CN104110769B - A kind of air-conditioner running temperature control method and a kind of air-conditioner - Google Patents

Abstract

The present invention is suitable for field of air conditioner control, it is provided that a kind of air-conditioner running temperature control method and a kind of air-conditioner, described method includes: the interior space is evenly dividing into many sub spaces by position sensor；Position sensor detects the more specific location information of subspace residing for user at regular intervals, and described positional information is sent to central processing unit；Central processing unit obtains the average translational speed of user according to described positional information, and exports the temperature control signals corresponding with described average translational speed；Air-conditioner adjusts running temperature accordingly according to described temperature control signals.In the present invention, the running temperature of air-conditioner is relevant to the motion conditions of user, can carry out self-adaptative adjustment according to the motion conditions of user, improves user further and uses the comfort level of air-conditioning.

Description

A kind of air-conditioner running temperature control method and a kind of air-conditioner

Technical field

The invention belongs to field of air conditioner control, particularly relate to a kind of air-conditioner running temperature control method and Plant air-conditioner.

Background technology

Along with the lifting of living standard, pursuing comfort of air conditioner becomes the demand of more and more user.

Air-conditioning all has more ripe technology on temperature, humidity and Boiler pressure control at present, and user is setting temperature After degree, air-conditioning will not change running temperature, and the temperature that the most all can set according to user all the time is run, but In practical situations both, the factor affecting people's comfort is complex, except the temperature of objective environment, humidity, Outside air quantity, environmental radiation temperature, the motion conditions of user, the amount of wearing the clothes and personal feeling and custom difference etc. are all Comfort can be affected.To promote the comfort of air conditioner user, need to consider these factors.

Summary of the invention

In view of the above problems, it is an object of the invention to provide a kind of air-conditioner running temperature control method and A kind of air-conditioner, it is intended to solving existing air-conditioner after design temperature, its running temperature is constant, it is impossible to enter one Step improves the technical problem of users'comfort.

On the one hand, described air-conditioner running temperature control method comprises the steps:

The interior space is evenly dividing into many sub spaces by position sensor；

Position sensor detects the more specific location information of subspace residing for user at regular intervals, and by described Positional information is sent to central processing unit；

Central processing unit obtains the average translational speed of user according to described positional information, and exports flat with described The temperature control signals that all translational speed is corresponding；

Air-conditioner adjusts running temperature accordingly according to described temperature control signals.

On the other hand, described air-conditioner includes:

Position sensor, for being evenly dividing into many sub spaces, and at regular intervals by the interior space The more specific location information of subspace residing for detection user, and described positional information is sent to central processing unit；

Central processing unit, for according to described positional information obtain user average translational speed, and export with The temperature control signals that described average translational speed is corresponding；

Running temperature control module, for adjusting running temperature accordingly according to described temperature control signals.

The invention has the beneficial effects as follows: the present invention obtains indoor, user place by arranging position sensor More specific location information, then calculates the average translational speed of user, and exports according to described average translational speed Corresponding temperature control signals, air-conditioner adjusts running temperature accordingly according to described temperature control signals, this In bright, the running temperature of air-conditioner is relevant to the motion conditions of user, can enter according to the motion conditions of user Row self-adaptative adjustment, thus improve user further and use the comfort level of air-conditioning.

Accompanying drawing explanation

Fig. 1 is the flow chart of the air-conditioner running temperature control method that the embodiment of the present invention provides；

Fig. 2 is that the interior space that the embodiment of the present invention provides divides schematic diagram；

Fig. 3 is a kind of preferred flow charts of step S102 in Fig. 1；

Fig. 4 is the calculating user average translational speed schematic diagram that the embodiment of the present invention provides；

Fig. 5 is the block diagram of the air-conditioner that the embodiment of the present invention provides；

Fig. 6 is the block diagram of the position sensor that the embodiment of the present invention provides；

Fig. 7 is the block diagram of the central processing unit that the embodiment of the present invention provides.

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with accompanying drawing and reality Execute example, the present invention is further elaborated.Only should be appreciated that specific embodiment described herein Only in order to explain the present invention, it is not intended to limit the present invention.

In order to technical solutions according to the invention are described, illustrate below by specific embodiment.

Fig. 1 is the flow chart of the air-conditioner running temperature control method that the embodiment of the present invention provides, for the ease of Illustrate to illustrate only the part relevant to the embodiment of the present invention.

