CN105546741A - Air conditioner and control method thereof - Google Patents

Abstract

The invention aims to provide an air conditioner and a control method thereof, and mainly solves the problem that the existing air conditioner cannot well combine environmental data and infrared sensing data for air conditioner control. The method comprises the following steps: acquiring environmental data, human body infrared intensity data and human body spatial position data; inquiring a parameter comparison table according to the environment data, the human body infrared intensity data and the human body space position data to obtain an infrared induction index; the parameter comparison table is a comparison table related to environmental data, human body infrared intensity data, human body space position data and infrared induction indexes; and controlling the air conditioner to work according to the infrared induction index. By using the parameter comparison table and the infrared induction index, the operation of the air conditioner can be controlled more humanized, and the user experience is improved.

Description

A kind of air-conditioning and control method thereof

Technical field

The present invention relates to field of air conditioning, be specifically related to a kind of air-conditioning and control method thereof.

Background technology

In existing air-conditioning, there is the scheme utilizing human body information in infrared sensor detection space, but the utilization of most variations to human body infrared information is confined to detect that indoor have during people starts shooting, simple control such as to shut down during nobody, do not realize more flexible and user-friendly control by other data such as combining environmental data to air-conditioning, Consumer's Experience is good not enough.

Summary of the invention

In view of this, the invention provides a kind of control method of environmental data and infrared sensing data being carried out to comprehensive descision and then control air-conditioning work.

For reaching this object, the present invention by the following technical solutions:

A kind of air conditioning control method, comprises the following steps:

Obtain environmental data, human body infrared intensity data and human space position data;

Infrared induction index is obtained according to described environmental data, human body infrared intensity data, the human space position data query argument table of comparisons; Wherein said parameter lookup table is the table of comparisons of environmental data, human body infrared intensity data, human space position data and infrared induction correlation of indices;

Air-conditioning work is controlled according to described infrared induction index.

Preferably, in aforesaid air conditioning control method, described environmental data comprises: temperature data, humidity data.

Preferably, in aforesaid air conditioning control method, control air-conditioning work according to described infrared induction index and comprise: when infrared induction index is in preset range, control starting of air conditioner.

Preferably, in aforesaid air conditioning control method, control air-conditioning work according to described infrared induction index and comprise: control described air-conditioning work according to infrared induction exponential sum environmental data.

Preferably, in aforesaid air conditioning control method, describedly control air-conditioning work according to infrared induction exponential sum environmental data and comprise: infrared induction exponential sum environmental data is all in each self-corresponding preset range, controls starting of air conditioner air-conditioning work.

Preferably, in aforesaid air conditioning control method, described according to infrared induction exponential sum environmental data control air-conditioning work comprise: infrared induction exponential sum environmental data is all in each self-corresponding preset range, to user send message asks the need of unlatching air-conditioning; Starting of air conditioner is controlled when receiving the order of permission work.

Preferably, in aforesaid air conditioning control method, judge whether environmental data is in predetermined scope to be specially and judge whether temperature data, humidity data are all in each self-corresponding preset range.

Preferably, in aforesaid air conditioning control method, control air-conditioning work according to described infrared induction index also comprise: after starting of air conditioner, control air-conditioning towards the human space orientation for place air-supply obtained.

Preferably, in aforesaid air conditioning control method, described air-conditioning comprises rotating tubular air outlet, realizes blowing to the human space orientation for place obtained by regulating the air-out direction of tubular air outlet.

Preferably, in aforesaid air conditioning control method, described tubular air outlet inside is provided with diversion division that is spherical or conical or truncated cone-shaped.

A kind of air-conditioning, comprise environmental data sensor, infrared sensor and controller, described environmental data sensor is connected with described controller with described infrared sensor, described environmental data sensor is used for testing environment data, described infrared sensor is used for human body infrared intensity data and human space position data, described controller obtains infrared induction index according to described environmental data, described human body infrared intensity data and the described human space position data query argument table of comparisons, and controls air-conditioning work according to described infrared induction index; Described parameter lookup table is the table of comparisons of environmental data, human body infrared intensity data, human space position data and infrared induction correlation of indices.

