CN113865037A - Control method for environment conditioning system and environment conditioning system - Google Patents

Abstract

The invention provides a control method for an environment adjusting system and the environment adjusting system. The control method comprises the following steps: determining a plurality of temperature detection points of the indoor environment and a temperature weight corresponding to each temperature detection point; acquiring the detection temperatures of a plurality of temperature detection points, and calculating the environment temperature of the indoor environment according to the detection temperatures and the corresponding temperature weights; and controlling the air conditioner in the environment adjusting system to work according to the environment temperature. The invention calculates the environment temperature through the detection temperatures of a plurality of temperature detection points of the indoor environment and the corresponding temperature weights, and further controls the air conditioner to work according to the environment temperature, thereby solving the technical problem that the detection of the environment temperature is too limited in the prior art, improving the accuracy of the environment temperature, further realizing the accurate control of the air conditioner and improving the comfort of the indoor environment.

Description

Control method for environment conditioning system and environment conditioning system

Technical Field

The present invention relates to the field of air conditioning, and in particular, to a control method for an environmental conditioning system and an environmental conditioning system.

Background

In the air conditioner in the prior art, the ambient temperature of the indoor environment is detected by a temperature sensing module fixed on an indoor unit, and the temperature of the indoor environment is further adjusted according to the ambient temperature. However, the ambient temperature sensed by the fixed temperature sensing module has limitations and cannot accurately represent the actual temperature condition of the entire indoor environment, so that the ambient temperature of the indoor environment after the adjustment is finished still cannot reach the target temperature desired by the user. In view of the above, there is a need for a control method for an environmental conditioning system and an environmental conditioning system that can accurately obtain the ambient temperature of an indoor environment.

Disclosure of Invention

It is an object of a first aspect of the present invention to overcome at least one technical drawback of the prior art and to provide a control method for an climate control system.

It is a further object of the first aspect of the invention to improve the efficiency of temperature regulation.

It is a further object of the first aspect of the invention to improve the accuracy of the ambient temperature.

It is an object of the second aspect of the invention to provide an environmental conditioning system.

According to a first aspect of the present invention, there is provided a control method for an environmental conditioning system, comprising:

step A: determining a plurality of temperature detection points of an indoor environment and a temperature weight corresponding to each temperature detection point;

and B: acquiring the detection temperatures of the plurality of temperature detection points, and calculating the environment temperature of the indoor environment according to the detection temperatures and the corresponding temperature weights;

and C: and controlling the air conditioner in the environment adjusting system to work according to the environment temperature.

Optionally, the control method further includes:

step D: detecting the ambient temperature of the indoor unit of the air conditioner by using a temperature sensing module of the indoor unit;

step E: controlling the air conditioner to work according to the ambient temperature; wherein

Said step D is performed at least before said step B is performed for the first time.

Optionally, after the step B is executed for the first time, the step D and the step B are alternately executed according to a first preset time and a second preset time; wherein

And D, after the air conditioner is started up every time, firstly executing the step D.

Optionally, the step a includes:

step A1: detecting the size of the moving space of the indoor environment by using an aircraft in the environment adjusting system;

step A2: constructing a three-dimensional model of the activity space, and dividing the three-dimensional model into a plurality of units with equal volumes according to a preset size proportion contrast relation;

step A3: and determining one temperature detection point in each unit, and storing the position information of each temperature detection point.

Optionally, each vertical section of the three-dimensional model is distributed with a plurality of the units along the vertical direction; and is

And a plurality of units are respectively distributed on each horizontal section of the three-dimensional model along the depth direction and the transverse direction.

Optionally, the step a further includes:

step A4: respectively determining the temperature weight of each temperature detection point according to the environment information of the indoor environment and the distance information of each temperature detection point; wherein

The environment information comprises at least one of outdoor temperature and daylighting rate;

the distance information includes at least one of a distance from an indoor unit of the air conditioner, a distance from a lighting window of an indoor environment, and a distance from an entrance to an exit of the indoor environment.

Optionally, the control method further includes:

step F: acquiring the detection temperature of at least one temperature detection point within a preset distance range of the daylighting window in a preset time period and the corresponding weather condition;

step G: and determining the daylighting rate according to the change curve of the detection temperature in the preset time period and the corresponding weather condition.

Optionally, the step a further includes:

step A5: determining the detection sequence of the plurality of temperature detection points according to the position information of the plurality of temperature detection points; and is

In the step B, the aircraft in the environmental conditioning system is used to sequentially acquire the detection temperatures of the plurality of temperature detection points according to the detection sequence.