As it is shown in figure 1, the air-conditioner running temperature control method that the present embodiment provides comprises the steps:

The interior space is evenly dividing into many sub spaces by step S101, position sensor.

In this step, after installing air-conditioner, the interior space can be drawn by position sensor automatically according to ranks Being divided into many sub spaces, this step does not limit the size of every sub spaces, is typically no less than the build chi of adult Very little, it is ensured that position sensor can differentiate the position of people.

When implementing Subspace partition, with reference to shown in Fig. 2, first position sensor detects the length in room Wide, it is assumed that to be M and N respectively, and according to pre-provisioning request, the interior space is divided, it is assumed that every height The length of side in space is a, then the length direction in room has M/a sub spaces, at the width in room There is N/a sub spaces.

Step S102, position sensor detect the particular location letter of subspace residing for user at regular intervals Breath, and described positional information is sent to central processing unit.

In this step, position sensor is for detecting the more specific location information of subspace residing for user.This step In, described position sensor can be realized by infrared detecting device, with reference to Fig. 3, it is shown that this step A kind of concrete preferred flow, including:

The temperature of each sub spaces in S301, position sensor sensing chamber at regular intervals；

S302, when the temperature of a wherein subspace is in preset temperature range, and temperature becomes within a time period Change less than when presetting variable quantity, it is determined that this subspace is subspace residing for user；

S303, recording the positional information of subspace residing for described user, described positional information includes lateral attitude Information and longitudinal position information；

S304, described positional information is sent to central processing unit.

Infrared detecting device can be with the temperature data of sub spaces each in sensing chamber, at regular intervals, such as 1 second, detection once, for any one subspace i, detected its temperature T(i), when at preset temperature model In enclosing (such as 31～37 DEG C scopes), and (such as 1 hour) variations in temperature is less than within a time period Preset variable quantity (such as 5 DEG C), then can determine that this subspace i is subspace residing for user, i.e. assert use Family is currently in the middle of described subspace i, and records the positional information of subspace residing for described user, as one Planting recording mode, described positional information includes lateral position information and longitudinal position information, described lateral attitude Information be subspace residing for user at the offset distance of room length direction, described longitudinal position information is user Residing subspace is at the offset distance of room width, when specifically calculating, by subspace residing for user in room Between the subspace offset number of length direction and width be multiplied by subspace width a.

Step S103, central processing unit obtain the average translational speed of user according to described positional information, and Export the temperature control signals corresponding with described average translational speed；

Step S104, air-conditioner adjust running temperature accordingly according to described temperature control signals.

When specifically calculating, with reference to Fig. 4, it is assumed that user current location is subspace A2, a upper moment user Position is subspace A1, and the lateral position information of current location information and longitudinal position information are respectively X2, Y2, lateral position information and the longitudinal position information of a upper moment positional information be respectively X1, Y1, Distance between so subspace A1 and A2Assume that Δ t is for indoor Subspace temperature sensing time interval, therefore, can be calculated user's currently average translational speed is $v=\sqrt{{(X2-X1)}^2+{(Y2-Y1)}^2}/\mathrm{\Δt}.$ Then output is corresponding with described average translational speed Temperature control signals.

The present embodiment does not limit the relation of average translational speed and temperature control signals, and the most described temperature controls Signal can be linear with average translational speed, and each average speed has one to determine control signal Corresponding, certain described temperature control signals can also become ladder relation with average translational speed, will be described Average translational speed is at least divided into two speed thresholds, and central processing unit is according to speed threshold belonging to average translational speed Export corresponding temperature control signals.

Different running temperature that different temperature control signals is corresponding, air-conditioner controls letter according to described temperature Number corresponding adjustment running temperature.Row are as an example, it is assumed that average translational speed is divided into three speed thresholds, Friction speed judges the kinestate that user is different, and such as, during v >=0.8m/s, user movement amount is big, User's currently average translational speed belongs to maximum speed shelves, and User Activity amount is relatively big, self distributes heat relatively big, Air-conditioner runs according to (such as 1～2 DEG C) lower than user design temperature uniform temperature； During 0.1m/s≤v ＜ 0.8m/s, during user movement amount is, user's currently average translational speed belongs to common speed Degree shelves, air-conditioner runs according to user's design temperature；During v ＜ 0.1m/s, user movement amount is little, user Current average translational speed belongs to minimum speed shelves, and User Activity amount is less, and it is less that self distributes heat, empty Device is adjusted to run according to (such as 1～2 DEG C) higher than user design temperature uniform temperature.

