions of described interior of building controls the mapping of set point and time period Relation；

The mapping relations described interior of building of acquisition of set point and time period is controlled according to described initial temperature One or more regions current slot initial temperature control set point.

Building temperature-controlled process the most according to claim 1, it is characterised in that in described step In rapid S1, gathered the Current Temperatures of described building perimeter by temperature sensor.

6. a building temperature control system, it is characterised in that including:

For gathering first acquisition module of the Current Temperatures T of building perimeter；Outside acquisition building The Current Temperatures in region, portion includes: inquire about described building perimeter in data base according to positional information Current Temperatures；

Adopt for gathering the second of the initial temperature control set point in one or more regions of interior of building Collection module；

Control module, described control module is for the Current Temperatures according to described building perimeter, institute The initial temperature control set point stating the one or more region of interior of building adjusts the one of this interior of building Individual or the temperature control settings point in multiple region, and the temperature control settings point after adjusting sends To the corresponding region of described interior of building to adjust the temperature of this corresponding region.

Building temperature control system the most according to claim 6, it is characterised in that described control Module is additionally operable to:

Preset heat supply lower threshold X and heat supply upper limit threshold S；

Preset multiple heat supply intermediate threshold (H1, H2 ..., Hn-1, Hn) and multiple confessions of correspondence Heat adjustment increment (R1, R2 ..., Rn-1, Rn)；

Described initial temperature controls set point and includes default heat supply set point T1 and minimum heat supply set point T2； In described step S2, the heat supply set point T3 after adjustment meets following relation:

The Current Temperatures T of described building perimeter meets T > S time, T3=T1；

When the Current Temperatures T of described building perimeter meets S≤T≤H1, T3=T1-H1

The Current Temperatures T of described building perimeter meet Hi < during T≤Hi-1, T3=T1-Ri, wherein 2≤i≤n；

The Current Temperatures T of described building perimeter meet T < during X, T3=T2.

8. according to the building temperature control system described in claim 6 or 7, it is characterised in that described Control module is additionally operable to:

Preset cooling lower threshold P and cooling upper limit threshold Q；

Preset multiple cooling intermediate threshold (E1, E2 ..., En-1, En) and multiple systems of correspondence The whole increment of cool tone (W1, W2 ..., Wn-1, Wn)；

Described initial temperature controls set point and includes default cooling set point T4 and maximum cooling set point T5； Cooling after adjustment controls set point T3 and meets following relation:

The Current Temperatures T of described building perimeter meet T < during P, T3=T4；

When the Current Temperatures T of described building perimeter meets P≤T≤E1, T3=T4+W1

The Current Temperatures T of described building perimeter meet Ei-1 < during T≤Ei, T3=T4+Wi, wherein 2≤i≤n；

The Current Temperatures T of described building perimeter meets T > Q time, T3=T5.

Building temperature control system the most according to claim 6, it is characterised in that also include with The memorizer that described second acquisition module connects, preserves in the building preestablished in described memorizer The use timetable in one or more regions in portion, has described interior of building in described use timetable The initial temperature in one or more regions control the mapping relations of setting value and time period；

Described second acquisition module obtains according to the mapping relations of described initial temperature control setting value with time period The initial temperature of the current slot taking one or more regions of described interior of building controls set point.