CN109556253A - Control method, device and equipment for courtyard machine - Google Patents

Abstract

The invention discloses a raise boring machine control method, device and equipment. Wherein, the method comprises the following steps: acquiring a demand parameter of each subarea of the raise boring machine; the working radiation area of the raise boring machine is divided into a plurality of subareas; calculating the energy demand value of each subarea according to the demand parameters of each subarea; and adjusting the air volume of each sub-area according to the energy requirement value of each sub-area. According to the invention, the energy of the equipment is properly distributed according to the energy requirement, so that the problem of comfort reduction caused by large energy requirement and insufficient energy transmission in a part of areas is solved, and the problem of energy waste caused by energy transmission to an invalid area or excessive energy transmission of the equipment is also solved. A comfortable experience environment is created, the energy utilization rate is improved, the reasonable utilization of resources is ensured, and the resource waste is avoided.

Description

A kind of courtyard machine control method, device and equipment

Technical field

The present invention relates to machine set technology fields, in particular to a kind of courtyard machine control method, device and equipment.

Background technique

Most of commercial situations (such as supermarket, cinema etc.) or Administrative Area, all can on the ceiling close and numerously Courtyard machine is installed, under this overall situation, due to flow of personnel, illumination etc. complicated factor, causes the required of each area Cooling capacity (when refrigeration) or heat (when heating) demand it is inconsistent.

And under present most of occasions, the wind deflector of air-conditioning is all fixed angle or simply swings, such Control mode does not accomplish energy of distributing according to need, and be easy to cause the reduction of partial region comfort, and partial region acts on transition, waste The energy.

That is, nowadays most of air-conditionings all do not distribute energy reasonably, it is all artificial control, or Person, the automatic swing flap of courtyard machine of leaving are randomly assigned.The consequence of this processing scheme is that energy has been assigned to invalid region and has been made At energy waste, alternatively, the big region of energy requirement is not allocated to enough energy, comfort is reduced.

Aiming at the problem that energy unreasonable distribution of air-conditioning in the prior art, currently no effective solution has been proposed.

Summary of the invention

A kind of courtyard machine control method, device and equipment are provided in the embodiment of the present invention, to solve air-conditioning in the prior art Energy unreasonable distribution the problem of.

In order to solve the above technical problems, the present invention provides a kind of courtyard machine control methods, wherein this method comprises: obtaining Take the subregional demand parameter of each of courtyard machine；Wherein, the working radiation region division of the courtyard machine is multiple subregions； Each subregional energy demand values are calculated according to each subregional demand parameter；According to each subregional energy need Evaluation adjusts each subregional air quantity.

Further, the demand parameter includes: number of users, user's body temperature, environment temperature.

Further, the subregional demand parameter of each of courtyard machine is obtained, comprising: obtain by infrared sensor every A subregional number of users；It is mild that each subregional user's body is obtained by infrared sensor and/or temperature sensor Environment temperature；Wherein, user's body temperature is the average value of each subregional all user's body temperature.

Further, each subregional energy demand values are calculated according to each subregional demand parameter, comprising: The difference of the number of users, user's body temperature, the environment temperature and preset temperature is weighted, is obtained each Subregional energy demand values；Wherein, it is weighted by following formula: E=k₁*n+k₂*t_People+k₃*△t；E is described Energy demand values, n are the number of users, t_PeopleIt is user's body temperature, △ t is the absolute value of the difference, k₁、k₂、k₃It is to take It is worth identical or different coefficient.

Further, according to each subregional energy demand values, each subregional air quantity is adjusted, comprising: determine and divide Region is overlapping subregion or non-overlapping partition domain；Wherein, the overlapping partition domain is the subregion of the overlapping of adjacent courtyard machine； If it is overlapping partition domain, it is determined that the minimum courtyard machine of integral energy requirements in adjacent courtyard machine, and determine the courtyard machine The subregional energy demand values；According to the subregional energy demand values, the subregional air quantity is adjusted；Wherein, The integral energy requirements are that the summation of each subregional energy demand values of the courtyard machine subtracts the overlapping partition The energy demand values in domain；If it is non-overlapping partition domain, then according to the subregional energy demand values, it is subregional to adjust this Air quantity.