Fig. 5 shows the structure of the air-conditioner that the embodiment of the present invention provides, illustrate only for convenience of description with The part that the embodiment of the present invention is relevant.

The air-conditioner that the present embodiment provides includes:

Position sensor 51, for being evenly dividing into many sub spaces, and every necessarily by the interior space The more specific location information of subspace residing for time detection user, and described positional information is sent to central authorities' process Device；

Central processing unit 52 for obtaining the average translational speed of user and defeated according to described positional information Go out the temperature control signals corresponding with described average translational speed；

Running temperature control module 53, for adjusting running temperature accordingly according to described temperature control signals.

Preferably, described position sensor 51 can be realized by infrared detecting device, as shown in Figure 6, and bag Include:

Temperature detecting module 511, the temperature of each sub spaces in sensing chamber at regular intervals；

Location determination module 512, for ought the temperature of a wherein subspace in preset temperature range, and In one time period, variations in temperature is less than presetting variable quantity, it is determined that this subspace is subspace residing for user；

Positional information logging modle 513, for recording the positional information of subspace residing for described user, described Positional information includes lateral position information and longitudinal position information；

Positional information sending module 514, for being sent to central processing unit by described positional information.

Preferably, as it is shown in fig. 7, described central processing unit 52 includes:

Speed acquiring module 521, current for the positional information calculation user according to adjacent two received Average translational speed $v=\sqrt{{(X2-X1)}^2+{(Y2-Y1)}^2}/\mathrm{\Δt},$ Wherein X2, Y2 are respectively present bit The lateral position information of confidence breath and longitudinal position information, X1, Y1 are respectively a upper moment positional information Lateral position information and longitudinal position information, Δ t is indoor subspace temperature sensing time interval；

Signal output module 522, for the temperature control signals that output is corresponding with described average translational speed.

Further, described average translational speed is at least divided into two speed thresholds, and signal output module is not according to The temperature control signals that same speed threshold output is different.

Further, described average translational speed is divided into three speed thresholds, described running temperature control module bag Include:

First control unit, for when currently average translational speed belongs to minimum speed shelves to user, controlling sky Device is adjusted to run according to uniform temperature higher than user design temperature；

Second control unit, when currently average translational speed belongs to usual speed shelves to user, controls air-conditioner Run according to user's design temperature；

3rd control unit, when currently average translational speed belongs to maximum speed shelves to user, controls air-conditioner Run according to uniform temperature lower than user design temperature.

To sum up, the embodiment of the present invention provides method and the average translational speed of air-conditioner calculating user judge The motion conditions of user, and self adaptation output temperature control signal, air-conditioner is corresponding according to temperature control signals Adjust running temperature so that indoor temperature can become according to the concrete motion conditions of user, improve user and use The comfort level of air-conditioning, and the average translational speed computational methods of user are simple, it is achieved low cost, it is suitable for wide Send out and promote the use of.

The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, although reference Previous embodiment has carried out explanation in greater detail to the present invention, and for a person skilled in the art, it depends on So the technical scheme described in foregoing embodiments can be modified or to wherein portion of techniques feature Carry out equivalent.All any amendment, equivalents made within the spirit and principles in the present invention and changing Enter, should be included within the scope of the present invention.

Claims (10)

1. an air-conditioner running temperature control method, it is characterised in that described method includes:

The interior space is evenly dividing into many sub spaces by position sensor；

Position sensor detects the more specific location information of subspace residing for user at regular intervals, and by described Positional information is sent to central processing unit；

Central processing unit obtains the average translational speed of user according to described positional information, and exports flat with described The temperature control signals that all translational speed is corresponding；

Air-conditioner adjusts running temperature accordingly according to described temperature control signals.