Optionally, the control method further includes:

and B, discarding the temperature detection of the temperature detection point which is away from the user by less than or equal to the preset distance threshold.

According to a second aspect of the present invention, there is provided an environmental conditioning system comprising:

an air conditioner for adjusting a temperature of an indoor environment; and

an aircraft for detecting a temperature of an indoor environment; wherein

The air conditioner comprises a processing module and a storage module storing a computer program, wherein the computer program is used for realizing any one of the control methods when being executed by the processing module.

The invention calculates the environment temperature through the detection temperatures of a plurality of temperature detection points of the indoor environment and the corresponding temperature weights, and further controls the air conditioner to work according to the environment temperature, thereby solving the technical problem that the detection of the environment temperature is too limited in the prior art, improving the accuracy of the environment temperature, further realizing the accurate control of the air conditioner and improving the comfort of the indoor environment.

Furthermore, the air conditioner and the indoor unit are respectively provided with a temperature sensing module, after the air conditioner is started each time, the air conditioner is controlled according to the temperature detected by the temperature sensing module of the indoor unit, and then the air conditioner is controlled alternately according to the temperature detected by the air conditioner and the temperature detected by the indoor unit, so that the efficiency of regulating the indoor environment temperature is improved, and the service life of the air conditioner is prolonged.

The inventor of the application creatively realizes that the temperature of the environment in the front chamber of the air conditioner is generally uniform, and the additional temperature sensing module is arranged for the indoor unit on the basis that the temperature sensing module is arranged on the aircraft, so that the temperature is detected in the initial stage of starting, the temperature sensing time is shortened on the basis of ensuring accurate adjustment of the indoor environment, and the use frequency of the aircraft is reduced.

Furthermore, the temperature weight of each temperature detection point is respectively determined according to the environment information of the indoor environment and the distance information of each temperature detection point, so that the accuracy of the calculated environment temperature is improved, the condition that the regulation rate of the environment temperature is reduced under the influence of environmental factors, even the environment temperature is developed in the direction away from the target temperature is avoided, and the comfort level of a user is further improved.

Furthermore, when the aircraft is started for the first time, the optimal temperature detection sequence of the plurality of temperature detection points is determined according to the position information of the plurality of temperature detection points, the aircraft is detected according to the detection sequence during subsequent starting, and the temperature detection of the temperature detection points which are less than or equal to the preset distance threshold value away from the user is directly skipped in the detection process, so that the control flow is simplified, and the time for temperature detection is shortened.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

FIG. 1 is a schematic block diagram of an environmental conditioning system in accordance with one embodiment of the present invention;

FIG. 2 is a schematic flow chart diagram of a control method for an environmental conditioning system, according to one embodiment of the present invention;

FIG. 3 is a schematic detailed flow chart diagram of a control method for an environmental conditioning system, according to one embodiment of the present invention.

Detailed Description

FIG. 1 is a schematic block diagram of an environmental conditioning system 100, according to one embodiment of the present invention. Referring to fig. 1, an environmental conditioning system 100 may include an air conditioner 110 for conditioning a temperature of an indoor environment and a temperature vehicle 120 for sensing the indoor environment.

The air conditioner 110 may be a split type air conditioner 110 that adjusts the temperature of the indoor environment through a vapor compression refrigeration system.

The indoor unit of the air conditioner 110 may include a cabinet, an indoor unit heat exchanger 112 and an indoor unit fan 111 disposed in the cabinet. The casing may be provided with an air inlet and an air outlet. The indoor unit fan 111 may be disposed downstream of the indoor unit heat exchanger 112, so as to cause air to flow into the casing from the air inlet to perform heat exchange with the indoor unit heat exchanger 112, and to blow out the heat-exchanged air through the air outlet.

The air conditioner 110 may include a processing module 114 and a storage module 115 storing a computer program for implementing the control method of the present invention when the computer program is executed by the processing module 114. The processing module 114 and the storage module 115 may be disposed within an enclosure.

The aircraft 120 may be provided with a temperature sensing module 121 and a distance sensing module 122 for detecting temperature and determining the position of the aircraft 120 in the indoor environment, respectively.

The air conditioner 110 and the aircraft 120 may be respectively provided with a communication module 116 and a communication module 123 to perform data signal transmission, so that the aircraft 120 receives the control instruction of the processing module 114 and feeds back the detected data to the processing module 114.