Preferably, in aforesaid air-conditioning, described environmental data sensor comprises temperature sensor and humidity sensor, and described environmental data comprises temperature data and humidity data.

Preferably, in aforesaid air-conditioning, described environmental data sensor also comprises intensity of illumination sensor, and described environmental data also comprises intensity of illumination data.

Preferably, in aforesaid air-conditioning, described air-conditioning comprises rotating tubular air outlet, and described controller can control to save tubular air outlet to the human space orientation for place air-supply obtained.

Preferably, in aforesaid air-conditioning, described tubular air outlet inside is provided with diversion division that is spherical or conical or truncated cone-shaped.

The invention has the beneficial effects as follows:

1. the application's scheme realizes controlling more exactly air-conditioning by combining environmental data, infrared sensing data, environmentally data, human body infrared intensity data, the human space position data query argument table of comparisons obtain infrared induction index, the working condition of air-conditioning is controlled according to infrared induction index, on consider more comprehensive of the factor affecting Consumer's Experience and comprehensively, more humane control can be realized to air-conditioning, bring better Consumer's Experience.

2, air-conditioning work can also be controlled in conjunction with infrared induction exponential sum environmental data, refinement is further carried out to air-conditioning work situation, and then specific aim implement different control modes to air-conditioning, to meet the requirement of user better.

3, after meeting the condition of air-conditioning work, inquiry client, the need of unlatching air-conditioning, opens air-conditioning again after the agreement of user to be obtained, takes into full account the suggestion of user, promotes user's experience.

4, to the air-supply of human space orientation for place, make the local temperature in space, human body place take the lead in changing, reduce the time of the variations in temperature that human feeling arrives, realize the variations in temperature from local space to overall space.

5, air outlet is set to tubular, and air outlet inside is provided with diversion division.The air-out of such air outlet is hood-like, can cover the surrounding space of human body, realizes the local heating and cooling in human peripheral space, air-out can be avoided again directly to blow human body simultaneously, human body is produced uncomfortable.

Accompanying drawing explanation

By referring to the description of accompanying drawing to the embodiment of the present invention, above-mentioned and other objects, features and advantages of the present invention will be more clear, in the accompanying drawings:

Fig. 1 is the schematic flow sheet of the first embodiment of air conditioning control method of the present invention.

Fig. 2 is the schematic flow sheet of the second embodiment of air conditioning control method of the present invention.

Fig. 3 is the schematic flow sheet of the 3rd embodiment of air conditioning control method of the present invention.

Fig. 4 is the structural representation of the air outlet of air-conditioning of the present invention.

Fig. 5 is the air-out mode schematic diagram of the air outlet of air-conditioning of the present invention.

Detailed description of the invention

Based on embodiment, present invention is described below, but the present invention is not restricted to these embodiments.In hereafter details of the present invention being described, detailedly describe some specific detail sections.Do not have the description of these detail sections can understand the present invention completely for a person skilled in the art yet.In order to avoid obscuring essence of the present invention, known method, process, flow process, element do not describe in detail.

Embodiment one

As shown in Figure 1, present embodiment relates to a kind of air conditioning control method, and it comprises the following steps:

(1), environmental data, human body infrared intensity data, human space position data is obtained;

(2), infrared induction index is obtained according to described environmental data, human body infrared intensity data, the human space position data query argument table of comparisons; Wherein said parameter lookup table is the table of comparisons of environmental data, human body infrared intensity data, human space position data and infrared induction correlation of indices;

(3), air-conditioning work is controlled according to described infrared induction index.

