CN106839338B - A kind of air-conditioning control system and air-conditioning method - Google Patents

Abstract

Present patent application is a kind of air-conditioning control system and air-conditioning method.Present patent application is related to intelligent air-conditioning system, more particularly to the technology to indoor each space temperature variation temperature control.A kind of air-conditioning method is disclosed, the method step includes: S100: a temperature monitoring module is respectively set at least three regions of the air-conditioning side；S200: the angle that the air-conditioning is constituted with the air-conditioning respectively according to the temperature value of the trizonal temperature monitoring module and three regions controls swing flap angular speed.

Description

A kind of air-conditioning control system and air-conditioning method

Technical field

Present patent application is related to intelligent air-conditioning system, more particularly to the technology to indoor each space temperature variation temperature control.

Background technique

With the development of society, refrigeration equipment has become most common equipment instantly, such as air-conditioning, refrigerator, refrigerator-freezer etc. Smart machine, air-conditioning can provide the user with more preferable more comfortable indoor environment temperature, refrigerator can by the food of user or Other things store the time more lengthened.

Various types of air-conditioning systems, such as air conditioner, warming machine and electric fan etc. have all generally been used in existing In generation life.And with the development of science and technology whether promoting the effect that air-conditioning system generates idle call gas (such as cold air, heating) Rate reduces the air-conditioning system produced pollution or develops wireless remote control to promote ease of use etc., and air-conditioning system changes Kind is a popular field always.

Existing air-conditioning system, after forming idle call gas, by the mode of idle call gas propagation to ambient enviroment, greatly It causes that three kinds can be divided into: idle call gas (1) is carried out to wide-angle in ambient enviroment and the periodical of big orientation transmits, such as often The electric fan seen；(2) fixation sends out idle call gas to a certain angle of a direction, then idle call gas is allowed to pass through thermal diffusion Mode be uniformly diffused into entire ambient enviroment, such as common air conditioner function mode；(3) user must be with manually side The direction of formula adjustment deflector etc. or manually mobile air conditioner system, allow idle call gas to be transferred into specific orientation, such as move Move deflector or mobile existing electric fan that the cold air of existing air conditioner portals.In addition, the also temperature of with good grounds context Whether within a predetermined range, the condition or according to user being previously set carries out the mode of automation air-conditioning.

However, all these prior arts have the shortcomings that one it is common: the transmission of idle call gas is there is no with most It needs the situation of the user of air-conditioning and changes, do not adjusted with presence or absence, position and number used etc., and only It is to transmit idle call gas repeatedly in a predetermined manner.It is apparent that since the prior art directly can not allow user to feel By the effect of air-conditioning, the prior art will always handled where user outside orientation, also the entire ambient enviroment of extra process.Cause This, the rate that such as user experiences air-conditioning effect is slow, air-conditioning system power consumption is big, air-conditioning system ease of use has Limit etc., is the inevitable missing of existing air-conditioning system.Therefore, these missings how to be improved, become for it is important and have quotient The topic of industry value.

Chinese Patent Application No. is CN03120032.X, should be the present invention relates to a kind of intelligent air-conditioning system, and use is infrared The mode of line detecting measures the Temperature Distribution of ambient enviroment, the position of body temperature signal is especially detected, then, according to survey Resulting data are measured, idle call gas is preferentially transmitted to the orientation where body temperature signal, or are preferentially transmitted to entire In the Temperature Distribution of environment, most there is an urgent need for the orientation of adjustment for temperature, and it is possible to depending on whether there is body temperature letter in ambient enviroment Number, decision is to continue to carry out air-conditioning, or pause carries out air-conditioning.