Further, according to the subregional energy demand values, the subregional air quantity is adjusted, comprising: according to described Subregional energy demand values, adjust the courtyard eedle to the angle of the subregional wind deflector, subregional to adjust this Air quantity；Wherein, the angle of the wind deflector and the energy demand values are linear.

Further, the linear relationship of the angle of the wind deflector and the energy demand values, is realized by following formula: Y=K*E；Wherein, y is the angle of wind deflector, and K is coefficient.

The present invention also provides a kind of courtyard machine control devices, wherein the device includes: parameter acquisition module, for obtaining Take the subregional demand parameter of each of courtyard machine；Wherein, the working radiation region division of the courtyard machine is multiple subregions； Processing module, for calculating each subregional energy demand values according to each subregional demand parameter；Adjustment module, For adjusting each subregional air quantity according to each subregional energy demand values.

Further, the demand parameter includes: number of users, user's body temperature, environment temperature.

Further, the parameter acquisition module, comprising: first acquisition unit, for being obtained by infrared sensor Each subregional number of users；Second acquisition unit, it is each for being obtained by infrared sensor and/or temperature sensor Subregional user's body benign environment temperature；Wherein, user's body temperature is being averaged for each subregional all user's body temperature Value.

Further, the processing module is specifically used for the number of users, user's body temperature, the environment temperature It spends and is weighted with the difference of preset temperature, obtain each subregional energy demand values；Wherein, by following formula into Row weighted calculation: E=k₁*n+k₂*t_People+k₃*△t；E is the energy demand values, and n is the number of users, t_PeopleIt is the user Body temperature, △ t are the absolute value of the difference, k₁、k₂、k₃It is the identical or different coefficient of value.

Further, the adjustment module, comprising: determination unit, for determining subregion for overlapping subregion or non-heavy Folded subregion；Wherein, the overlapping partition domain is the subregion of the overlapping of adjacent courtyard machine；First adjusts unit, in institute Subregion is stated to be overlapped in subregional situation, determines the courtyard machine that integral energy requirements are minimum in adjacent courtyard machine, and really The subregional energy demand values of the fixed courtyard machine；According to the subregional energy demand values, it is subregional to adjust this Air quantity；Wherein, the integral energy requirements subtract institute for the summation of each subregional energy demand values of the courtyard machine State the energy demand values in overlapping partition domain；Second adjusts unit, is used in the case where the subregion is non-overlapping partition domain, According to the subregional energy demand values, the subregional air quantity is adjusted.

Further, the adjustment module is specifically used for adjusting the courtyard according to the subregional energy demand values Eedle is to the angle of the subregional wind deflector, to adjust the subregional air quantity；Wherein, the angle of the wind deflector with it is described Energy demand values are linear.

The present invention also provides a kind of equipment, wherein the equipment includes above-mentioned courtyard machine control device.

The present invention also provides a kind of computer equipment, including memory, processor and storage are on a memory and can be The computer program run on processor, wherein the processor realizes that above-mentioned courtyard machine such as controls when executing described program Method.

The present invention also provides a kind of storage medium comprising computer executable instructions, the computer executable instructions When being executed by computer processor for executing such as above-mentioned courtyard machine control method.

The energy of equipment is carried out a distribution appropriate according to energy requirement by the present invention, has both solved partial region energy Demand is big and the problem of energy conveying not enough causes comfort to reduce, also solve equipment energy and be delivered to inactive area or defeated The amount of passing through causes the problem of energy waste.A comfortable experience environment has been built, capacity usage ratio has been improved, guarantees resource It rationally utilizes, avoids the wasting of resources.