In particular, the processing module 114 may be configured to determine a plurality of temperature detection points of the indoor environment and a temperature weight corresponding to each temperature detection point, obtain the detected temperatures of the plurality of temperature detection points, calculate an ambient temperature of the indoor environment according to the plurality of detected temperatures and the corresponding temperature weights, and further control the air conditioner 110 to operate according to the ambient temperature to adjust the temperature of the indoor environment.

In the present invention, controlling the operation of the air conditioner 110 may specifically include adjusting the rotation speed of the compressor of the refrigeration system, the opening degree of the throttle valve, and the rotation speed of the indoor unit fan 111.

The environment adjusting system 100 of the present invention calculates the environment temperature by the detected temperatures of the plurality of temperature detecting points of the indoor environment and the corresponding temperature weights, and further controls the air conditioner 110 to operate according to the environment temperature, thereby solving the technical problem of the prior art that the detection of the environment temperature is too limited, improving the accuracy of the environment temperature, further realizing the precise control of the air conditioner 110, and improving the comfort of the indoor environment.

In some embodiments, the processing module 114 may be further configured to perform a dimension detection on the moving space of the indoor environment by using the aircraft 120, construct a three-dimensional model of the moving space and segment the three-dimensional model into a plurality of units with equal volumes according to a preset dimension proportion comparison relationship, determine a temperature detection point in each unit, and store the position information of each temperature detection point to improve the accuracy of the ambient temperature.

The size detection may be accomplished by a distance sensing module 122 of the aircraft 120. The active space is a space in which the aircraft 120 moves. The dimension ratio comparison relationship may be recorded with the dimension ranges of the activity space in the vertical direction, the depth direction, and the lateral direction, and the corresponding numerical value of the ratio of the volume of each cell to the total volume of the activity space.

Each vertical section of the three-dimensional model may have a plurality of cells distributed in a vertical direction. Each horizontal section of the three-dimensional model can be respectively distributed with a plurality of units along the depth direction and the transverse direction so as to further improve the accuracy of the ambient temperature.

The processing module 114 may be further configured to determine the temperature weight of each temperature detection point according to the environmental information of the indoor environment and the distance information of each temperature detection point, so as to improve the accuracy of the calculated ambient temperature and avoid the situation that the adjustment rate of the ambient temperature is reduced under the influence of the environmental factors, and even the ambient temperature is developed in a direction away from the target temperature. The temperature weight may be re-determined in real time during operation of the aircraft 120 based on the then-current environmental information in combination with the distance information.

The aircraft 120 may be provided with an image recognition module for identifying the entrance and exit of the light windows, indoor environment.

For example, the temperature weight may increase as the difference between the outdoor temperature and the target temperature increases, the lighting rate increases, the distance from the indoor unit increases, the distance from a lighting window of the indoor environment decreases, or the distance from an entrance or an exit of the indoor environment increases. The specific weight value can be obtained by a hierarchical analysis algorithm preset by the processing module 114.

In some further embodiments, the processing module 114 may be further configured to obtain a detected temperature of at least one temperature detecting point located within a preset distance range of the lighting window in a preset time period and a corresponding weather condition, and determine the lighting rate according to a variation curve of the detected temperature in the preset time period and the corresponding weather condition. For example, the storage module 115 may store the lighting rates corresponding to different weather conditions and different variation curves, and the processing module 114 may determine the lighting rates through curve comparison.

In some embodiments, the processing module 114 may be configured to determine a detection order of the plurality of temperature detection points according to the position information of the plurality of temperature detection points, and enable the aircraft 120 to sequentially acquire the detected temperatures of the plurality of temperature detection points according to the detection order, so as to simplify the control flow and shorten the time for temperature detection.

During the process of detecting the temperature by the aircraft 120, the processing module 114 may be further configured to control the aircraft 120 to directly abandon the temperature detection of the temperature detection point having a distance from the user less than or equal to the preset distance threshold value, so as to avoid collision with the user.

In some embodiments, the indoor unit may be provided with a temperature sensing module 113 for detecting an ambient temperature thereof.

Before the aircraft 120 is first operated, the processing module 114 may be configured to detect an ambient temperature using the temperature sensing module 113 and control the operation of the air conditioner 110 based on the ambient temperature to ensure comfort of the indoor environment.

In some further embodiments, after the first operation of the aircraft 120, the processing module 114 may be configured to detect the temperature with the temperature sensing module 113 and the temperature sensing module 121 alternately at a first preset time and a second preset time. After the air conditioner 110 is turned on each time, the temperature sensing module 113 is first used to detect the temperature, so as to improve the efficiency of adjusting the indoor ambient temperature and prolong the service life of the aircraft 120.

