CN105823183A - Temperature control method and device of air conditioner - Google Patents

Abstract

The invention discloses a temperature control method and a temperature control device of an air conditioner. The method comprises the following steps: acquiring a first temperature value for representing the temperature in a space where a first air conditioner is positioned in response to a triggered instruction for starting an air conditioner temperature balance mode; receiving a second temperature value which is transmitted by a second air conditioner and is used for representing the temperature in a space where the second air conditioner is positioned; generating a control instruction according to the first temperature value and the second temperature value to control balance between the temperature in the space where the first air conditioner is positioned and the temperature in the space where the second air conditioner. According to the temperature control method, the problem of a larger temperature difference between rooms with air conditioners due to low intelligence of control over the air conditioners in the prior art is solved; therefore, the temperature balance in the spaces applying the air conditioners is enhanced, and the user experience is further improved.

Description

The temperature-controlled process of air-conditioner and device

Technical field

The present invention relates to air-conditioning technical field, in particular to temperature-controlled process and the device of a kind of air-conditioner.

Background technology

Air-conditioner, as a kind of household electrical appliances regulating indoor temperature, humidity, is widely used by user.Along with the progress of science and technology, people it is also proposed higher requirement to the intelligentized control method of air-conditioning, in order to gives user and preferably experiences.

In prior art, in in subscriber household, air-conditioning is separately mounted to the room such as parlor, bedroom, when the air conditioning is turned on, make the ambient temperature between parlor and bedroom, bedroom and bedroom inconsistent under the factor effects such as various external environment conditions, space structure, if now people passes through the environment that both temperature are different, so may result in people to be difficult to quickly adapt to new temperature environment, so that people feels under the weather；When temperature difference is bigger, even there will be and cause flu, the consequence of fever.

Cause, for the intelligence not of the control of air-conditioner in correlation technique, the problem that there may be the bigger temperature difference between air-conditioned room, the most not yet propose to efficiently solve scheme.

Summary of the invention

The invention provides temperature-controlled process and the device of a kind of air-conditioner, at least to solve the control of the air-conditioner problem that intelligence causes there may be the bigger temperature difference between air-conditioned room not in prior art.

For solving above-mentioned technical problem, an aspect according to disclosure embodiment, the invention provides the temperature-controlled process of a kind of air-conditioner, the method includes: in response to the unlatching air-conditioner hygral equilibrium mode instruction triggered, obtain the first temperature value in characterizing the first space, air-conditioner place；Receive the second temperature value in characterizing the second space, air-conditioner place that the second air-conditioner sends；Control instruction is generated, to control the balance of the temperature in the first space, air-conditioner place and the temperature in the second space, air-conditioner place according to the first temperature value and the second temperature value.

Further, control instruction is generated according to the first temperature value and the second temperature value, to control the balance of the temperature in the first space, air-conditioner place and the temperature in the second space, air-conditioner place, comprise determining that the first air-conditioner and the operational mode of the second air-conditioner, wherein, operational mode includes for the first mode of refrigeration with for the second pattern heated；Calculate the first temperature value and deduct the difference of the second temperature value；Deduct the difference of the second temperature value according to operational mode and the first temperature value, generate control instruction, to control the balance of the temperature in the first space, air-conditioner place and the temperature in the second space, air-conditioner place.

Further, the operational mode determined be first mode, the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value more than first threshold X, calling the first calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, first calculates logic is: T_If=| △ T |/2+T2, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, and T2 is the second temperature value；Generate the first control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the difference that the first temperature value deducts the second temperature value is more than Second Threshold Y and is less than or equal to first threshold X, calling the second calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, second calculates logic is: T_If=T2+A, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ A≤| △ T |/2, T2 is the second temperature value；Generate the second control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value less than or equal to Second Threshold Y, generating the 3rd control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

Further, the operational mode determined be first mode, the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value less than or equal to three threshold values Z, calling the 3rd calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, the 3rd calculates logic is: T_If=| △ T |/2+T1, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, and T1 is the first temperature value；Generate the 4th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the difference that the first temperature value deducts the second temperature value is more than the 3rd threshold value Z and is less than or equal to four threshold values M, calling the 4th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, the 4th calculates logic is: T_If=T1+A, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ A≤| △ T |/2, T1 is the first temperature value；Generate the 5th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value more than four threshold values M, generating the 6th control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

Further, the operational mode determined be the second pattern, the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value more than five threshold values N, calling the first calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, first calculates logic is: T_If=| △ T |/2+T2, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, and T2 is the second temperature value；Generate the 7th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the difference that the first temperature value deducts the second temperature value is more than the 6th threshold value P and is less than or equal to five threshold values N, calling the 5th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, the 5th calculates logic is: T_If=T1-B, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ B≤| △ T |/2, T2 is the second temperature value；Generate the 8th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value less than or equal to six threshold values P, generating the 9th control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

Further, the operational mode determined be the second pattern, the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value less than or equal to seven threshold values Q, calling the 3rd calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, the 3rd calculates logic is: T_If=| △ T |/2+T1, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, and T1 is the first temperature value；Generate the tenth control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the difference that the first temperature value deducts the second temperature value is more than the 7th threshold value Q and is less than or equal to eight threshold values S, calling the 6th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, the 6th calculates logic is: T_If=T2-B, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ B≤| △ T |/2, T1 is the first temperature value；Generate the 11st control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value more than eight threshold values S, generating the 12nd control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

Further, generate control instruction according to the first temperature value and the second temperature value, to control the balance of the temperature in the first space, air-conditioner place and the temperature in the second space, air-conditioner place, including: obtain the target output temperature of the first air-conditioner；Target output temperature according to the first air-conditioner generates the 13rd control instruction, to control the target output temperature target output temperature equal to the first air-conditioner of the second air-conditioner.