In the present embodiment, air-conditioning has environmental data sensor, infrared sensor.Wherein environmental data sensor is in order to testing environment data, infrared sensor is in order to detect infrared sensing data, infrared sensing data comprise human body infrared intensity data and human space position data, the detection and tracking that infrared sensor preferably adopts pyroelectric infrared sensor function and Fresnel Lenses to realize human body target.In air-conditioning or in Cloud Server, prestore parameter lookup table, air-conditioning can by accessing the mode query argument table of comparisons of its memory or internet interview Cloud Server.This parameter lookup table is the table of comparisons of environmental data, human body infrared intensity data, human space position data and infrared induction correlation of indices, wherein, infrared induction index is defined as the parameter be associated with environmental data, human body infrared intensity data and human space position data, in order to characterize the variable condition of people in different environmental datas and locus.Environmental data comprises temperature data, the humidity data in space, air-conditioning place, and what environmental data sensor was corresponding comprises temperature sensor, humidity sensor.The reflection of human body infrared intensity data be the infrared intensity of human body in the space that detects, its quantity with the human body in space and/or density are associated, and reflect the quantity of the human body of frequent activity space in.The reflection of human space position data be the position of people in space and event trace, the custom event trace of people in space can be reflected by statistics human space position data, the frequency such as in which position occurred, than comparatively dense, illustrates that human body is in this position stop having the long period etc.This parameter lookup table can be sampled and be got from the data of air-conditioning longtime running, also obtains by experiment.Infrared induction index is generated by the parameters table of comparisons, consider environmental data, human body infrared intensity data and human space position data, can distinguish more meticulously the ambient conditions in air-conditioning work space, personnel amount situation and personnel activity's situation, and then control pointedly whether to control air-conditioning work, idiographic flow as shown in fig. 1, when infrared induction index is in preset range, control starting of air conditioner; Otherwise air-conditioning does not start.Preferably, control after starting of air conditioner, make air-conditioning according to the running parameter work of answering with this infrared induction exponent pair preset.Preferably, environmental data also comprises intensity of illumination data, and air-conditioning is by the intensity of illumination of intensity of illumination sensor detection space.The object adding intensity of illumination data is, the change of illumination has certain interference for the detection of infrared sensor, and binding analysis intensity of illumination data can make the testing result of infrared sensor more accurate.

Embodiment two

Embodiment two is the optimization to embodiment one, its in embodiment one according to infrared induction index control starting of air conditioner basis on, further according to infrared induction exponential sum environmental data control starting of air conditioner.Specifically as shown in Figure 2, infrared induction exponential sum environmental data is judged, when infrared induction index, environmental data are all in preset range, then control starting of air conditioner, otherwise air-conditioning does not start.Preferably, judge whether environmental data is in predetermined scope to be specially and judge whether temperature data, humidity data are all in each self-corresponding preset range.Adding the object of the judgement of environmental data is obtain accuracy to improve airconditioning control, the situation because being subject to extraneous factor interference, air-conditioning being delayed work when infrared induction index is avoided to occur, ensure that air-conditioning is only just allowed to work under specific environmental data, interference can not be caused to user like this, effectively can reduce unexpected place of working and occur.Preferably, when environmental data comprises intensity of illumination data, judge whether environmental data is in predetermined scope to be specially and judge whether temperature data, humidity data and intensity of illumination are all in each self-corresponding preset range.

Real-time mode three

Embodiment three is the further refinements to embodiment two, and in a less space, detect the situation that in space personnel amount is less mainly for air-conditioning work, be described the control method of air-conditioning below, its flow chart is see Fig. 3.