FIG. 2 is a schematic flow chart diagram of a control method for the climate control system 100, according to one embodiment of the present invention. Referring to fig. 2, the control method for the environmental conditioning system 100 of the present invention may include the steps of:

step S202: and determining a plurality of temperature detection points of the indoor environment and the temperature weight corresponding to each temperature detection point.

Step S204: and acquiring the detection temperatures of the plurality of temperature detection points, and calculating the environment temperature of the indoor environment according to the plurality of detection temperatures and the corresponding temperature weights.

Step S206: the operation of the air conditioner 110 in the environment conditioning system 100 is controlled according to the ambient temperature.

The control method of the invention calculates the environment temperature through the detection temperatures of a plurality of temperature detection points of the indoor environment and the corresponding temperature weights, and further controls the air conditioner 110 to work according to the environment temperature, thereby solving the technical problem that the detection of the environment temperature is too limited in the prior art, improving the accuracy of the environment temperature, further realizing the accurate control of the air conditioner 110 and improving the comfort of the indoor environment.

In some embodiments, step S202 may include the steps of:

performing a size detection of the active space of the indoor environment with the aircraft 120;

constructing a three-dimensional model of the activity space, and dividing the three-dimensional model into a plurality of units with equal volumes according to a preset size proportion contrast relation;

and determining a temperature detection point in each unit, and storing the position information of each temperature detection point so as to improve the accuracy of the ambient temperature.

In some further embodiments, each vertical section of the three-dimensional model may have a plurality of cells distributed along the vertical direction. Each horizontal section of the three-dimensional model can be respectively distributed with a plurality of units along the depth direction and the transverse direction so as to further improve the accuracy of the ambient temperature.

In some further embodiments, step S202 may further include the steps of:

and respectively determining the temperature weight of each temperature detection point according to the environment information of the indoor environment and the distance information of each temperature detection point so as to improve the accuracy of the calculated environment temperature and avoid the condition that the regulation rate of the environment temperature is reduced under the influence of environmental factors and even the environment temperature is developed in the direction away from the target temperature.

The temperature weight may be re-determined in real time in step S204 based on the current environmental information in combination with the distance information.

The environmental information may include at least one of outdoor temperature, daylighting rate. The distance information may include at least one of a distance from the indoor unit, a distance from a lighting window of the indoor environment, and a distance from an entrance to an exit of the indoor environment.

In some further embodiments, the daylighting rate can be determined by:

acquiring the detection temperature and the corresponding weather condition of at least one temperature detection point within a preset distance range of a lighting window in a preset time period;

and determining the daylighting rate according to the change curve of the detection temperature in the preset time period and the corresponding weather condition so as to improve the intelligence of the environment adjusting system 100.

In still further embodiments, the lighting rate may also be manually entered by the user empirically.

In some further embodiments, step S202 may further include the steps of:

and determining the detection sequence of the plurality of temperature detection points according to the position information of the plurality of temperature detection points.

In step S204, the aircraft 120 is used to sequentially obtain the detected temperatures of the plurality of temperature detection points according to the detection sequence, so as to simplify the control flow and shorten the time for temperature detection.

In step S204, the temperature detection of the temperature detection point whose distance from the user is less than or equal to the preset distance threshold is directly abandoned to avoid collision with the user.

In some embodiments, the control method of the present invention may further include the steps, performed at least before the first execution of step S204, of:

detecting the ambient temperature by using the temperature sensing module 113 of the indoor unit;

the operation of the air conditioner 110 is controlled according to the ambient temperature.

The above two steps may also be performed alternately with step S204 according to the first preset time and the second preset time after step S204 is performed for the first time. After the air conditioner 110 is turned on each time, the step of detecting the ambient temperature thereof by using the temperature sensing module 113 of the indoor unit is performed first, so as to improve the efficiency of adjusting the indoor ambient temperature and prolong the service life of the aircraft 120.

Fig. 3 is a schematic detailed flowchart of a control method for the environmental conditioning system 100 according to an embodiment of the present invention (in the present invention, "Y" means "yes;" N "means" no "). Referring to fig. 3, the control method for the environmental conditioning system 100 of the present invention may include the following detailed steps:

step S302: the ambient temperature of the indoor unit of the air conditioner 110 is detected by a temperature sensing module thereof.

Step S304: the operation of the air conditioner 110 is controlled according to the ambient temperature.