Another aspect according to disclosure embodiment, provide the temperature control equipment of a kind of air-conditioner, this device includes: acquiring unit, in response to the unlatching air-conditioner hygral equilibrium mode instruction triggered, obtaining the first temperature value in characterizing the first space, air-conditioner place；Receive unit, for receiving the second temperature value in characterizing the second space, air-conditioner place that the second air-conditioner sends；Control unit, for generating control instruction, to control the balance of the temperature in the first space, air-conditioner place and the temperature in the second space, air-conditioner place according to the first temperature value and the second temperature value.

Further, control unit comprises determining that module, and for determining the first air-conditioner and the operational mode of the second air-conditioner, wherein, operational mode includes for the first mode of refrigeration with for the second pattern heated；Computing module, deducts the difference of the second temperature value for calculating the first temperature value；Control module, for deducting the difference of the second temperature value according to operational mode and the first temperature value, generates control instruction, to control the balance of the temperature in the first space, air-conditioner place and the temperature in the second space, air-conditioner place.

Further, it is first mode in the operational mode determined, when first temperature value is more than the second temperature value, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value more than first threshold X, call the first calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, first calculates logic is: T sets=| △ T |/2+T2, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, T2 is the second temperature value；Generate the first control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value more than the second temperature value time, control module is according to following schemes generation control instruction: when the difference that the first temperature value deducts the second temperature value is more than Second Threshold Y and is less than or equal to first threshold X, call the second calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, second calculates logic is: T sets=T2+A, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ A≤| △ T |/2, T2 is the second temperature value；Generate the second control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value more than the second temperature value time, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value less than or equal to Second Threshold Y, generating the 3rd control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

Further, it is first mode in the operational mode determined, when first temperature value is less than the second temperature value, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value less than or equal to three threshold values Z, call the 3rd calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, 3rd calculates logic is: T sets=| △ T |/2+T1, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, T1 is the first temperature value；Generate the 4th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value less than the second temperature value time, control module is according to following schemes generation control instruction: when the difference that the first temperature value deducts the second temperature value is more than the 3rd threshold value Z and is less than or equal to four threshold values M, call the 4th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, 4th calculates logic is: T sets=T1+A, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ A≤| △ T |/2, T1 is the first temperature value；Generate the 5th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value less than the second temperature value time, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value more than four threshold values M, generating the 6th control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

Further, it is the second pattern in the operational mode determined, when first temperature value is more than the second temperature value, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value more than five threshold values N, call the first calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, first calculates logic is: T sets=| △ T |/2+T2, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, T2 is the second temperature value；Generate the 7th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value more than the second temperature value time, control module is according to following schemes generation control instruction: when the difference that the first temperature value deducts the second temperature value is more than the 6th threshold value P and is less than or equal to five threshold values N, call the 5th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, 5th calculates logic is: T sets=T1-B, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ B≤| △ T |/2, T2 is the second temperature value；Generate the 8th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value more than the second temperature value time, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value less than or equal to six threshold values P, generating the 9th control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

Further, it is the second pattern in the operational mode determined, when first temperature value is less than the second temperature value, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value less than or equal to seven threshold values Q, call the 3rd calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, 3rd calculates logic is: T sets=| △ T |/2+T1, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, T1 is the first temperature value；Generate the tenth control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value less than the second temperature value time, control module is according to following schemes generation control instruction: when the difference that the first temperature value deducts the second temperature value is more than the 7th threshold value Q and is less than or equal to eight threshold values S, call the 6th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, 6th calculates logic is: T sets=T2-B, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ B≤| △ T |/2, T1 is the first temperature value；Generate the 11st control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value less than the second temperature value time, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value more than eight threshold values S, generating the 12nd control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

Another aspect according to disclosure embodiment, provide the temperature control equipment of another kind of air-conditioner, this device includes: multiple temperature-detecting devices, each temperature-detecting device is arranged in the space comprising air-conditioner, comprise the temperature value in each space of air-conditioner for detection, and be sent to controller；Controller, for obtaining the temperature value that multiple temperature-detecting device sends, and generates the control instruction of the temperature being used in each space that balance comprises air-conditioner according to temperature value；Dispensing device, for control instruction being sent to each air-conditioner, controls the output of air-conditioner with the balance realizing the temperature in each space, air-conditioner place.

The temperature control scheme of a kind of air-conditioner is provided in the present invention, brand-new hygral equilibrium mode instruction is provided, when opening this pattern, the ambient temperature parameter in air-conditioned room and parlor is filled by collection, whole floor space homogeneous temperature in user family can be made quickly through the temperature contrast reducing each room that coordinates of each air-conditioning, when people enters into another room from room, will not feel there is obvious temperature contrast, efficiently solve the control of the air-conditioner problem that intelligence causes there may be the bigger temperature difference between air-conditioned room not in prior art, the harmony of temperature in raising application conditioned space, further, also improve user experience.

Accompanying drawing explanation

Fig. 1 is a kind of optional schematic flow sheet of the temperature-controlled process of the air-conditioner of the embodiment of the present invention；

Fig. 2 is a kind of optional structured flowchart of the temperature control equipment of the air-conditioner of the embodiment of the present invention；And

Fig. 3 is the another kind of optional structured flowchart of the temperature control equipment of the air-conditioner of the embodiment of the present invention.