Chinese Patent Application No. is CN 201010579623.0, which provides temperature/humidity control method, intelligent power saving Controller and air-conditioning system, are related to electronic technology field.Temperature/humidity control method for energy-saving air conditioning system, comprising: acquisition The relative humidity and temperature of indoor and outdoors air；Calculate the indoor enthalpy difference value with outdoor；When enthalpy difference value is more than or equal to default enthalpy Poor threshold value, and room temperature is greater than the first preset upper limit value, when indoor relative humidity is less than preset lower limit value, drives energy-saving type air conditioner The gas handling system of system is opened, and outdoor air is introduced；In gas handling system, the air and recirculated water being introduced into are in gas handling system Cool down the cascade body contact of dedusting humidification cascade, and the fan operation of gas handling system is to increase the partial pressure of the vapor in cascade body surface face Power is cooled down and is humidified by the air that gas handling system is introduced in the evaporation of recirculated water, is sent into computer room later.The present invention can By using the control mode of indoor and outdoor air enthalpy difference, the temperature and humidity of computer room is adjusted, to be reached for the mesh of industry energy conservation emission reduction 's.

In above-mentioned patented technology, exists and have the disadvantage that

Intelligence degree is not high, and instinct effectively identifies the interregional temperature difference of temperature control, and it is interregional can not to effectively eliminate temperature control The temperature difference.

Summary of the invention

The technical program is the setting hygrosensor in temperature control region, obtains temperature and the temperature difference, is carried out to temperature difference region Temperature control with a definite target in view.

The present invention is achieved by the following technical solutions:

A kind of air-conditioning method, the method step include:

S100: a temperature monitoring module is respectively set at least three regions of the air-conditioning side；

S200: temperature value and three area of the air-conditioning according to the trizonal temperature monitoring module The angle that domain is constituted with the air-conditioning respectively controls swing flap angular speed.

Further, the air-conditioning method, the method step include further comprising:

S110: a temperature monitoring module is respectively set in the region of left, center, right three of the air-conditioning side；

S210: temperature value and institute of the air-conditioning according to the trizonal temperature monitoring module in the left, center, right The angle for stating the region of left, center, right three and air-conditioning composition controls the swing flap angular speed of lateral swing flap device.

Further, the air-conditioning method, the method step include further comprising:

S120: a temperature monitoring module is respectively set in the region of upper, middle and lower three of the air-conditioning side；

S220: temperature value and institute of the air-conditioning according to the trizonal temperature monitoring module in the upper, middle and lower The angle for stating the region of upper, middle and lower three and air-conditioning composition controls the swing flap angular speed of longitudinal swing flap device.

Further, the air-conditioning method includes the following steps: after the S200 step

S300: the temperature value that air-conditioning temperature monitoring module according to each region reports calculates and obtains each area Air supply time shared by domain.

Further, the air-conditioning method, the S300 step include the following steps:

S310: after the temperature value that air-conditioning temperature monitoring module according to each region reports, by the temperature Value is compared with preset value, obtains the region difference；

S320: each region difference value is obtained into total difference.

S330: the air-conditioning, to the accounting of total difference, distributes the institute in each region according to each region difference State air supply time.

Further, the air-conditioning method includes the following steps: after the S300 step

S400: the angle and distribute each region that the air-conditioning is constituted with the air-conditioning respectively according to each region The air supply time determines the swing flap angular speed in each region.

Further, the air-conditioning method, the swing flap angular speed in each region, according to each region point The angle not constituted with the air-conditioning is obtained divided by the air supply time for distributing each region.

The present invention also provides a kind of air-conditioning control systems of intelligent operation:

A kind of air-conditioning control system, the air-conditioning control system include air-conditioner host, several temperature monitoring moulds Block,

Several temperature monitoring modules spread at least three regions of the air-conditioning side, for feeding back the area The temperature value in domain；

The air-conditioner host, for controlling the interregional temperature gap.

Further, the air-conditioning control system, quotient's air-conditioner host include control module, communication module and sweep Wind apparatus,

The communication module, the temperature value reported for obtaining the temperature monitoring module；

The control module, for the temperature value according to each region control the swing flap device air supply time or Angular speed；

Further, the air-conditioning control system, the swing flap device include that lateral swing flap device and/or longitudinal direction are swept Wind apparatus,

The transverse direction swing flap device, for horizontal direction air-supply temperature control；

The longitudinal direction swing flap device, for vertical direction air-supply temperature control.