Step S306: it is determined whether the operation time of step S302 reaches (is greater than or equal to) a first preset time. If yes, go to step S308; if not, the process returns to step S302.

Step S308: it is determined whether the aircraft 120 is first activated for temperature detection. If yes, go to step S310; if not, go to step S320.

Step S310: the aircraft 120 in the climate control system 100 is used for the size detection of the active space of the indoor environment.

Step S312: and constructing a three-dimensional model of the activity space, and dividing the three-dimensional model into a plurality of units with equal volumes according to a preset size proportion contrast relation.

Step S314: one temperature detection point is determined in each unit, and the position information of each temperature detection point is stored.

Step S316: and respectively determining the temperature weight of each temperature detection point according to the environment information of the indoor environment and the distance information of each temperature detection point.

Step S318: and determining the detection sequence of the plurality of temperature detection points according to the position information of the plurality of temperature detection points. Step S320 is performed.

Step S320: the aircraft 120 in the environmental conditioning system 100 sequentially obtains the detection temperatures of the plurality of temperature detection points according to the detection sequence, and calculates the environmental temperature of the indoor environment according to the plurality of detection temperatures and the corresponding temperature weights.

Step S322: the operation of the air conditioner 110 in the environment conditioning system 100 is controlled according to the ambient temperature.

Step S324: it is determined whether the operation time of step S320 reaches a second preset time. If yes, returning to the step S302; if not, the process returns to step S320.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims (10)

1. A control method for an environmental conditioning system, comprising:

step A: determining a plurality of temperature detection points of an indoor environment and a temperature weight corresponding to each temperature detection point;

and B: acquiring the detection temperatures of the plurality of temperature detection points, and calculating the environment temperature of the indoor environment according to the detection temperatures and the corresponding temperature weights;

and C: and controlling the air conditioner in the environment adjusting system to work according to the environment temperature.

2. The control method according to claim 1, further comprising:

step D: detecting the ambient temperature of the indoor unit of the air conditioner by using a temperature sensing module of the indoor unit;

step E: controlling the air conditioner to work according to the ambient temperature; wherein

Said step D is performed at least before said step B is performed for the first time.

3. The control method according to claim 2, wherein,

after the step B is executed for the first time, alternately executing the step D and the step B according to a first preset time and a second preset time; wherein

And D, after the air conditioner is started up every time, firstly executing the step D.

4. The control method according to claim 1, wherein the step a includes:

step A1: detecting the size of the moving space of the indoor environment by using an aircraft in the environment adjusting system;

step A2: constructing a three-dimensional model of the activity space, and dividing the three-dimensional model into a plurality of units with equal volumes according to a preset size proportion contrast relation;

step A3: and determining one temperature detection point in each unit, and storing the position information of each temperature detection point.

5. The control method according to claim 4,

each vertical section of the three-dimensional model is distributed with a plurality of units along the vertical direction; and is

And a plurality of units are respectively distributed on each horizontal section of the three-dimensional model along the depth direction and the transverse direction.

6. The control method according to claim 4, wherein the step A further includes:

step A4: respectively determining the temperature weight of each temperature detection point according to the environment information of the indoor environment and the distance information of each temperature detection point; wherein

The environment information comprises at least one of outdoor temperature and daylighting rate;

the distance information includes at least one of a distance from an indoor unit of the air conditioner, a distance from a lighting window of an indoor environment, and a distance from an entrance to an exit of the indoor environment.

7. The control method according to claim 6, further comprising:

step F: acquiring the detection temperature of at least one temperature detection point within a preset distance range of the daylighting window in a preset time period and the corresponding weather condition;

step G: and determining the daylighting rate according to the change curve of the detection temperature in the preset time period and the corresponding weather condition.

8. The control method according to claim 1, wherein the step a further includes:

step A5: determining the detection sequence of the plurality of temperature detection points according to the position information of the plurality of temperature detection points; and is

In the step B, the aircraft in the environmental conditioning system is used to sequentially acquire the detection temperatures of the plurality of temperature detection points according to the detection sequence.

9. The control method according to claim 8, further comprising:

and B, discarding the temperature detection of the temperature detection point which is away from the user by less than or equal to the preset distance threshold.

10. An environmental conditioning system comprising:

an air conditioner for adjusting a temperature of an indoor environment; and

an aircraft for detecting a temperature of an indoor environment; wherein

The air conditioner comprises a processing module and a storage module storing a computer program for implementing the control method according to any one of claims 1-9 when executed by the processing module.

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