Detailed description of the invention

Fig. 1 is the flow chart of courtyard machine control method according to an embodiment of the present invention；

Fig. 2 is overlapping schematic diagram in the air-conditioning zone of action according to an embodiment of the present invention；

Fig. 3 is wind deflector schematic diagram according to an embodiment of the present invention；

Fig. 4 is air conditioner divisional control flow chart according to an embodiment of the present invention；

Fig. 5 is the structural block diagram of courtyard machine control according to an embodiment of the present invention.

Specific embodiment

Present invention is further described in detail in the following with reference to the drawings and specific embodiments, it should be understood that described herein Specific embodiment be only used to explain the present invention, be not intended to limit the present invention.

In subsequent description, it is only using the suffix for indicating such as " module ", " component " or " unit " of element Be conducive to explanation of the invention, itself there is no a specific meaning.Therefore, " module ", " component " or " unit " can mix Ground uses.

Currently, some high-end air-conditionings are already equipped with infrared human body detection sensor, equipped with this sensor Air-conditioning can measure the environment temperature of surrounding and the human body information of surrounding, can carry out some intelligence to air-conditioning using these information The control of change.

Based on this, the invention proposes the scheme of air conditioner energy is distributed by calculating energy requirement, to realize energy conservation And increase the effect of comfort.

It is introduced below by preferred embodiment.

Fig. 1 is the flow chart of courtyard machine control method according to an embodiment of the present invention, as shown in Figure 1, this method include with Lower step:

Step S101 obtains the subregional demand parameter of each of courtyard machine；Wherein, the working radiation region of courtyard machine is drawn It is divided into multiple subregions；

Step S102 calculates each subregional energy demand values according to each subregional demand parameter；

Step S103 adjusts each subregional air quantity according to each subregional energy demand values.

Through this embodiment, the energy of equipment is subjected to a distribution appropriate according to energy requirement, both solves part Region energy demand is big and energy conveys the problem of not enough comfort being caused to reduce, and also solves equipment and energy is delivered in vain The problem of region or conveying excessively cause energy waste.A comfortable experience environment has been built, capacity usage ratio has been improved, protects The reasonable utilization for demonstrate,proving resource, avoids the wasting of resources.

It should be noted that the demand parameter in the present embodiment includes at least: number of users, user's body temperature, environment temperature. When carrying out subregion division, the working radiation region of courtyard machine can be carried out to average division, such as according to all directions four A orientation is divided into four regions, can also be divided according to actual needs according to preset rules, for example, for density of stream of people Subregional area is divided smaller, small for density of stream of people orientation, subregional area is divided by big orientation It is larger, etc..

It when obtaining the subregional demand parameter of each of courtyard machine, can be realized by following preferred embodiment: logical It crosses infrared sensor and obtains each subregional number of users；It is obtained by infrared sensor and/or temperature sensor every A subregional user's body benign environment temperature；Wherein, user's body temperature is the average value of each subregional all user's body temperature. Above-mentioned infrared sensor and temperature sensor may be mounted on courtyard machine.Certainly, if there is other sensors can detecte To the demand parameter, also can be applied in the scheme of the present embodiment.

After getting the demand parameter, it can be calculated according to each subregional demand parameter each subregional Energy demand values specifically include: the difference of number of users, user's body temperature, environment temperature and preset temperature are weighted, Obtain each subregional energy demand values；Wherein, it is weighted by following formula: E=k₁*n+k₂*t_People+k₃*△t； E is energy demand values, and n is number of users, t_PeopleIt is user's body temperature, △ t is the absolute value of difference, k₁、k₂、k₃Be value it is identical or Different coefficients, size can be measured or be adjusted according to experiment or actual demand.Based on this, courtyard can be accurately calculated Energy required for each subregion of machine, to provide suitable energy for it.

Since the installation site of courtyard machine is closer, there can be the overlapping region of two or more courtyard machines.Fig. 2 The air-conditioning zone of action according to an embodiment of the present invention overlapping schematic diagram, as shown in Fig. 2, air-conditioning A and air-conditioning B be all divided into a, b, C, tetra- subregions d (or being the face a, the face b, the face c, the face d).