2. air-conditioner running temperature control method as claimed in claim 1, it is characterised in that described position Detector detects the more specific location information of subspace residing for user at regular intervals, and by described positional information It is sent to central processing unit, specifically includes:

The temperature of each sub spaces in position sensor sensing chamber at regular intervals；

When the temperature of a wherein subspace is in preset temperature range, and variations in temperature does not surpasses within a time period When crossing default variable quantity, it is determined that this subspace is subspace residing for user；

Record the positional information of subspace residing for described user, described positional information include lateral position information and Longitudinal position information；

Described positional information is sent to central processing unit.

3. air-conditioner running temperature control method as claimed in claim 2, it is characterised in that described central authorities Processor obtains the average translational speed of user according to described positional information, and exports and described average mobile speed Spend corresponding temperature control signals, specifically include:

Central processing unit is according to the most mobile speed of positional information calculation user of adjacent two received Degree $v=\sqrt{{(X2-X1)}^2+{(Y2-Y1)}^2}/\mathrm{\Δt},$ Wherein X2, Y2 are respectively the horizontal stroke of current location information To positional information and longitudinal position information, X1, Y1 are respectively the lateral attitude letter of a upper moment positional information Breath and longitudinal position information, Δ t is indoor subspace temperature sensing time interval；

Export the temperature control signals corresponding with described average translational speed.

4. as claimed in claim 3 air-conditioner running temperature control method, it is characterised in that described averagely Translational speed is at least divided into two speed thresholds, and central processing unit is according to the speed belonging to described average translational speed The temperature control signals that shelves output is corresponding.

5. as claimed in claim 4 air-conditioner running temperature control method, it is characterised in that described averagely Translational speed is divided into three speed thresholds, and described air-conditioner adjusts fortune accordingly according to described temperature control signals Trip temperature, specifically includes:

When currently average translational speed belongs to minimum speed shelves to user, air-conditioner is according to ratio user design temperature High uniform temperature is run；

When currently average translational speed belongs to usual speed shelves to user, air-conditioner is transported according to user's design temperature OK；

When currently average translational speed belongs to maximum speed shelves to user, air-conditioner is according to ratio user design temperature Low uniform temperature is run.

6. an air-conditioner, it is characterised in that described air-conditioner includes:

Position sensor, for being evenly dividing into many sub spaces, and at regular intervals by the interior space The more specific location information of subspace residing for detection user, and described positional information is sent to central processing unit；

Central processing unit, for according to described positional information obtain user average translational speed, and export with The temperature control signals that described average translational speed is corresponding；

Running temperature control module, for adjusting running temperature accordingly according to described temperature control signals.

7. air-conditioner as claimed in claim 6, it is characterised in that described position sensor includes:

Temperature detecting module, the temperature of each sub spaces in sensing chamber at regular intervals；

Location determination module, for ought the temperature of a wherein subspace in preset temperature range, and for the moment Between in section variations in temperature less than when presetting variable quantity, it is determined that this subspace is subspace residing for user；

Positional information logging modle, for recording the positional information of subspace residing for described user, described position Information includes lateral position information and longitudinal position information；

Positional information sending module, for being sent to central processing unit by described positional information.

8. air-conditioner as claimed in claim 7, it is characterised in that described central processing unit includes:

Speed acquiring module, average for the positional information calculation user according to adjacent two received Translational speed $v=\sqrt{{(X2-X1)}^2+{(Y2-Y1)}^2}/\mathrm{\Δt},$ Wherein X2, Y2 are respectively present bit confidence The lateral position information of breath and longitudinal position information, X1, Y1 are respectively the horizontal of a upper moment positional information Positional information and longitudinal position information, Δ t is indoor subspace temperature sensing time interval；

Signal output module, for the temperature control signals that output is corresponding with described average translational speed.

9. require air-conditioner as described in 8 such as power, it is characterised in that described average translational speed is at least divided into two Individual speed threshold, signal output module exports corresponding temperature according to the speed threshold belonging to described average translational speed Degree control signal.

10. air-conditioner as claimed in claim 9, it is characterised in that described average translational speed is divided into three Speed threshold, described running temperature control module includes:

First control unit, for when currently average translational speed belongs to minimum speed shelves to user, controlling sky Device is adjusted to run according to uniform temperature higher than user design temperature；

Second control unit, for when currently average translational speed belongs to usual speed shelves to user, controlling sky Device is adjusted to run according to user's design temperature；

3rd control unit, for when currently average translational speed belongs to maximum speed shelves to user, controlling sky Device is adjusted to run according to uniform temperature lower than user design temperature.