Further, the air-conditioning control system, the control module include control chip, memory and calculating Device,

The memory, temperature value that the temperature monitoring module for storing each region reports, each area The swing flap cycle time of angle, preset temperature value and the preset swing flap device that domain is constituted with the air-conditioning respectively；

The calculator, according to the storage information of the memory, calculate the swing flap angular speed for obtaining each region and The air supply time in each region；

The control chip controls the progress of work of the swing flap device according to the calculated result of the calculator.

Further, the air-conditioning control system, the temperature monitoring module includes at least power module, temperature passes Sensor and communication chip,

The temperature sensor, for obtaining temperature value；

The communication chip, for the temperature value to be sent to the communication module；

The power module, for providing operating voltage to the temperature sensor and communication chip.

The present invention one of at least has the advantages that:

1. it is not very symmetrical that the present invention overcomes original air-conditioning swing flap technologies in air-conditioning installation position or the interior space In the case where, the case where will cause indoor different zones temperature larger difference.

2. the present invention assigns the temperature difference of air-conditioning energy intelligent recognition different zones, the temperature difference between different zones can be also eliminated.

3. present invention imparting air-conditioning can change automatically the time of the air-supply of different zones and be swept according to the temperature difference in region The angular speed of wind.

4 present invention, which assign air-conditionings, can at least identify upper, middle and lower, left, center, right, 9 different zones, and to this 9 Different zones carry out temperature regulation.

5. intelligent air condition disclosed by the invention, intelligence degree is strong, high reliablity, has a wide range of application, no matter user Its position is placed, it adapts to installation environment, ensures that controlled temperature room keeps each space temperature variation consistent.

Detailed description of the invention

Invention is further described in detail with reference to the accompanying drawings and detailed description:

Fig. 1 is first embodiment of the invention flow diagram；

Fig. 2 is first embodiment of the invention system structure diagram；

Fig. 3 is first embodiment of the invention air-conditioner host module diagram；

Fig. 4 is first embodiment of the invention temperature detecting module structural schematic diagram；

Fig. 5 is third embodiment of the invention module diagram；

Fig. 6 is third embodiment of the invention system flow schematic diagram；

Fig. 7 is third embodiment of the invention schematic illustration；.

Description of symbols

Air-conditioner host --- 100, (logical process with) control module --- 130, control chip --- 131, storage Device --- 132, calculator --- 133, communication module --- 120, swing flap device --- 110, lateral swing flap device --- 112, --- --- 200, power module --- 230, temperature sensor --- 210 lead to longitudinal swing flap device for 113, temperature monitoring module Believe chip --- 220.

Specific embodiment

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, following description and accompanying drawings are for the present invention It is exemplary, and is understood not to the limitation present invention.Following description describe numerous details to facilitate to this hair Sensible solution.However, in some instances, well known or conventional details does not specify simultaneously, to meet the succinct requirement of specification.

In the application one typical computing hardware configuration, client/terminal, the network equipment and trusted party include one A or multiple processors (CPU), input/output interface, network interface and memory.

Client, mobile terminal or the network equipment in the present invention include processor, are handled containing single core processor or multicore Device.Processor is alternatively referred to as one or more microprocessors, central processing unit (CPU) etc..More specifically, processor can be Complicated instruction set calculates (CISC) microprocessor, reduced instruction set computing (RISC) microprocessor, very long instruction word (VLIW) Microprocessor, the processor for realizing other instruction set, or realize the processor of instruction set combination.Processor can also be one or more A application specific processor, such as specific integrated circuit (ASIC), field programmable gate array (FPGA), digital signal processor (DSP), network processing unit, graphics processor, network processing unit, communication processor, cipher processor, coprocessor, embedded Processor or be capable of handling instruction any other type logical block.Processor is used to execute the behaviour that the present invention is discussed Make the instruction with step.

Client, mobile terminal or the network equipment in the present invention include memory, for storing big data, it may include one A or multiple volatile storage devices, such as random access memory (RAM), dynamic ram (DRAM), synchronous dram (SDRAM), quiet State RAM (SRAM) or other kinds of storage equipment.Memory can store including by processor or any other equipment execution The information of instruction sequence.For example, several operation systems, device driver, firmware (for example, input and output fundamental system or BIOS) and/or the executable code of application program and/or data can be loaded in memory and be executed by processor.

