CN105180371A - Room temperature detection method and air conditioner - Google Patents

Abstract

The invention provides a room temperature detection method and an air conditioner. The method includes the steps that multiple first temperature sensors (C1, C2, ... and Cn) located at different heights detect the indoor air temperature, and the corresponding environment temperatures (Tc1, Tc2, ... and Tcn) are obtained, wherein the horizontal distances between the first temperature sensors (C1, C2,... and Cn) and the surface of the air conditioner are the same; according to the environment temperatures (Tc1, Tc2, ... and Tcn) and the preset coefficients (k1, k2, ... and kn) corresponding to the first temperature sensors (C1, C2,... and Cn), the position temperature Tc of the horizontal distances between the first temperature sensors (C1, C2,... and Cn) and the surface of the air conditioner is determined; and according to the position temperature Tc and the preset parameter M, the room temperature T is determined. By the adoption of the room temperature detection method and the air conditioner, the beneficial effects that obtained room temperature data are more precise; and the influences on the detection temperature of the temperature difference in the vertical heights and a horizontal temperature field in a room are eliminated.

Description

A kind of method and air-conditioner detecting room temperature

Technical field

The invention belongs to air-conditioning technical field, particularly relate to a kind of method and the air-conditioner that detect room temperature.

Background technology

Air-conditioner needs when running to detect indoor temperature for the setting of air-conditioning and control, common air-conditioning has fan air-supply, force indoor air circulation, common air-conditioning ring temperature checkout gear is at return air inlet, and the return air inlet circulated by air arranges sensor accurately can detect indoor environment temperature.Adopt the air-conditioner of radiant type heat exchange, indoor do not have compulsory air to circulate, only by natural convection air, and its thermo parameters method from air-conditioner towards periphery environment gradually change, when detecting indoor environment temperature, being arranged in the temperature that the temperature sensor around air-conditioner detects and being difficult to detect environment temperature accurately.Do not have the radiant type heat exchanging air conditioner of fan, because indoor do not have circulated air, indoor temperature field is by natural convection air distributions, because hot-air density is lower than cold air, on vertical height, indoor upper temp is higher, and temperature of lower is on the low side.Because radiant type heat exchange, horizontal temperature field also affects by air-conditioning, and the closer to air-conditioning during refrigeration, temperature is lower, otherwise heats.The environment temperature causing the sensor be arranged on air-conditioner to detect like this is inaccurate, needs to revise.

Summary of the invention

In view of this, in order to the environment temperature solving in prior art the sensor detection existed on air-conditioner is inaccurate, needs the problem revised, the object of the invention is to propose a kind of method and the air-conditioner that detect room temperature.There is a basic understanding some aspects in order to the embodiment to disclosure, shown below is simple summary.This summarized section is not extensive overview, neither determine key/critical component or describe the protection domain of these embodiments.Its sole purpose presents some concepts by simple form, in this, as the preamble of following detailed description.

In some optional embodiments, described method, comprising:

Be positioned at multiple first temperature sensor C1, the C2 of differing heights ..., Cn detects indoor air temperature simultaneously, obtains corresponding environment temperature Tc1, Tc2 ..., Tcn; Wherein, described first temperature sensor C1, C2 ..., the horizontal range on Cn distance air-conditioner surface is identical;

According to described environment temperature degree Tc1, Tc2 ..., Tcn and preset with each described first temperature sensor C1, C2 ..., the coefficient k 1, k2 that Cn is corresponding ..., kn, determines the position temperature Tc apart from the described horizontal range in described air-conditioner surface;

According to described position temperature Tc and default parameter M, determine room temperature T.

Another object of the present invention proposes a kind of air-conditioner.

In some optional embodiments, described air-conditioner, comprising:

Detecting unit, for triggering multiple first temperature sensor C1, the C2 that are positioned at differing heights ..., Cn detects indoor air temperature simultaneously, obtains corresponding environment temperature Tc1, Tc2 ..., Tcn; Wherein, described first temperature sensor C1, C2 ..., the horizontal range on Cn distance air-conditioner surface is identical;

Position temperature unit, for according to described environment temperature degree Tc1, Tc2 ... Tcn and preset with each described first temperature sensor C1, C2 ..., the coefficient k 1 that Cn is corresponding, k2 ..., kn, determines the position temperature Tc apart from the described horizontal range in described air-conditioner surface;

Room temperature unit, for according to described position temperature Tc and default parameter M, determines room temperature T.