Detailed description of the invention

Here will illustrate exemplary embodiment in detail, its example represents in the accompanying drawings.When explained below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represents same or analogous key element.Embodiment described in following exemplary embodiment does not represent all embodiments consistent with the present invention.On the contrary, they only with describe in detail in appended claims, the present invention some in terms of the example of consistent apparatus and method.

Embodiment 1

Below in conjunction with the accompanying drawings the temperature-controlled process of the air-conditioner that the present invention provides is illustrated.

The temperature-controlled process of the air-conditioner that the present invention provides is applied on domestic air-conditioning equipment, can also realize on market temperature control system or marine air conditioner equipment, Fig. 1 illustrates a kind of optional flow chart of this method, as it is shown in figure 1, the temperature-controlled process of this air-conditioner may comprise steps of:

S102, in response to the unlatching air-conditioner hygral equilibrium mode instruction triggered, obtains the first temperature value in characterizing the first space, air-conditioner place；

When implementing, user can send the instruction opening air-conditioner hygral equilibrium pattern by control equipment such as air-conditioning remote controls.Air-conditioner, when obtaining indoor temperature, can increase the temperature sensor for exclusively carrying out indoor temperature detection on air-conditioner, it is also possible to directly obtains the temperature information of the mounted sensor feedback for detecting room temperature on intelligent air condition.

S104, receives the second temperature value in characterizing the second space, air-conditioner place that the second air-conditioner sends；

Preferably, the communication module for communication can be increased on air-conditioning, such as WIFI module etc..For intelligent air conditioner, communication module and corresponding router connecting communication can be passed through.Multiple air-conditioners are connected in the LAN that this router is built, and the information between air-conditioner and air-conditioner that realizes in this LAN sends and receives.

S106, generates control instruction, to control the balance of the temperature in the first space, air-conditioner place and the temperature in the second space, air-conditioner place according to the first temperature value and the second temperature value.

When being controlled the generation of instruction, following scheme can be used to carry out: determining the first air-conditioner and the operational mode of the second air-conditioner, wherein, operational mode includes for the first mode of refrigeration with for the second pattern heated；Calculate the first temperature value and deduct the difference of the second temperature value；Deduct the difference of the second temperature value according to operational mode and the first temperature value, generate control instruction, to control the balance of the temperature in the first space, air-conditioner place and the temperature in the second space, air-conditioner place.

When implementing, embodiments of the invention use following control strategy:

The operational mode determined be first mode (refrigeration mode), the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value more than first threshold X, calling the first calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, first calculates logic is: T_If=| △ T |/2+T2, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, and T2 is the second temperature value；Generate the first control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

For example, such as, at refrigeration mode, it is 26 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, it is 18 DEG C (T1 is more than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, and first threshold X that system default sets, as 7, is that 8 (26-18) are more than first threshold 7 owing to the first temperature value deducts the difference of the second temperature value, call the first default logical calculated target control temperature, T_If=| △ T |/2+T2=4+18=22, say, that send control instruction and make the first air-conditioner and the second air-conditioner output target temperature be adjusted to 22 DEG C respectively.Use above-mentioned control strategy primary concern factor as follows: owing to exceeding first threshold, represent that the temperature difference is relatively big, need quickly to carry out the equilibrium of the temperature difference；And, it is considered to this pattern is refrigeration mode, and the temperature value of the relatively low side that target temperature is set to space, two air-conditioning places adds 1/2nd of the temperature difference, quickly the temperature difference is adjusted to centre position.

The operational mode determined be first mode (refrigeration mode), the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the difference that the first temperature value deducts the second temperature value is more than Second Threshold Y and is less than or equal to first threshold X, calling the second calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, second calculates logic is: T_If=T2+A, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ A≤| △ T |/2, T2 is the second temperature value；Generate the second control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

For example, such as, at refrigeration mode, it is 26 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, and it is 20 DEG C (T1 is more than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, and first threshold X that system default sets is as 7, and Second Threshold Y is 1.5.Being that 6 (26-20) more than Second Threshold 1.5 and are less than first threshold 7 owing to the first temperature value deducts the difference of the second temperature value, call default the second corresponding logical calculated target control temperature, wherein, system default A value is 2, T_If=T2+A=20+2=22, say, that send control instruction and make the first air-conditioner and the second air-conditioner output target temperature be adjusted to 22 DEG C respectively.The above-mentioned control strategy primary concern factor is used to be: owing to present mode is refrigeration mode, client generally needs relatively low temperature, therefore by temperature relatively low for the target trend more convergence adjusted, additionally, it is chosen for being less than or equal to | △ T |/2 about A value, this is because, in the middle of the first temperature and the second temperature are illustrated in | △ T |/2 positions, this position does not level off to either party, A value is chosen for being less than or equal to | △ T |/2, and control realization levels off to low temperature situation monitoring in the case of refrigeration.

The operational mode determined be first mode (refrigeration mode), the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value less than or equal to Second Threshold Y, generating the 3rd control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

For example, such as, at refrigeration mode, it is 26 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, and it is 25 DEG C (T1 is more than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, and the Second Threshold Y that system default sets is as 1.5.It is that 1 (26-25) is less than Second Threshold 1.5 owing to the first temperature value deducts the difference of the second temperature value, it is determined that two room temperature differentials are less, can not be adjusted, and improve intellectuality.