Air-conditioning in present embodiment comprises rotating tubular air outlet 1, and its shape is preferably cone barrel, and as shown in Fig. 4,5, tubular air outlet 1 is connected by air channel with air conditioner main body, in order to by pass from air conditioner main body cold/hot blast blows to predetermined region.Also comprise adjusting device and control device (not shown), adjusting device can regulate the air-out direction of tubular air outlet 1 to make tubular air outlet 1 to the direction orientation air-supply of setting under control of the control means.Described tubular air outlet inside 1 is provided with diversion division 2 that is spherical or conical or truncated cone-shaped, diversion division 2 can stop the air-out of the middle section of tubular air outlet 1, gap between its inwall along tubular air outlet 1 and diversion division 2 periphery is blown out, form a kind of hood-like air-out, as shown in Figure 5.The object of hood-like air-out to utilize air-out to be covered by human body, realize the temperature quick adjustment of human peripheral's regional area, air-out simultaneously directly can not blow human body, human body can not be made to produce uncomfortable, and the time of the variations in temperature that human feeling arrives can be reduced, do not need to make the whole space temperature residing for human body all change the change that human feeling can be allowed to arrive temperature, improve the experience of user.It is less that this air supply mode is particularly suitable for space, the situation that personnel are less.

Concrete control method, as shown in Figure 3, air-conditioning, by getting environmental data, after human body infrared intensity data and human space position data, by the query argument table of comparisons, obtains infrared induction index, and judges infrared induction index.When infrared induction index is in a preset range, illustrate that in this time space, number is fewer, and distance air-conditioning is closer; Or the area of space area residing for people is less, and number is also fewer; A kind of preferably situation is being in a certain less space of being judged as that one or two personnel concentrate.Be suitable for the mode adopting directed air-supply in the case.Infrared induction index not at described preset range time, illustrate in space do not have personnel activity, or number is more, comparatively dispersion etc., these situations are all not suitable for adopting the mode of directed air-supply.Judge that infrared induction index is in after in preset range, now further environmental data is judged, when environmental data is also in corresponding preset range, starting of air conditioner can be controlled, make air-conditioning according to the running parameter work of answering with this infrared induction exponent pair preset, regulate the air-out direction of tubular air outlet 1 with timed unit control and regulation device, make tubular air outlet 1 towards the human space position air-supply detected.Preferably, the change of the real-time human body locus of air-conditioning, and regulate air-out direction in real time, the air-supply realizing the movement locus change can following people regulates.At infrared induction index and/or environmental data when the preset range not in correspondence, then return step getparms, re-execute the process of the query argument table of comparisons and judgement.

As a kind of preferred version, after judging that infrared induction exponential sum environmental data is all in predetermined scope, also comprise the step of inquiry user, be specially: send message asks the need of unlatching air-conditioning to user, then wait for user command; Starting of air conditioner is controlled when receiving the order of permission work; Otherwise air-conditioning does not start.Like this, air-conditioning can, according to the command job of user, make Consumer's Experience better.

As one preferably scheme, in air-conditioning work, when receiving the cancellation of user or out-of-work instruction, then air-conditioning quits work and returns step getparms, as shown in Figure 3.

Embodiment four

Embodiment four relates to a kind of air-conditioning, comprise environmental data sensor, infrared sensor and controller, described environmental data sensor is connected with described controller with described infrared sensor, described environmental data sensor is used for testing environment data, described infrared sensor is used for human body infrared intensity data and human space position data, described controller is according to described environmental data, described human body infrared intensity data and the described human space position data query argument table of comparisons obtain infrared induction index, and control air-conditioning work according to described infrared induction index, described parameter lookup table is the table of comparisons of environmental data, human body infrared intensity data, human space position data and infrared induction correlation of indices.

Preferably, described environmental data sensor comprises temperature sensor and humidity sensor, and described environmental data comprises temperature data and humidity data.

Preferably, described environmental data sensor also comprises intensity of illumination sensor, and described environmental data also comprises intensity of illumination data.

Preferably, described air-conditioning comprises rotating tubular air outlet, and described controller can control to save tubular air outlet to the human space orientation for place air-supply obtained, as shown in Figure 4.

Preferably, described tubular air outlet inside is provided with diversion division that is spherical or conical or truncated cone-shaped.

In addition, it should be understood by one skilled in the art that the accompanying drawing provided at this is all for illustrative purposes, and accompanying drawing is not necessarily drawn in proportion.