The operating system of client, mobile terminal or the network equipment in the present invention can be any kind of operating system, Such as Windows, Windows Phone of Microsoft, Apple Inc. IOS, the Android and Linux of Google, Unix operating system or other real-time or embedded OS VxWorks etc..

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, following description and accompanying drawings are for the present invention It is exemplary, and is understood not to the limitation present invention.Following description describe numerous details to facilitate to this hair Sensible solution.However, in some instances, well known or conventional details does not specify simultaneously, to meet the succinct requirement of specification.This Equipment/system and method for invention is referring to following embodiments:

First embodiment

If Fig. 1 is shown in first embodiment of the invention flow diagram:

A kind of air-conditioning method, the method step include:

S100: a temperature monitoring module is respectively set at least three regions of the air-conditioning side；

S200: temperature value and three area of the air-conditioning according to the trizonal temperature monitoring module The angle that domain is constituted with the air-conditioning respectively controls swing flap angular speed.

Preferably, the air-conditioning method includes the following steps: after the S200 step

S300: the temperature value that air-conditioning temperature monitoring module according to each region reports calculates and obtains each area Air supply time shared by domain.

Preferably, the air-conditioning method, the S300 step include the following steps:

S310: after the temperature value that air-conditioning temperature monitoring module according to each region reports, by the temperature Value is compared with preset value, obtains the region difference；

S320: each region difference value is obtained into total difference.

S330: the air-conditioning, to the accounting of total difference, distributes the institute in each region according to each region difference State air supply time.

Preferably, the air-conditioning method includes the following steps: after the S300 step

S400: the angle and distribute each region that the air-conditioning is constituted with the air-conditioning respectively according to each region The air supply time determines the swing flap angular speed in each region.

Preferably, the air-conditioning method, the swing flap angular speed in each region, according to each region point The angle not constituted with the air-conditioning is obtained divided by the air supply time for distributing each region.

The present embodiment additionally provides a kind of air-conditioning control system of intelligent operation, if Fig. 2 is that the present invention first is real Apply a system structure diagram:

A kind of air-conditioning control system, the air-conditioning control system include air-conditioner host 100, several temperature monitorings Module 200,

Several temperature monitoring modules 200 spread at least three regions of the air-conditioning side, described for feeding back The temperature value in region；

The air-conditioner host 100, for controlling the interregional temperature gap.

Preferably, the air-conditioning control system, if Fig. 3 is the signal of first embodiment of the invention air-conditioner host module Shown in figure, quotient's air-conditioner host 100 includes control module 130, communication module 120 and swing flap device 110,

The communication module 120, the temperature value reported for obtaining the temperature monitoring module；

The control module 130, when controlling the air-supply of the swing flap device 110 for the temperature value according to each region Between or swing flap angular speed；

Preferably, the air-conditioning control system, the control module 130 include control chip 131, memory 132 and calculator 133,

The memory 132, it is temperature value that the temperature monitoring module for storing each region reports, each described The swing flap cycle time of angle, preset temperature value and the preset swing flap device that region is constituted with the air-conditioning respectively；

The calculator 133 calculates the swing flap angle for obtaining each region according to the storage information of the memory 132 The air supply time of speed and each region；

The control chip 131 controls the work of the swing flap device 110 according to the calculated result of the calculator 133 Process.

Preferably, the air-conditioning control system, if Fig. 4 is first embodiment of the invention temperature detecting module structure Shown in schematic diagram, the temperature monitoring module 200 includes at least power module 230, temperature sensor 210 and communication chip 220,

The temperature sensor, for obtaining temperature value；

The communication chip, for the temperature value to be sent to the communication module；

The power module, for providing operating voltage to the temperature sensor and communication chip.

Second embodiment

On the basis of example 1, the present embodiment further provides a kind of air-conditioning method: preferably, described Air-conditioning method, the method step include further comprising:

S110: a temperature monitoring module is respectively set in the region of left, center, right three of the air-conditioning side；

S210: temperature value and institute of the air-conditioning according to the trizonal temperature monitoring module in the left, center, right The angle for stating the region of left, center, right three and air-conditioning composition controls the swing flap angular speed of lateral swing flap device.