Adopt above-described embodiment, following effect can be reached:

The data of the room temperature obtained are more accurate;

Eliminate temperature contrast on indoor vertically height and horizontal temperature field to the impact of detected temperatures.

In order to above-mentioned and relevant object, will describe in detail and the feature particularly pointed out in the claims after one or more embodiment comprises.Explanation below and accompanying drawing describe some illustrative aspects in detail, and its instruction is only some modes in the utilizable various mode of principle of each embodiment.Other benefit and novel features become obvious by considering by reference to the accompanying drawings along with detailed description below, and the disclosed embodiments will comprise all these aspects and theirs is equivalent.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 shows a kind of schematic flow sheet detecting the method for room temperature of the embodiment of the present invention;

Fig. 2 shows a kind of idiographic flow schematic diagram detecting the method for room temperature of the embodiment of the present invention;

Fig. 3 shows the structured flowchart of a kind of air-conditioner of the embodiment of the present invention.

Detailed description of the invention

The following description and drawings illustrate specific embodiment of the invention scheme fully, to enable those skilled in the art to put into practice them.Other embodiments can comprise structure, logic, electric, process and other change.Embodiment only represents possible change.Unless explicitly requested, otherwise independent parts and function are optional, and the order of operation can change.The part of some embodiments and feature can be included in or replace part and the feature of other embodiments.The scope of embodiment of the present invention comprises the gamut of claims, and all obtainable equivalent of claims.In this article, these embodiments of the present invention can be represented with term " invention " individually or always, this is only used to conveniently, and if in fact disclose the invention more than, be not the scope that automatically will limit this application is any single invention or inventive concept.

Fig. 1 shows a kind of schematic flow sheet detecting the method for room temperature of the embodiment of the present invention,

As shown in Figure 1, in some illustrative embodiments, described method, comprises following step:

Step S101, is positioned at multiple first temperature sensor C1, the C2 of differing heights ..., Cn detects indoor air temperature simultaneously, obtains corresponding environment temperature Tc1, Tc2 ..., Tcn; Wherein, described first temperature sensor C1, C2 ..., the horizontal range on Cn distance air-conditioner surface is identical;

Step S102, according to described environment temperature Tc1, Tc2 ..., Tcn and preset with each described first temperature sensor C1, C2 ..., the coefficient k 1, k2 that Cn is corresponding ..., kn, determines the position temperature Tc apart from the described horizontal range in described air-conditioner surface;

Step S103, according to described position temperature Tc and default parameter M, determines room temperature T;

In the above-described embodiments, multiple first temperature sensor C1 is arranged by the differing heights in the position apart from air-conditioner surface certain level distance (as 10cm), C2,, Cn obtains corresponding environment temperature Tc1, Tc2, Tcn, and calculate position temperature Tc according to these ambient temperature datas, the numerical value that this temperature calculates after being a cancellation the temperature contrast in indoor vertical height; Then calculate the room temperature T eliminating the impact of horizontal temperature field according to this position temperature Tc and parameter M, the data of room temperature T are now more accurate, both eliminated the temperature contrast in vertical height, turn eliminate horizontal temperature field to the impact detecting data; In the above-described example, coefficient k 1, k2 ..., it is preset that kn and parameter M dispatches from the factory, when air-conditioner detects room temperature, and can the corresponding numerical value of Automatic inquirying;

In some illustrative embodiments, the described process determining the position temperature Tc apart from the described horizontal range in described air-conditioner surface, comprising:

First, the operational mode current according to described air-conditioner, transfers the coefficient k 1, k2 corresponding with present mode ..., kn;

Secondly, according to following formula, described position temperature Tc is calculated:

Tc＝k1*Tc1+k2*Tc2+…+kn*Tcn

Wherein, n >=2 and described coefficient k 1, k2 ..., kn sum is 1, i.e. k1+k2+ ... + kn=1;