Assuming that air-conditioning A with the set temperature of air-conditioning B as the environment temperature of place, the small circle representative of shade.It is empty Adjust the number in each face in A different, energy requirement is not consistent, if distributing energy according to the principle of energy mean allocation, In order to make the maximum face of energy requirement reach scheduled effect, air-conditioning A just needs to increase power, this will result in energy requirement not The so big face b wastes energy.

Assuming that most of region in the face a in the face c and air-conditioning B of air-conditioning A overlaps, overlapping region is known as S.Remove this This partial region of air-conditioning A can be obtained after the S of block overlapping region since the quantity of people is relatively more, energy requirement is greater than air-conditioning B This partial region energy requirement.If the energy requirement of air-conditioning A has made air-conditioning A can't bear the heavy load, then by air-conditioning A Whole comfort will be reduced if controlling overlapping region S, so overlapping region S should be (total by integral energy demand Energy requirement subtract the energy requirement of overlapping region) smaller air-conditioning B controls, so as to realize the rationalization benefit of energy With.

That is, the face a energy requirement is big in air-conditioning A, the face b energy requirement is few, it should which more refrigerating capacitys or heating capacity are defeated It send to the face a, the face b is then suitably reduced.In overlapping region S, since the energy requirement that air-conditioning A is responsible for is bigger than air-conditioning B, so this is heavy Folded region S should distribute energy by air-conditioning B.

Based on this, a kind of preferred embodiment is present embodiments provided, i.e., according to each subregional energy demand values tune Save each subregional air quantity, comprising: determine subregion for overlapping subregion or non-overlapping partition domain；Wherein, overlapping partition domain It is the subregion of the overlapping of adjacent courtyard machine；If it is overlapping partition domain, it is determined that integral energy requirements in adjacent courtyard machine Minimum courtyard machine, and determine the subregional energy demand values of the courtyard machine；According to subregional energy demand values, adjusting should Subregional air quantity；Wherein, integral energy requirements are that the summation of each subregional energy demand values of courtyard machine subtracts weight Fold subregional energy demand values；If it is non-overlapping partition domain, then according to subregional energy demand values, the subregion is adjusted Air quantity.Hereby it is possible to realize the effective use of energy.

When adjusting the subregional air quantity according to subregional energy demand values, it can come by adjusting the angle of wind deflector Achieve the purpose that control air output.I.e. according to subregional energy demand values, courtyard eedle is adjusted to the subregional wind deflector Angle, to adjust the subregional air quantity；Wherein, the angle of wind deflector and energy demand values are linear.

Fig. 3 is wind deflector schematic diagram according to an embodiment of the present invention, as shown in figure 3, when wind deflector is stirred downwards, outlet air Angle increases, and energy conveying speed increases, and when wind deflector dials up, air outlet angle reduces, and energy conveying reduces.It therefore can A wind deflector angle and the linear relational expression of energy requirement are established, such as wind deflector angle y=K*E.Y is wind deflector Angle, K are coefficients, and specific value can be adjusted according to actual needs.

Fig. 4 is air conditioner divisional control flow chart according to an embodiment of the present invention, as shown in figure 4, the process includes following Step:

Step S401, sensor obtain the parameter informations such as each subregional human body quantity, human body temperature and environment temperature；

Step S402 calculates each subregional energy demand values according to above-mentioned parameter information；Before calculation It is described in detail, details are not described herein；

Step S403, the summation of each subregional energy demand values of calculating subtract the energy demand values in overlapping partition domain E_{It is whole}Size；

Step S404, the E of more each air-conditioning_{It is whole}Size is responsible for controlling the wind in overlapping partition domain by the smallest air-conditioning of numerical value Amount；

Step S405 controls each subregion and divides wind deflector angle according to each subregional energy demand values.