Meanwhile, should be appreciated that example embodiment is provided, to make the disclosure be comprehensive, and its scope is fully conveyed to those skilled in the art.A lot of specific detail (such as the example of particular elements, equipment and method) is presented to provide thorough understanding of the disclosure.It will be apparent to one skilled in the art that and do not need to adopt specific detail, example embodiment can be implemented with much different forms, and example embodiment should not be understood to limit the scope of the present disclosure.In some example embodiments, well-known device structure and well-known technology are not described in detail.

Claims (15)

1. an air conditioning control method, is characterized in that: comprise the following steps:

Obtain environmental data, human body infrared intensity data and human space position data;

Infrared induction index is obtained according to described environmental data, human body infrared intensity data, the human space position data query argument table of comparisons; Wherein said parameter lookup table is the table of comparisons of environmental data, human body infrared intensity data, human space position data and infrared induction correlation of indices;

Air-conditioning work is controlled according to described infrared induction index.

2. air conditioning control method as claimed in claim 1, is characterized in that: described environmental data comprises: temperature data, humidity data.

3. air conditioning control method as claimed in claim 1, is characterized in that: control air-conditioning work according to described infrared induction index and comprise:

When infrared induction index is in preset range, control starting of air conditioner.

4. air conditioning control method as claimed in claim 1, is characterized in that: control air-conditioning work according to described infrared induction index and comprise:

Described starting of air conditioner is controlled according to infrared induction exponential sum environmental data.

5. air conditioning control method as claimed in claim 4, is characterized in that: describedly control described air-conditioning work according to infrared induction exponential sum environmental data and comprise:

When infrared induction exponential sum environmental data is all in each self-corresponding preset range, then control starting of air conditioner.

6. air conditioning control method as claimed in claim 4, is characterized in that: describedly control air-conditioning work according to infrared induction exponential sum environmental data and comprise:

When infrared induction exponential sum environmental data is all in each self-corresponding preset range, then send message asks the need of unlatching air-conditioning to user; When receiving the order of permission work, control starting of air conditioner.

7. the air conditioning control method as described in claim 5 or 6, is characterized in that: judge whether environmental data is in predetermined scope to be specially and judge whether temperature data, humidity data are all in each self-corresponding preset range.

8. air conditioning control method as claimed in claim 1, is characterized in that: control air-conditioning work according to described infrared induction index and also comprise:

After starting of air conditioner, control air-conditioning towards the human space orientation for place air-supply obtained.

9. air conditioning control method as claimed in claim 8, is characterized in that: described air-conditioning comprises rotating tubular air outlet, realizes blowing to the human space orientation for place obtained by regulating the air-out direction of tubular air outlet.

10. air conditioning control method as claimed in claim 9, is characterized in that: described tubular air outlet inside is provided with diversion division that is spherical or conical or truncated cone-shaped.

11. 1 kinds of air-conditionings, comprise environmental data sensor, infrared sensor and controller, described environmental data sensor is connected with described controller with described infrared sensor, it is characterized in that: described environmental data sensor is used for testing environment data, described infrared sensor is used for human body infrared intensity data and human space position data, described controller is according to described environmental data, described human body infrared intensity data and the described human space position data query argument table of comparisons obtain infrared induction index, and control air-conditioning work according to described infrared induction index, described parameter lookup table is the table of comparisons of environmental data, human body infrared intensity data, human space position data and infrared induction correlation of indices.

12. air-conditionings as claimed in claim 11, is characterized in that: described environmental data sensor comprises temperature sensor and humidity sensor, and described environmental data comprises temperature data and humidity data.

13. air-conditionings as claimed in claim 12, is characterized in that: described environmental data sensor also comprises intensity of illumination sensor, and described environmental data also comprises intensity of illumination data.

14. air-conditionings as claimed in claim 11, is characterized in that: described air-conditioning comprises rotating tubular air outlet, and described controller can control to save tubular air outlet to the human space orientation for place air-supply obtained.

15. air-conditionings as claimed in claim 14, is characterized in that: described tubular air outlet inside is provided with diversion division that is spherical or conical or truncated cone-shaped.