In some illustrative embodiments, each described first temperature sensor C1, C2 ..., Cn is the vertical height according to air-conditioner, arranges successively from bottom to top; The operational mode of described air-conditioner comprises refrigeration and heats, coefficient k 1, k2 corresponding under different operational modes ..., the value of kn is different;

When the operational mode of described air-conditioner is refrigeration, k1, k2 ..., the value of kn is successively decreased successively;

When the operational mode of described air-conditioner be heat time, k1, k2 ..., the value of kn increases progressively successively;

In some illustrative embodiments, be also provided with the second temperature sensor E at the heat exchanger surface of described air-conditioner; Then described according to described position temperature Tc and default parameter M, determine the process of room temperature T, comprising:

First, described second temperature sensor E detects the temperature Te of described heat exchanger surface

Secondly, according to following formula, described room temperature T is calculated:

T＝Tc+M*(Tc-Te)；

In some illustrative embodiments, described first temperature sensor C1, C2 ..., Cn is far away apart from the horizontal range of described air-conditioner, and the value of described parameter M is less; Similar, distance is nearer, and the value of described parameter M is larger;

The refrigerating capacity of described air-conditioner is stronger, and the value of described parameter M is larger; Otherwise the refrigerating capacity of described air-conditioner is more weak, M value is less.

Be described said method with a specific embodiment below, Fig. 2 shows a kind of idiographic flow schematic diagram detecting the method for room temperature of the embodiment of the present invention; In the vertical direction apart from 10cm place, air-conditioner surface, set gradually 4 first temperature sensors C1, C2, C3 and C4 from bottom to top; As shown in Figure 2, in some illustrative embodiments, described method, comprises following step:

Step S201, each first temperature sensor testing environment temperature;

The ambient temperature data Tc1 that first temperature sensor C1, C2, C3 and C4 obtains, Tc2, Tc3 and Tc4 are followed successively by 24.5 DEG C, 25 DEG C, 25.5 DEG C and 26 DEG C;

Step S202, inquiry coefficient k 1, k2, k3, k4;

The value of coefficient k 1, k2, k3, k4 corresponding with first temperature sensor C1, C2, C3 and C4 store different mode in air-conditioner under, as table 1:

Coefficient value under table 1 different mode

Operational mode	k1	k2	k3	k4
					Refrigeration	0.4	0.3	0.2	0.1
Heat	0.1	0.2	0.3	0.4

0.1,0.2,0.3 and 0.4 is followed successively by according to current pattern (as heating) the inquiry coefficient k 1, k2, k3, k4 corresponding with first temperature sensor C1, C2, C3 and C4;

Step S203, calculates the position temperature Tc of distance air-conditioner surface 10cm;

Position temperature Tc=Tc1*k1+Tc2*k2+Tc3*k3+Tc4*k4

＝24.5*0.1+25*0.2+25.5*0.3+26*0.4＝25.5℃

Step S204, triggers the temperature sensor E detected temperatures Te=27 DEG C of the heat exchanger surface of air-conditioner;

Step S205, inquires about the parameter M corresponding with present case according to table 2;

The setting of parameter M during table 2 different refrigerating capacity

First sensor distance	2.6kW	3.5kW	5.0kW	7.2kW
					5cm	0.6	0.62	0.66	0.69
10cm	0.5	0.52	0.55	0.6
					15cm	0.4	0.42	0.45	0.5

Suppose that the refrigerating capacity of this air-conditioner is 3.5kW, because first sensor C1, C2, C3 and C4 of setting and the distance on air-conditioner surface are 10cm, then inquiring M is 0.52;

Step S206, determines room temperature T;

Room temperature T is calculated according to following formula:

T＝Tc+M*(Tc-Te)＝25.5+0.52*(25.5-27)＝24.72℃。

Fig. 3 shows the structured flowchart of a kind of air-conditioner 300 of the embodiment of the present invention,

In some illustrative embodiments, air-conditioner 300, comprising:

Detecting unit 301, for triggering multiple first temperature sensor C1, the C2 that are positioned at differing heights ..., Cn detects indoor air temperature simultaneously, obtains corresponding environment temperature Tc1, Tc2 ..., Tcn; Wherein, described first temperature sensor C1, C2 ..., the horizontal range on Cn distance air-conditioner surface is identical;