After handling above, air-conditioning can be according to each subregional number, environment temperature, user's body temperature come appropriate Distribute the output of each subregional refrigerating capacity or heating capacity.While meeting each subregional demand, it will not make At the waste of extra heating capacity or refrigerating capacity, it will not cause cause comfort level to reduce to the Repetitive controller of overlapping region to ask Topic.

Embodiment two

Corresponding to the courtyard machine control method of Fig. 1 introduction, a kind of courtyard machine control device, such as Fig. 5 are present embodiments provided Shown in the control of courtyard machine structural block diagram, which includes:

Parameter acquisition module 10, for obtaining the subregional demand parameter of each of courtyard machine；Wherein, the work of courtyard machine Radiation areas are divided into multiple subregions；

Processing module 20 is connected to parameter acquisition module 10, each for being calculated according to each subregional demand parameter Subregional energy demand values；

Adjustment module 30 is connected to processing module 20, for adjusting each point according to each subregional energy demand values The air quantity in region.

Through this embodiment, the energy of equipment is subjected to a distribution appropriate according to energy requirement, both solves part Region energy demand is big and energy conveys the problem of not enough comfort being caused to reduce, and also solves equipment and energy is delivered in vain The problem of region or conveying excessively cause energy waste.A comfortable experience environment has been built, capacity usage ratio has been improved, protects The reasonable utilization for demonstrate,proving resource, avoids the wasting of resources.

It should be noted that the demand parameter in the present embodiment includes at least: number of users, user's body temperature, environment temperature. When carrying out subregion division, the working radiation region of courtyard machine can be carried out to average division, such as according to all directions four A orientation is divided into four regions, can also be divided according to actual needs according to preset rules, for example, for density of stream of people Subregional area is divided smaller, small for density of stream of people orientation, subregional area is divided by big orientation It is larger, etc..

Above-mentioned parameter obtains module 10, may include: first acquisition unit, each for being obtained by infrared sensor Subregional number of users；Second acquisition unit, for obtaining each subregion by infrared sensor and/or temperature sensor The user's body benign environment temperature in domain；Wherein, user's body temperature is the average value of each subregional all user's body temperature.It is above-mentioned red Outside line sensor and temperature sensor may be mounted on courtyard machine.Certainly, if there is other sensors can detecte it is above-mentioned Demand parameter also can be applied in the scheme of the present embodiment.

Above-mentioned processing module 20, specifically for the difference to number of users, user's body temperature, environment temperature and preset temperature into Row weighted calculation obtains each subregional energy demand values；Wherein, it is weighted by following formula: E=k₁*n+ k₂*t_People+k₃*△t；E is energy demand values, and n is number of users, t_PeopleIt is user's body temperature, △ t is the absolute value of difference, k₁、k₂、k₃ It is the identical or different coefficient of value.Based on this, energy required for each subregion of courtyard machine can be accurately calculated, from And suitable energy is provided for it.

Above-mentioned adjustment module 30, may include: determination unit, for determining subregion for overlapping subregion or non-overlap point Region；Wherein, overlapping partition domain is the subregion of the overlapping of adjacent courtyard machine；First adjusts unit, for attaching most importance in subregion It folds in subregional situation, determines the courtyard machine that integral energy requirements are minimum in adjacent courtyard machine, and determine the courtyard machine Subregional energy demand values；According to subregional energy demand values, the subregional air quantity is adjusted；Wherein, integral energy needs The summation for evaluating as each subregional energy demand values of courtyard machine subtracts the energy demand values in overlapping partition domain；Second is adjusted Unit, for according to subregional energy demand values, it is subregional to adjust this in the case where subregion is non-overlapping partition domain Air quantity.Hereby it is possible to realize the effective use of energy.