In the other embodiment of the present invention, provide the T1 control strategy less than T2 under refrigeration mode, specifically, the operational mode determined be first mode (refrigeration mode), the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value less than or equal to three threshold values Z, calling the 3rd calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, the 3rd calculates logic is: T_If=| △ T |/2+T1, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, and T1 is the first temperature value；Generate the 4th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

For example, such as, at refrigeration mode, it is 18 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, it is 26 DEG C (T1 is less than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, the 3rd threshold value Z that system default sets, as-7, be-7 owing to the first temperature value deducts the difference of the second temperature value for-8 (18-26) less than the 3rd threshold value Z, calls the 3rd logic T of default correspondence_If=| △ T |/2+T1=4+18=22, say, that send control instruction and make the first air-conditioner and the second air-conditioner output target temperature be adjusted to 22 DEG C respectively.Use above-mentioned control strategy primary concern factor as follows: due to less than the 3rd threshold value, represent that the temperature difference is bigger, needing quickly to carry out the equilibrium of the temperature difference, the temperature value of the relatively low side that target temperature is set to space, two air-conditioning places adds 1/2nd of the temperature difference, quickly the temperature difference is adjusted to centre position.

The operational mode determined be first mode (refrigeration mode), the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the difference that the first temperature value deducts the second temperature value is more than the 3rd threshold value Z and is less than or equal to four threshold values M, calling the 4th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, the 4th calculates logic is: T_If=T1+A, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ A≤| △ T |/2, T1 is the first temperature value；Generate the 5th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

For example, such as, at refrigeration mode, it is 20 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, and it is 26 DEG C (T1 is less than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, and the 3rd threshold value Z that system default sets is as-7, and the 4th threshold value M is-1.5.Owing to the first temperature value deducts the difference of the second temperature value for-6 (20-26) more than the 3rd threshold value-7 and less than the 4th threshold value-1.5, calling default the 4th corresponding logical calculated target control temperature, wherein, system default A value is 2, T_If=T1+A=20+2=22, say, that send control instruction and make the first air-conditioner and the second air-conditioner output target temperature be adjusted to 22 DEG C respectively.The above-mentioned control strategy primary concern factor is used to be: owing to present mode is refrigeration mode, client generally needs relatively low temperature, therefore by temperature relatively low for the target trend more convergence adjusted, additionally, it is chosen for being less than or equal to | △ T |/2 about A value, this is because, in the middle of the first temperature and the second temperature are illustrated in | △ T |/2 positions, this position does not level off to either party, A value is chosen for being less than or equal to | △ T |/2, and control realization levels off to low temperature situation monitoring in the case of refrigeration.

The operational mode determined be first mode (refrigeration mode), the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value more than four threshold values M, generating the 6th control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

For example, such as, at refrigeration mode, it is 25 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, and it is 26 DEG C (T1 is less than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, and the 4th threshold value M that system default sets is as-1.5.Owing to the first temperature value deducts the difference of the second temperature value for-1 (25-26) more than the 4th threshold value-1.5, it is determined that two room temperature differentials are less, can not be adjusted, and improve intelligentized control method.

In the other embodiment of the present invention, provide the T1 control strategy more than T2 under heating mode, specifically, the operational mode determined be the second pattern (heating mode), the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value more than five threshold values N, calling the first calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, first calculates logic is: T_If=| △ T |/2+T2, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, and T2 is the second temperature value；Generate the 7th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

For example, such as, at heating mode, it is 26 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, it is 18 DEG C (T1 is more than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, and the 5th threshold value N that system default sets, as 5, is that 8 (26-18) are more than the 5th threshold value owing to the first temperature value deducts the difference of the second temperature value, call the first default logical calculated target control temperature, T_If=| △ T |/2+T2=4+18=22, say, that send control instruction and make the first air-conditioner and the second air-conditioner output target temperature be adjusted to 22 DEG C respectively.Use above-mentioned control strategy primary concern factor as follows: owing to exceeding first threshold, represent that the temperature difference is relatively big, need quickly to carry out the equilibrium of the temperature difference；The temperature value of the relatively low side that target temperature is set to space, two air-conditioning places adds 1/2nd of the temperature difference, quickly the temperature difference is adjusted to centre position.

The operational mode determined be the second pattern (heating mode), the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the difference that the first temperature value deducts the second temperature value is more than the 6th threshold value P and is less than or equal to five threshold values N, calling the 5th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, the 5th calculates logic is: T_If=T1-B, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ B≤| △ T |/2, T2 is the second temperature value；Generate the 8th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

For example, such as, at heating mode, it is 26 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, and it is 20 DEG C (T1 is more than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, and the 5th threshold value N that system default sets is as 5, and the 6th threshold value P is 1.5.Being that 6 (26-20) more than Second Threshold 1.5 and are less than the 5th threshold value 7 owing to the first temperature value deducts the difference of the second temperature value, call default the 5th corresponding logical calculated target control temperature, wherein, system default B value is 2, T_If=T1-B=26+2=24, say, that send control instruction and make the first air-conditioner and the second air-conditioner output target temperature be adjusted to 24 DEG C respectively.The above-mentioned control strategy primary concern factor is used to be: owing to present mode is heating mode, client generally needs higher temperature, therefore by temperature higher for the target trend more convergence adjusted, additionally, it is chosen for being less than or equal to | △ T |/2 about B value, this is because, in the middle of the first temperature and the second temperature are illustrated in | △ T |/2 positions, this position does not level off to either party, B value is chosen for being less than or equal to | △ T |/2, and control realization levels off to regulate and control to high temperature location in the case of heating.

The operational mode determined be the second pattern (heating mode), the first temperature value more than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value less than or equal to six threshold values P, generating the 9th control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

For example, such as, at heating mode, it is 26 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, and it is 25 DEG C (T1 is more than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, and the 6th threshold value P that system default sets is as 1.5.It is that 1 (26-25) is less than Second Threshold 1.5 owing to the first temperature value deducts the difference of the second temperature value, it is determined that two room temperature differentials are less, can not be adjusted, and improve intellectuality.