Position temperature unit 302, for according to described environment temperature Tc1, Tc2 ... Tcn and preset with each described first temperature sensor C1, C2 ..., the coefficient k 1 that Cn is corresponding, k2 ..., kn, determines the position temperature Tc apart from the described horizontal range in described air-conditioner surface;

Room temperature unit 303, for according to described position temperature Tc and default parameter M, determines room temperature T;

In some illustrative embodiments, described position temperature list 302 yuan, comprising:

Primary importance temperature subelement 3021, for the operational mode current according to described air-conditioner, transfers the coefficient k 1, k2 corresponding with present mode ..., kn;

Second place temperature subelement 3022, for according to following formula, calculates described position temperature Tc:

Tc＝k1*Tc1+k2*Tc2+…+kn*Tcn

Wherein, n >=2 and described coefficient k 1, k2 ..., kn sum is 1, i.e. k1+k2+ ... + kn=1;

In some illustrative embodiments, each described first temperature sensor C1, C2 ..., Cn is the vertical height according to air-conditioner, arranges successively from bottom to top; The operational mode of described air-conditioner comprises refrigeration and heats, coefficient k 1, k2 corresponding under different operational modes ..., the value of kn is different;

When the operational mode of described air-conditioner is refrigeration, k1, k2 ..., the value of kn is successively decreased successively;

When the operational mode of described air-conditioner be heat time, k1, k2 ..., the value of kn increases progressively successively;

In some illustrative embodiments, be also provided with the second temperature sensor E at the heat exchanger surface of described air-conditioner; Then described room temperature unit 303, comprising:

First room temperature subelement 3031, detects the temperature Te of described heat exchanger surface for triggering described second temperature sensor E;

Second room temperature subelement 3032, for according to following formula, calculates described room temperature T:

T＝Tc+M*(Tc-Te)；

In some illustrative embodiments, described first temperature sensor C1, C2 ..., Cn is far away apart from the horizontal range of described air-conditioner, and the value of described parameter M is less; Similar, distance is nearer, and the value of described parameter M is larger;

The refrigerating capacity of described air-conditioner is stronger, and the value of described parameter M is larger; Otherwise the refrigerating capacity of described air-conditioner is more weak, M value is less.

Adopt above-described embodiment, following effect can be reached:

The data of the room temperature obtained are more accurate;

Eliminate temperature contrast on indoor vertically height and horizontal temperature field to the impact of detected temperatures.

Those skilled in the art it is also understood that various illustrative box, module, circuit and the algorithm steps combining embodiment herein and describe all can be embodied as electronic hardware, computer software or its combination.In order to the interchangeability between hardware and software is clearly described, all carry out usually describing around its function to various illustrative parts, frame, module, circuit and step above.Be embodied as hardware as this function or be embodied as software, the design constraint depending on specific application and whole system is applied.Those skilled in the art for each application-specific, can realize described function in the mode of accommodation, but, thisly realize decision-making and should not be construed as and deviate from protection domain of the present disclosure.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. detect a method for room temperature, it is characterized in that, comprising:

Be positioned at multiple first temperature sensor C1, the C2 of differing heights ..., Cn detects indoor air temperature simultaneously, obtains corresponding environment temperature Tc1, Tc2 ..., Tcn; Wherein, described first temperature sensor C1, C2 ..., the horizontal range on Cn distance air-conditioner surface is identical;

According to described environment temperature Tc1, Tc2 ..., Tcn and preset with each described first temperature sensor C1, C2 ..., the coefficient k 1, k2 that Cn is corresponding ..., kn, determines the position temperature Tc apart from the described horizontal range in described air-conditioner surface;

According to described position temperature Tc and default parameter M, determine room temperature T.

2. the method for claim 1, is characterized in that, the described process determining the position temperature Tc apart from the described horizontal range in described air-conditioner surface, comprising:

First, the operational mode current according to described air-conditioner, transfers the coefficient k 1, k2 corresponding with present mode ..., kn;

Secondly, according to following formula, described position temperature Tc is calculated:

Tc＝k1*Tc1+k2*Tc2+…+kn*Tcn

Wherein, n >=2 and described coefficient k 1, k2 ..., kn sum is 1, i.e. k1+k2+ ... + kn=1.