Above-mentioned adjustment module 30 is specifically used for adjusting courtyard eedle to the subregion according to subregional energy demand values Wind deflector angle, to adjust the subregional air quantity；Wherein, the angle of wind deflector and energy demand values are linear. For example, wind deflector angle y=K*E.Y is the angle of wind deflector, and K is coefficient, and specific value can be adjusted according to actual needs It is whole

The present embodiment additionally provides a kind of equipment, which includes the courtyard machine control device of above-mentioned introduction.

The present embodiment additionally provides a kind of computer equipment, including memory, processor and storage are on a memory and can The computer program run on a processor, above-mentioned processor realize the courtyard machine control introduced such as embodiment one when executing program Method.

The present embodiment additionally provides a kind of storage medium comprising computer executable instructions, and computer executable instructions exist For executing the courtyard machine control method introduced such as embodiment one when being executed by computer processor.

From the above description it is found that essential core point of the invention is: by the energy of equipment according to energy requirement into One distribution appropriate of row, had both solved partial region energy requirement greatly and energy conveying not enough causes asking for comfort reduction Topic also solves the problems, such as that energy is delivered to inactive area by equipment or conveying excessively causes energy waste.One has been built to relax Suitable experience environment, improves capacity usage ratio, guarantees the reasonable utilization of resource, avoids the wasting of resources.

It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row His property includes, so that the process, method, article or the device that include a series of elements not only include those elements, and And further include other elements that are not explicitly listed, or further include for this process, method, article or device institute it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including being somebody's turn to do There is also other identical elements in the process, method of element, article or device.

The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.

Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side Method can be realized by means of software and necessary general hardware platform, naturally it is also possible to by hardware, but in many cases The former is more preferably embodiment.Based on this understanding, technical solution of the present invention substantially in other words does the prior art The part contributed out can be embodied in the form of software products, which is stored in a storage medium In (such as ROM/RAM, magnetic disk, CD), including some instructions are used so that a mobile terminal (can be mobile phone, computer, clothes Business device, air conditioner or the network equipment etc.) execute method described in each embodiment of the present invention.

The embodiment of the present invention is described above in conjunction with figure, but the invention is not limited to above-mentioned specific realities Mode is applied, the above mentioned embodiment is only schematical, rather than restrictive, and those skilled in the art exist Under enlightenment of the invention, without breaking away from the scope protected by the purposes and claims of the present invention, many shapes can be also made Formula, all of these belong to the protection of the present invention.

Claims (16)

1. a kind of courtyard machine control method, which is characterized in that the described method includes:

Obtain the subregional demand parameter of each of courtyard machine；Wherein, the working radiation region division of the courtyard machine is multiple Subregion；

Each subregional energy demand values are calculated according to each subregional demand parameter；

According to each subregional energy demand values, each subregional air quantity is adjusted.

2. the method according to claim 1, wherein the demand parameter include: number of users, user's body temperature, Environment temperature.

3. according to the method described in claim 2, it is characterized in that, obtaining the subregional demand parameter of each of courtyard machine, packet It includes:

Each subregional number of users is obtained by infrared sensor；

Each subregional user's body benign environment temperature is obtained by infrared sensor and/or temperature sensor；Wherein, institute State the average value that user's body temperature is each subregional all user's body temperature.

4. according to the method described in claim 2, it is characterized in that, being calculated according to each subregional demand parameter each Subregional energy demand values, comprising:

The difference of the number of users, user's body temperature, the environment temperature and preset temperature is weighted, is obtained Each subregional energy demand values；

Wherein, it is weighted by following formula:

E=k₁*n+k₂*t_People+k₃*△t；

E is the energy demand values, and n is the number of users, t_PeopleIt is user's body temperature, △ t is the absolute value of the difference, k₁、k₂、k₃It is the identical or different coefficient of value.