Preferably, the air-conditioning method, the method step include further comprising:

S120: a temperature monitoring module is respectively set in the region of upper, middle and lower three of the air-conditioning side；

S220: temperature value and institute of the air-conditioning according to the trizonal temperature monitoring module in the upper, middle and lower The angle for stating the region of upper, middle and lower three and air-conditioning composition controls the swing flap angular speed of longitudinal swing flap device.

On the basis of example 1, the present embodiment further provides a kind of air-conditioning control system, it is preferable that institute The air-conditioning control system stated, the swing flap device 110 include lateral swing flap device 112 and/or longitudinal swing flap device 113,

The transverse direction swing flap device, for horizontal direction air-supply temperature control；

The longitudinal direction swing flap device, for vertical direction air-supply temperature control.

3rd embodiment

Current air-conditioning has entered huge numbers of families, and the use of air-conditioning and daily life are closely bound up.Household is commonly empty It adjusts in swing flap, usually reciprocal uniform motion back and forth in a certain range.

Existing air-conditioning swing flap technology will cause room in the case where air-conditioning installation position or the interior space are not very symmetrical situation Interior temperature different zones in short-term (or when long) larger difference the case where.The present invention moves speed by adjusting in the swing flap of different zones Degree (achieve the purpose that adjust the different zones swing flap time), to reduce the temperature difference of indoor different zones in short-term (or when long) to the greatest extent Phenomenon.When air-conditioning puts wind, according to different location temperature difference, adjustment pendulum wind sway velocity, to reach the more balanced mesh of temperature 's.

Principle: the method for the present invention and device detect indoor different zones room temperature, according to testing result compared with temperature is arranged Compared with according to each region swing flap speed of its difference degree adjustment.Its device includes room temperature detection module, logical process and control Module.Temperature detecting module is made of different zones room temperature electronic detecting device, and logical process is with control module by obtaining Each region room temperature of detection gained is taken, compared with setting temperature, is turned according to its different difference control swing flap in each region Dynamic speed.

Technical solution of the present invention elaborates:

This programme and device mainly include following functional module:

1. temperature detecting module 200: detecting indoor different zones room temperature.

(2. logical process with) control module 130: reception obtains detection module data and carries out respective handling, controls air-conditioning Each region swing flap speed.

If Fig. 5 is shown in third embodiment of the invention module diagram:

This System Working Principle and process such as Fig. 6 are shown in third embodiment of the invention system flow schematic diagram, as Fig. 7 is Shown in third embodiment of the invention schematic illustration, the basic process of work operation is as follows:

1. temperature detecting module 200 detects indoor each regional temperature.Logical process and control module 130 obtain indoor each area Domain temperature simultaneously carries out respective handling.

2. carrying out the control of swing flap revolving speed according to each regional temperature processing result.

Data processing and control method Method And Principle:

1. temperature-detecting device 200 appropriate is uniformly disposed as needed in Room, it will be using air-conditioner air outlet as the fan in the center of circle Shape region (may include left, center, right sector, also may include upper, middle and lower sector) is divided into corresponding region, corresponding temperature inspection It surveys the real-time temperature that device obtains and is denoted as t1, t2 ... ... tn, each fan-shaped region respective angles are Φ.

2. compared with preset temperature, absolute difference is denoted as Δ t1, Δ according to each regional temperature detected t2,……Δtn.Total difference are as follows: Δ t=Δ t1+ Δ t2+ ...+Δ tn.

3. setting swing flap total time needed for from initial position to end position as Tt, the time shared by each region is calculated are as follows:

T1=Tt* Δ t1/ Δ t

……

Tn=Tt* Δ tn/ Δ t

Then, corresponding region swing flap angular speed are as follows:

ω 1=Φ/T1

……

ω n=Φ/Tn

The advantages of the invention, is: each region swing flap speed can be automatically adjusted according to indoor temperature difference situation, so as to Reduce the indoor temperature difference as far as possible.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included in the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.This Outside, it is clear that one word of " comprising " does not exclude other units or steps, and odd number is not excluded for plural number.That states in device claim is multiple Unit or device can also be implemented through software or hardware by a unit or device.The first, the second equal words are used to table Show title, and does not indicate any particular order.