In the other embodiment of the present invention, provide the T1 control strategy less than T2 under heating mode, specifically, the operational mode determined be the second pattern (heating mode), the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value less than or equal to seven threshold values Q, calling the 3rd calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, the 3rd calculates logic is: T_If=| △ T |/2+T1, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, and T1 is the first temperature value；Generate the tenth control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

For example, such as, at heating mode, it is 18 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, it is 26 DEG C (T1 is less than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, the 7th threshold value Q that system default sets, as-5, owing to the first temperature value deducts the difference of the second temperature value for-8 (18-26) less than the 7th threshold value-5, calls default the 3rd corresponding logic T_If=| △ T |/2+T1=4+18=22, say, that send control instruction and make the first air-conditioner and the second air-conditioner output target temperature be adjusted to 22 DEG C respectively.Use above-mentioned control strategy primary concern factor as follows: due to less than the 7th threshold value, represent that the temperature difference is bigger, needing quickly to carry out the equilibrium of the temperature difference, the temperature value of the relatively low side that target temperature is set to space, two air-conditioning places adds 1/2nd of the temperature difference, quickly the temperature difference is adjusted to centre position.

The operational mode determined be the second pattern (heating mode), the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the difference that the first temperature value deducts the second temperature value is more than the 7th threshold value Q and is less than or equal to eight threshold values S, calling the 6th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, the 6th calculates logic is: T_If=T2-B, wherein, T_IfBeing the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ B≤| △ T |/2, T1 is the first temperature value；Generate the 11st control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

For example, such as, at heating mode, it is 20 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, and it is 26 DEG C (T1 is less than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, and the 8th threshold value S that system default sets is as-1.5, and the 7th threshold value Q is-5.Owing to the first temperature value deducts the difference of the second temperature value for-6 (20-26) more than the 7th threshold value-5 and less than the 8th threshold value-1.5, call default the 6th corresponding logic T_If=T2-B calculates target control temperature, and wherein, system default B value is 2, T_If=T2-B=26-2=24, say, that send control instruction and make the first air-conditioner and the second air-conditioner output target temperature be adjusted to 24 DEG C respectively.The above-mentioned control strategy primary concern factor is used to be: owing to present mode is heating mode, client generally needs higher temperature, therefore by temperature higher for the target trend more convergence adjusted, additionally, it is chosen for being less than or equal to | △ T |/2 about B value, this is because, in the middle of the first temperature and the second temperature are illustrated in | △ T |/2 positions, this position does not level off to either party, B value is chosen for being less than or equal to | △ T |/2, and control realization levels off to regulate and control to high temperature location in the case of heating.

14. methods according to claim 13, it is characterized in that, the operational mode determined be the second pattern (heating mode), the first temperature value less than the second temperature value time, according to operational mode and the first temperature value and the difference of the second temperature value, generate control instruction, including: when the first temperature value deducts the difference of the second temperature value more than eight threshold values S, generating the 12nd control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

For example, such as, at heating mode, it is 25 DEG C that air-conditioner 1 gathers room temperature T1 in its space, place, and it is 26 DEG C (T1 is less than T2) that air-conditioner 2 gathers room temperature T2 in its space, place, and the 8th threshold value S that system default sets is as-1.5.Owing to the first temperature value deducts the difference of the second temperature value for-1 (25-26) more than the 8th threshold value-1.5, it is determined that two room temperature differentials are less, can not be adjusted, and improve intelligentized control method.

Preferably, in an embodiment of the invention, also said method is optimized, when the balance of the temperature controlled in the first space, air-conditioner place and the temperature in the second space, air-conditioner place, increase new control model, comfort mode can be defined as, when implementing, comprise the steps: to obtain the target output temperature of the first air-conditioner；Target output temperature according to the first air-conditioner generates the 13rd control instruction, to control the target output temperature target output temperature equal to the first air-conditioner of the second air-conditioner.It is to say, when user opens the equilibrium temperature pattern of above-mentioned record, user is to which platform air conditioner operation, and other all air-conditionings all set according to this air conditioning operating mode and temperature, and this control mode is simple, quick and comfortable.

Above-mentioned preferred embodiment in the temperature control scheme of a kind of air-conditioner, brand-new hygral equilibrium mode instruction is provided, when opening this pattern, the ambient temperature parameter in air-conditioned room and parlor is filled by collection, whole floor space homogeneous temperature in user family can be made quickly through the temperature contrast reducing each room that coordinates of each air-conditioning, when people enters into another room from room, will not feel there is obvious temperature contrast, efficiently solve the control of the air-conditioner problem that intelligence causes there may be the bigger temperature difference between air-conditioned room not in prior art, the harmony of temperature in raising application conditioned space, further, also improve user experience.

Embodiment 2

Temperature-controlled process based on the air-conditioner provided in above-described embodiment 1, optional embodiment 2 of the present invention additionally provides the temperature control equipment of a kind of air-conditioner, illustrates the temperature control equipment of the air-conditioner that the present invention provides below in conjunction with the accompanying drawings.

Specifically, Fig. 2 illustrates a kind of optional structured flowchart of this device, as in figure 2 it is shown, this device includes:

Acquiring unit 22, in response to the unlatching air-conditioner hygral equilibrium mode instruction triggered, obtaining the first temperature value in characterizing the first space, air-conditioner place；Receive unit 24, for receiving the second temperature value in characterizing the second space, air-conditioner place that the second air-conditioner sends；Control unit 26, for generating control instruction, to control the balance of the temperature in the first space, air-conditioner place and the temperature in the second space, air-conditioner place according to the first temperature value and the second temperature value.