3. method as claimed in claim 2, is characterized in that, each described first temperature sensor C1, C2 ..., Cn is the vertical height according to air-conditioner, arranges successively from bottom to top; The operational mode of described air-conditioner comprises refrigeration and heats, coefficient k 1, k2 corresponding under different operational modes ..., the value of kn is different;

When the operational mode of described air-conditioner is refrigeration, k1, k2 ..., the value of kn is successively decreased successively;

When the operational mode of described air-conditioner be heat time, k1, k2 ..., the value of kn increases progressively successively.

4. the method as described in claim 1 or 2 or 3, is characterized in that, is also provided with the second temperature sensor E at the heat exchanger surface of described air-conditioner; Then described according to described position temperature Tc and default parameter M, determine the process of room temperature T, comprising:

First, described second temperature sensor E detects the temperature Te of described heat exchanger surface

Secondly, according to following formula, described room temperature T is calculated:

T＝Tc+M*(Tc-Te)。

5. method as claimed in claim 4, is characterized in that, described first temperature sensor C1, C2 ..., Cn is far away apart from the horizontal range of described air-conditioner, and the value of described parameter M is less; Similar, distance is nearer, and the value of described parameter M is larger;

The refrigerating capacity of described air-conditioner is stronger, and the value of described parameter M is larger; Otherwise the refrigerating capacity of described air-conditioner is more weak, M value is less.

6. an air-conditioner, is characterized in that, comprising:

Detecting unit, for triggering multiple first temperature sensor C1, the C2 that are positioned at differing heights ..., Cn detects indoor air temperature simultaneously, obtains corresponding environment temperature Tc1, Tc2 ..., Tcn; Wherein, described first temperature sensor C1, C2 ..., the horizontal range on Cn distance air-conditioner surface is identical;

Position temperature unit, for according to described environment temperature Tc1, Tc2 ..., Tcn and preset with each described first temperature sensor C1, C2 ..., the coefficient k 1, k2 that Cn is corresponding ..., kn, determines the position temperature Tc apart from the described horizontal range in described air-conditioner surface;

Room temperature unit, for according to described position temperature Tc and default parameter M, determines room temperature T.

7. air-conditioner as claimed in claim 6, it is characterized in that, described position temperature unit, comprising:

Primary importance temperature subelement, for the operational mode current according to described air-conditioner, transfers the coefficient k 1, k2 corresponding with present mode ..., kn;

Second place temperature subelement, for according to following formula, calculates described position temperature Tc:

Tc＝k1*Tc1+k2*Tc2+…+kn*Tcn

Wherein, n >=2 and described coefficient k 1, k2 ..., kn sum is 1, i.e. k1+k2+ ... + kn=1.

8. air-conditioner as claimed in claim 7, is characterized in that, each described first temperature sensor C1, C2 ..., Cn is the vertical height according to air-conditioner, arranges successively from bottom to top; The operational mode of described air-conditioner comprises refrigeration and heats, coefficient k 1, k2 corresponding under different operational modes ..., the value of kn is different;

When the operational mode of described air-conditioner is refrigeration, k1, k2 ..., the value of kn is successively decreased successively;

When the operational mode of described air-conditioner be heat time, k1, k2 ..., the value of kn increases progressively successively.

9. the air-conditioner as described in claim 6 or 7 or 8, is characterized in that, is also provided with the second temperature sensor E at the heat exchanger surface of described air-conditioner; Then described room temperature unit, comprising:

First room temperature subelement, detects the temperature Te of described heat exchanger surface for triggering described second temperature sensor E;

Second room temperature subelement, for according to following formula, calculates described room temperature T:

T＝Tc+M*(Tc-Te)。

10. air-conditioner as claimed in claim 9, is characterized in that, described first temperature sensor C1, C2 ..., Cn is far away apart from the horizontal range of described air-conditioner, and the value of described parameter M is less; Similar, distance is nearer, and the value of described parameter M is larger;

The refrigerating capacity of described air-conditioner is stronger, and the value of described parameter M is larger; Otherwise the refrigerating capacity of described air-conditioner is more weak, M value is less.