Claims (6)

1. a kind of air-conditioning method, which is characterized in that the method step includes:

S100: a temperature monitoring module is respectively set at least three regions of the air-conditioning side；

S200: the air-conditioning is according to the temperature value of the trizonal temperature monitoring module and three regions point The angle not constituted with the air-conditioning controls swing flap angular speed；

S300: the temperature value that air-conditioning temperature monitoring module according to each region reports calculates and obtains each region institute Account for air supply time；

The air-supply of angle and each region of distribution that the air-conditioning is constituted with the air-conditioning respectively according to each region Time determines the swing flap angular speed in each region；

The S300 step includes the following steps:

S310: after the temperature value that air-conditioning temperature monitoring module according to each region reports, by the temperature value with Preset value is compared, and obtains the region difference；

S320: each region difference value is obtained into total difference；

S330: the air-conditioning, to the accounting of total difference, distributes the described of each region and send according to each region difference The wind time；

The swing flap angular speed in each region, the angle constituted respectively with the air-conditioning according to each region is divided by distribution The air supply time in each region obtains.

2. air-conditioning method according to claim 1, which is characterized in that the method step includes further comprising:

S110: a temperature monitoring module is respectively set in the region of left, center, right three of the air-conditioning side；

S210: the air-conditioning is according to the temperature value of the trizonal temperature monitoring module in the left, center, right and described The angle that the region of left, center, right three and the air-conditioning are constituted controls the swing flap angular speed of lateral swing flap device.

3. air-conditioning method according to claim 1, which is characterized in that the method step includes further comprising:

S120: a temperature monitoring module is respectively set in the region of upper, middle and lower three of the air-conditioning side；

S220: the air-conditioning is according to the temperature value of the trizonal temperature monitoring module in the upper, middle and lower and described The angle that the region of upper, middle and lower three and the air-conditioning are constituted controls the swing flap angular speed of longitudinal swing flap device.

4. a kind of air-conditioning control system, which is characterized in that the air-conditioning control system includes air-conditioner host, Ruo Ganwen Monitoring modular is spent,

Several temperature monitoring modules spread at least three regions of the air-conditioning side, for feeding back the region Temperature value；

The air-conditioner host, for controlling the interregional temperature gap；

The air-conditioner host includes control module, communication module and swing flap device,

The communication module, the temperature value reported for obtaining the temperature monitoring module；

The control module controls the air supply time or swing flap of the swing flap device for the temperature value according to each region Angular speed；

The control module includes controlling chip, memory and calculator,

The memory, temperature value that the temperature monitoring module for storing each region reports, each region point The swing flap cycle time of the angle, preset temperature value and the preset swing flap device that are not constituted with the air-conditioning；

The calculator calculates the swing flap angular speed for obtaining each region and each institute according to the storage information of the memory State the air supply time in region；

Wherein, the calculation method of the air supply time are as follows: air-conditioning temperature monitoring module according to each region reports Temperature value after, the temperature value is compared with preset value, obtains the region difference；By each region difference value Obtain total difference；The air-conditioning, to the accounting of total difference, distributes the described of each region according to each region difference Air supply time；

The swing flap angular speed in each region, the angle constituted respectively with the air-conditioning according to each region is divided by each institute of distribution The air supply time for stating region obtains；

The control chip controls the progress of work of the swing flap device according to the calculated result of the calculator.

5. air-conditioning control system according to claim 4, which is characterized in that the swing flap device includes lateral swing flap Device and/or longitudinal swing flap device,

The transverse direction swing flap device, for horizontal direction air-supply temperature control；

The longitudinal direction swing flap device, for vertical direction air-supply temperature control.

6. air-conditioning control system according to claim 4, which is characterized in that the temperature monitoring module includes at least Power module, temperature sensor and communication chip,

The temperature sensor, for obtaining temperature value；

The communication chip, for the temperature value to be sent to the communication module；

The power module, for providing operating voltage to the temperature sensor and communication chip.