Further, as it is shown on figure 3, control unit 26 comprises determining that module 262, for determining the first air-conditioner and the operational mode of the second air-conditioner, wherein, operational mode includes for the first mode of refrigeration with for the second pattern heated；Computing module 264, deducts the difference of the second temperature value for calculating the first temperature value；Control module 266, for deducting the difference of the second temperature value according to operational mode and the first temperature value, generates control instruction, to control the balance of the temperature in the first space, air-conditioner place and the temperature in the second space, air-conditioner place.

Further, it is first mode in the operational mode determined, when first temperature value is more than the second temperature value, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value more than first threshold X, call the first calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, first calculates logic is: T sets=| △ T |/2+T2, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, T2 is the second temperature value；Generate the first control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value more than the second temperature value time, control module is according to following schemes generation control instruction: when the difference that the first temperature value deducts the second temperature value is more than Second Threshold Y and is less than or equal to first threshold X, call the second calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, second calculates logic is: T sets=T2+A, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ A≤| △ T |/2, T2 is the second temperature value；Generate the second control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value more than the second temperature value time, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value less than or equal to Second Threshold Y, generating the 3rd control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

Further, it is first mode in the operational mode determined, when first temperature value is less than the second temperature value, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value less than or equal to three threshold values Z, call the 3rd calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, 3rd calculates logic is: T sets=| △ T |/2+T1, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, T1 is the first temperature value；Generate the 4th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value less than the second temperature value time, control module is according to following schemes generation control instruction: when the difference that the first temperature value deducts the second temperature value is more than the 3rd threshold value Z and is less than or equal to four threshold values M, call the 4th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, 4th calculates logic is: T sets=T1+A, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ A≤| △ T |/2, T1 is the first temperature value；Generate the 5th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be first mode, the first temperature value less than the second temperature value time, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value more than four threshold values M, generating the 6th control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

Further, it is the second pattern in the operational mode determined, when first temperature value is more than the second temperature value, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value more than five threshold values N, call the first calculating logical calculated the first air-conditioner and target output temperature of the second air-conditioner, first calculates logic is: T sets=| △ T |/2+T2, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, T2 is the second temperature value；Generate the 7th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value more than the second temperature value time, control module is according to following schemes generation control instruction: when the difference that the first temperature value deducts the second temperature value is more than the 6th threshold value P and is less than or equal to five threshold values N, call the 5th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, 5th calculates logic is: T sets=T1-B, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ B≤| △ T |/2, T2 is the second temperature value；Generate the 8th control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value more than the second temperature value time, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value less than or equal to six threshold values P, generating the 9th control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

Further, it is the second pattern in the operational mode determined, when first temperature value is less than the second temperature value, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value less than or equal to seven threshold values Q, call the 3rd calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, 3rd calculates logic is: T sets=| △ T |/2+T1, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, | △ T | is the absolute value that the first temperature value deducts the difference of the second temperature value, T1 is the first temperature value；Generate the tenth control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value less than the second temperature value time, control module is according to following schemes generation control instruction: when the difference that the first temperature value deducts the second temperature value is more than the 7th threshold value Q and is less than or equal to eight threshold values S, call the 6th calculating logical calculated the first air-conditioner and the target output temperature of the second air-conditioner, 6th calculates logic is: T sets=T2-B, wherein, T is set to the first air-conditioner and the target output temperature of the second air-conditioner, 0 ＜ B≤| △ T |/2, T1 is the first temperature value；Generate the 11st control instruction and control the first air-conditioner and the target output temperature of the second air-conditioner output correspondence.

Further, the operational mode determined be the second pattern, the first temperature value less than the second temperature value time, control module is according to following schemes generation control instruction: when the first temperature value deducts the difference of the second temperature value more than eight threshold values S, generating the 12nd control instruction, the output controlling the first air-conditioner and the second air-conditioner is unchanged.

About the device in above-described embodiment, the concrete mode that wherein unit, module perform to operate has been described in detail in about the embodiment of the method, and explanation will be not set forth in detail herein.

Can be seen that from the above description, the temperature control scheme of a kind of air-conditioner is provided in embodiments of the present invention, brand-new hygral equilibrium mode instruction is provided, when opening this pattern, the ambient temperature parameter in air-conditioned room and parlor is filled by collection, whole floor space homogeneous temperature in user family can be made quickly through the temperature contrast reducing each room that coordinates of each air-conditioning, when people enters into another room from room, will not feel there is obvious temperature contrast, efficiently solve the control of the air-conditioner problem that intelligence causes there may be the bigger temperature difference between air-conditioned room not in prior art, the harmony of temperature in raising application conditioned space, further, also improve user experience.

Embodiment 3

Temperature-controlled process based on the air-conditioner provided in above-described embodiment 1, optional embodiment 3 of the present invention additionally provides the temperature control equipment of another kind of air-conditioner, this device includes: multiple temperature-detecting devices, each temperature-detecting device is arranged in the space comprising air-conditioner, comprise the temperature value in each space of air-conditioner for detection, and be sent to controller；Controller, for obtaining the temperature value that multiple temperature-detecting device sends, and generates the control instruction of the temperature being used in each space that balance comprises air-conditioner according to temperature value；Dispensing device, for control instruction being sent to each air-conditioner, controls the output of air-conditioner with the balance realizing the temperature in each space, air-conditioner place.This device can independently be implemented and produce, and coordinates corresponding air-conditioning model, completes the method described in above-described embodiment 1, do not repeat them here.