5. according to the method described in claim 2, it is characterized in that, being adjusted each according to each subregional energy demand values Subregional air quantity, comprising:

Determine subregion for overlapping subregion or non-overlapping partition domain；Wherein, the overlapping partition domain is the weight of adjacent courtyard machine Folded subregion；

If it is overlapping partition domain, it is determined that the minimum courtyard machine of integral energy requirements in adjacent courtyard machine, and determine the day The subregional energy demand values of well machine；According to the subregional energy demand values, the subregional air quantity is adjusted；Its In, the integral energy requirements are that the summation of each subregional energy demand values of the courtyard machine subtracts the overlapping point The energy demand values in region；

If it is non-overlapping partition domain, then according to the subregional energy demand values, the subregional air quantity is adjusted.

6. according to the method described in claim 5, it is characterized in that, adjusting this point according to the subregional energy demand values The air quantity in region, comprising:

According to the subregional energy demand values, the courtyard eedle is adjusted to the angle of the subregional wind deflector, to adjust Save the subregional air quantity；Wherein, the angle of the wind deflector and the energy demand values are linear.

7. according to the method described in claim 6, it is characterized in that, the line of the angle of the wind deflector and the energy demand values Sexual intercourse is realized by following formula:

Y=K*E；Wherein, y is the angle of wind deflector, and K is coefficient.

8. a kind of courtyard machine control device, which is characterized in that described device includes:

Parameter acquisition module, for obtaining the subregional demand parameter of each of courtyard machine；Wherein, the work spoke of the courtyard machine Penetrating region division is multiple subregions；

Processing module, for calculating each subregional energy demand values according to each subregional demand parameter；

Adjustment module, for adjusting each subregional air quantity according to each subregional energy demand values.

9. device according to claim 8, which is characterized in that the demand parameter include: number of users, user's body temperature, Environment temperature.

10. device according to claim 9, which is characterized in that the parameter acquisition module, comprising:

First acquisition unit, for obtaining each subregional number of users by infrared sensor；

Second acquisition unit, for obtaining each subregional user's body temperature by infrared sensor and/or temperature sensor And environment temperature；Wherein, user's body temperature is the average value of each subregional all user's body temperature.

11. device according to claim 9, which is characterized in that

The processing module, specifically for the number of users, user's body temperature, the environment temperature and preset temperature Difference is weighted, and obtains each subregional energy demand values；Wherein, it is weighted by following formula: E= k₁*n+k₂*t_People+k₃*△t；E is the energy demand values, and n is the number of users, t_PeopleIt is user's body temperature, △ t is described The absolute value of difference, k₁、k₂、k₃It is the identical or different coefficient of value.

12. device according to claim 9, which is characterized in that the adjustment module, comprising:

Determination unit, for determining subregion for overlapping subregion or non-overlapping partition domain；Wherein, the overlapping partition domain is phase The subregion of the overlapping of adjacent courtyard machine；

First adjusts unit, in the case where the subregion is to be overlapped subregional situation, determining whole energy in adjacent courtyard machine The minimum courtyard machine of requirements is measured, and determines the subregional energy demand values of the courtyard machine；According to described subregional Energy demand values adjust the subregional air quantity；Wherein, the integral energy requirements are each subregion of the courtyard machine The summations of energy demand values subtract the energy demand values in the overlapping partition domain；

Second adjusts unit, is used in the case where the subregion is non-overlapping partition domain, according to the subregional energy Requirements adjust the subregional air quantity.

13. device according to claim 12, which is characterized in that

The adjustment module is specifically used for adjusting the courtyard eedle to the subregion according to the subregional energy demand values The angle of the wind deflector in domain, to adjust the subregional air quantity；Wherein, the angle of the wind deflector and the energy demand values at Linear relationship.

14. a kind of equipment, which is characterized in that the equipment includes the control of courtyard machine described in any one of claim 8 to 13 Device.

15. a kind of computer equipment including memory, processor and stores the meter that can be run on a memory and on a processor Calculation machine program, which is characterized in that the processor is realized as described in any one of claims 1 to 7 when executing described program Courtyard machine control method.

16. a kind of storage medium comprising computer executable instructions, the computer executable instructions are by computer disposal For executing the courtyard machine control method as described in any one of claims 1 to 7 when device executes.