Can be seen that from the above description, the temperature control scheme of a kind of air-conditioner is provided in embodiments of the present invention, brand-new hygral equilibrium mode instruction is provided, when opening this pattern, the ambient temperature parameter in air-conditioned room and parlor is filled by collection, whole floor space homogeneous temperature in user family can be made quickly through the temperature contrast reducing each room that coordinates of each air-conditioning, when people enters into another room from room, will not feel there is obvious temperature contrast, efficiently solve the control of the air-conditioner problem that intelligence causes there may be the bigger temperature difference between air-conditioned room not in prior art, the harmony of temperature in raising application conditioned space, further, also improve user experience.

Those skilled in the art, after considering description and putting into practice invention disclosed herein, will readily occur to other embodiments of the present invention.The application is intended to any modification, purposes or the adaptations of the present invention, and these modification, purposes or adaptations are followed the general principle of the present invention and include common knowledge in the art or the conventional techniques means that the present invention do not invents.Description and embodiments is considered only as exemplary, and true scope and spirit of the invention are pointed out by claim below.

It should be appreciated that the invention is not limited in precision architecture described above and illustrated in the accompanying drawings, and various modifications and changes can carried out without departing from the scope.The scope of the present invention is only limited by appended claim.

Claims (18)

1. the temperature-controlled process of an air-conditioner, it is characterised in that including:

In response to the unlatching air-conditioner hygral equilibrium mode instruction triggered, obtain the first temperature value in characterizing the first space, air-conditioner place；

Receive the second temperature value in characterizing described second space, air-conditioner place that the second air-conditioner sends；

Control instruction is generated, to control the balance of the temperature in described first space, air-conditioner place and the temperature in described second space, air-conditioner place according to described first temperature value and described second temperature value.

Method the most according to claim 1, it is characterized in that, described according to described first temperature value and described second temperature value generate control instruction, to control the balance of the temperature in described first space, air-conditioner place and the temperature in described second space, air-conditioner place, including:

Determining described first air-conditioner and the operational mode of described second air-conditioner, wherein, described operational mode includes for the first mode of refrigeration with for the second pattern heated；

Calculate described first temperature value and deduct the difference of described second temperature value；

Deduct the difference of described second temperature value according to described operational mode and described first temperature value, generate described control instruction, to control the balance of the temperature in described first space, air-conditioner place and the temperature in described second space, air-conditioner place.

Method the most according to claim 2, it is characterized in that, the operational mode determined be first mode, described first temperature value more than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When described first temperature value deducts the difference of described second temperature value more than first threshold X, calling the first air-conditioner described in the first calculating logical calculated and the target output temperature of described second air-conditioner, described first calculates logic is: T_If=| △ T |/2+T2, wherein, described T_IfFor described first air-conditioner and the target output temperature of described second air-conditioner, described | △ T | deducts the absolute value of the difference of described second temperature value for described first temperature value, and described T2 is described second temperature value；

Generate the first control instruction and control the described target output temperature that described first air-conditioner is corresponding with described second air-conditioner output.

Method the most according to claim 3, it is characterized in that, the operational mode determined be first mode, described first temperature value more than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When the difference that described first temperature value deducts described second temperature value is more than Second Threshold Y and is less than or equal to described first threshold X, calling the first air-conditioner described in the second calculating logical calculated and the target output temperature of described second air-conditioner, described second calculates logic is: T_If=T2+A, wherein, described T_IfFor described first air-conditioner and the target output temperature of described second air-conditioner, 0 ＜ A≤| △ T |/2, described T2 are described second temperature value；

Generate the second control instruction and control the described target output temperature that described first air-conditioner is corresponding with described second air-conditioner output.

Method the most according to claim 4, it is characterized in that, the operational mode determined be first mode, described first temperature value more than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When described first temperature value deducts the difference of described second temperature value less than or equal to described Second Threshold Y, generating the 3rd control instruction, the output controlling described first air-conditioner and described second air-conditioner is unchanged.

Method the most according to claim 2, it is characterized in that, the operational mode determined be first mode, described first temperature value less than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When described first temperature value deducts the difference of described second temperature value less than or equal to three threshold values Z, calling the first air-conditioner and the target output temperature of described second air-conditioner described in the 3rd calculating logical calculated, the described 3rd calculates logic is: T_If=| △ T |/2+T1, wherein, described T_IfFor described first air-conditioner and the target output temperature of described second air-conditioner, described | △ T | deducts the absolute value of the difference of described second temperature value for described first temperature value, and described T1 is described first temperature value；

Generate the 4th control instruction and control the described target output temperature that described first air-conditioner is corresponding with described second air-conditioner output.

Method the most according to claim 6, it is characterized in that, the operational mode determined be first mode, described first temperature value less than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When the difference that described first temperature value deducts described second temperature value is more than the 3rd threshold value Z and is less than or equal to described four threshold value M, calling the first air-conditioner and the target output temperature of described second air-conditioner described in the 4th calculating logical calculated, the described 4th calculates logic is: T_If=T1+A, wherein, described T_IfFor described first air-conditioner and the target output temperature of described second air-conditioner, 0 ＜ A≤| △ T |/2, described T1 are described first temperature value；

Generate the 5th control instruction and control the described target output temperature that described first air-conditioner is corresponding with described second air-conditioner output.

Method the most according to claim 7, it is characterized in that, the operational mode determined be first mode, described first temperature value less than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When described first temperature value deducts the difference of described second temperature value more than described four threshold value M, generating the 6th control instruction, the output controlling described first air-conditioner and described second air-conditioner is unchanged.

Method the most according to claim 2, it is characterized in that, the operational mode determined be the second pattern, described first temperature value more than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When described first temperature value deducts the difference of described second temperature value more than five threshold values N, calling the first air-conditioner described in the first calculating logical calculated and the target output temperature of described second air-conditioner, described first calculates logic is: T_If=| △ T |/2+T2, wherein, described T_IfFor described first air-conditioner and the target output temperature of described second air-conditioner, described | △ T | deducts the absolute value of the difference of described second temperature value for described first temperature value, and described T2 is described second temperature value；

Generate the 7th control instruction and control the described target output temperature that described first air-conditioner is corresponding with described second air-conditioner output.

Method the most according to claim 9, it is characterized in that, the operational mode determined be the second pattern, described first temperature value more than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When the difference that described first temperature value deducts described second temperature value is more than the 6th threshold value P and is less than or equal to described five threshold value N, calling the first air-conditioner and the target output temperature of described second air-conditioner described in the 5th calculating logical calculated, the described 5th calculates logic is: T_If=T1-B, wherein, described T_IfFor described first air-conditioner and the target output temperature of described second air-conditioner, 0 ＜ B≤| △ T |/2, described T2 are described second temperature value；

Generate the 8th control instruction and control the described target output temperature that described first air-conditioner is corresponding with described second air-conditioner output.

11. methods according to claim 10, it is characterized in that, the operational mode determined be the second pattern, described first temperature value more than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When described first temperature value deducts the difference of described second temperature value less than or equal to described six threshold value P, generating the 9th control instruction, the output controlling described first air-conditioner and described second air-conditioner is unchanged.

12. methods according to claim 2, it is characterized in that, the operational mode determined be the second pattern, described first temperature value less than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When described first temperature value deducts the difference of described second temperature value less than or equal to seven threshold values Q, calling the first air-conditioner and the target output temperature of described second air-conditioner described in the 3rd calculating logical calculated, the described 3rd calculates logic is: T_If=| △ T |/2+T1, wherein, described T_IfFor described first air-conditioner and the target output temperature of described second air-conditioner, described | △ T | deducts the absolute value of the difference of described second temperature value for described first temperature value, and described T1 is described first temperature value；

Generate the tenth control instruction and control the described target output temperature that described first air-conditioner is corresponding with described second air-conditioner output.

13. methods according to claim 12, it is characterized in that, the operational mode determined be the second pattern, described first temperature value less than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When the difference that described first temperature value deducts described second temperature value is more than the 7th threshold value Q and is less than or equal to described eight threshold value S, calling the first air-conditioner and the target output temperature of described second air-conditioner described in the 6th calculating logical calculated, the described 6th calculates logic is: T_If=T2-B, wherein, described T_IfFor described first air-conditioner and the target output temperature of described second air-conditioner, 0 ＜ B≤| △ T |/2, described T1 are described first temperature value；

Generate the 11st control instruction and control the described target output temperature that described first air-conditioner is corresponding with described second air-conditioner output.

14. methods according to claim 13, it is characterized in that, the operational mode determined be the second pattern, described first temperature value less than described second temperature value time, described according to described operational mode and described first temperature value and the difference of described second temperature value, generate described control instruction, including:

When described first temperature value deducts the difference of described second temperature value more than described eight threshold value S, generating the 12nd control instruction, the output controlling described first air-conditioner and described second air-conditioner is unchanged.

15. methods according to claim 1, it is characterized in that, described according to described first temperature value and described second temperature value generate control instruction, to control the balance of the temperature in described first space, air-conditioner place and the temperature in described second space, air-conditioner place, including:

Obtain the target output temperature of described first air-conditioner；

Target output temperature according to described first air-conditioner generates the 13rd control instruction, to control the target output temperature target output temperature equal to described first air-conditioner of described second air-conditioner.

The temperature control equipment of 16. 1 kinds of air-conditioners, it is characterised in that including:

Acquiring unit, in response to the unlatching air-conditioner hygral equilibrium mode instruction triggered, obtaining the first temperature value in characterizing the first space, air-conditioner place；

Receive unit, for receive that the second air-conditioner sends for characterizing the second temperature value in described second space, air-conditioner place；

Control unit, for generating control instruction, to control the balance of the temperature in described first space, air-conditioner place and the temperature in described second space, air-conditioner place according to described first temperature value and described second temperature value.

17. devices according to claim 16, it is characterised in that described control unit includes:

Determining module, for determining described first air-conditioner and the operational mode of described second air-conditioner, wherein, described operational mode includes for the first mode of refrigeration with for the second pattern heated；

Computing module, deducts the difference of described second temperature value for calculating described first temperature value；

Control module, for deducting the difference of described second temperature value according to described operational mode and described first temperature value, generate described control instruction, to control the balance of the temperature in described first space, air-conditioner place and the temperature in described second space, air-conditioner place.

The temperature control equipment of 18. 1 kinds of air-conditioners, it is characterised in that including:

Multiple temperature-detecting devices, each described temperature-detecting device is arranged in the space comprising air-conditioner, the temperature value in each space comprising air-conditioner described in detecting, and is sent to controller；

Described controller, for obtaining the temperature value that the plurality of temperature-detecting device sends, and according to the control instruction of described temperature value generation temperature in each space comprising air-conditioner described in balancing；

Dispensing device, for described control instruction being sent to air-conditioner each described, controls the output of described air-conditioner with the balance realizing the temperature in each space, air-conditioner place.