CN109373498B - demand mode control method, device and system of temperature regulation equipment and air conditioner - Google Patents

Abstract

the application relates to a demand mode control method, a demand mode control device, a demand mode control system and an air conditioner of temperature regulation equipment, wherein the capacity demand, the starting mode and the corresponding starting mode weight value of each internal machine of the temperature regulation equipment are obtained; when the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent, outputting a starting control instruction according to the starting modes of the internal machines and the corresponding starting mode weight values; and the starting control instruction is used for controlling the corresponding internal machine to start. The three parameters of the capacity requirement, the starting mode and the corresponding starting mode weight value of each internal machine are combined for judgment, so that the starting requirement of the internal machines can be preferentially controlled, and the temperature adjusting equipment is more reliably controlled.

Description

Demand mode control method, device and system of temperature regulation equipment and air conditioner

Technical Field

The application relates to the technical field of temperature regulation equipment control, in particular to a demand mode control method, a demand mode control device, a demand mode control system and an air conditioner of temperature regulation equipment.

Background

In recent years, with the continuous progress of social development and the increasing demand of consumers for quality of life, there has been an increasing demand for energy-efficient temperature adjusting devices such as air conditioners.

At present, in the actual temperature regulation equipment use scene, some internal machines require to use and be preferred than other internal machines, for example, intensive care unit inside the hospital, lobby inside the hotel, or Important VIP (Very Important guest) internal machine, etc., but traditional temperature regulation equipment can not judge the use priority order of internal machine, can not intelligent satisfy user's demand, consequently, traditional temperature regulation equipment control reliability is low.

disclosure of Invention

In view of the above, it is necessary to provide a demand pattern control method, apparatus, system and air conditioner for a temperature adjustment device, which can improve the control reliability, in order to solve the technical problem of low control reliability of the conventional temperature adjustment device.

A demand mode control method of a thermostat, the method comprising:

Acquiring capacity requirements, starting modes and corresponding starting mode weight values of each internal machine of the temperature regulating equipment;

when the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent, outputting a starting control instruction according to the starting modes of the internal machines and the corresponding starting mode weight values; and the starting control instruction is used for controlling the corresponding internal machine to start.

in one embodiment, the step of outputting the power-on control instruction according to the power-on mode of the internal device and the corresponding weight value of the power-on mode when the power requirement of the internal device is greater than zero is inconsistent includes:

when the power-on modes of the internal machines with the capacity requirements larger than zero are inconsistent and the corresponding weight values of the power-on modes are inconsistent, obtaining the weight value proportion of the internal machines in the same power-on mode according to the power-on modes of the internal machines and the corresponding weight values of the power-on modes;

Outputting a starting-up control instruction according to the weight value proportion of the internal machines in the same starting-up mode; the starting control instruction is used for controlling the starting of the internal machine in the starting mode with the largest weight value proportion.

In one embodiment, the step of outputting the power-on control instruction according to the power-on mode of each internal machine and the corresponding power-on mode weight value when the power-on modes of the internal machines with the capacity requirements greater than zero are inconsistent further includes:

When the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent and the corresponding weighted values of the starting modes are consistent, acquiring the sequence of the internal machines for receiving starting instructions;

Outputting a starting-up control instruction according to the sequence of the starting-up instructions received by the internal machines; and the starting control instruction is used for controlling the internal machine to start according to the sequence of receiving the starting instruction.

in one embodiment, after the step of obtaining the capability requirement, the boot mode, and the corresponding boot mode weight value of each internal machine of the temperature adjustment device, the method further includes:

when the starting modes of the internal machines with the capacity requirements larger than zero are consistent, outputting a starting control instruction; and the starting control instruction is used for controlling the internal machine with the capacity requirement larger than zero to start.

in one embodiment, after the step of outputting the power-on control instruction according to the power-on mode of the internal device and the corresponding weight value of the power-on mode when the power requirement of the internal device is greater than zero is inconsistent, the method further includes:

acquiring mute modes and corresponding mute mode weight values of each internal machine of the temperature regulating equipment;

When the mute modes of the internal machines are inconsistent, outputting a mute mode control instruction according to the mute modes of the internal machines and the corresponding mute mode weight values; and the mute mode control instruction is used for controlling the corresponding internal machine to enter the corresponding mute mode.

in one embodiment, when the mute modes of the internal machines are inconsistent, the step of outputting the mute mode control instruction according to the mute mode of the internal machine and the corresponding mute mode weight value includes:

When the mute modes of the internal machines are inconsistent and the weight values of the mute modes corresponding to the internal machines are inconsistent, obtaining the weight value proportion of the internal machines in the same mute mode according to the mute modes of the internal machines and the weight values of the corresponding mute modes;

Outputting a mute mode control instruction according to the weight value proportion of the internal machine in the same mute mode; and the mute mode control instruction is used for controlling the internal machine of the mute mode with the largest weight value proportion to enter the corresponding mute mode.

in one embodiment, the step of outputting the mute mode control instruction according to the mute mode of the internal unit and the corresponding mute mode weight value when the mute modes of the internal units are not consistent further includes:

when the mute modes of the internal machines are inconsistent and the corresponding weight values of the mute modes of the internal machines are consistent, acquiring the sequence of the internal machines for receiving the starting instructions;

outputting a mute mode control instruction according to the sequence of the receiving of the starting instruction by each internal machine; and the mute mode control instruction is used for controlling the corresponding internal machines to enter the corresponding mute modes according to the sequence of receiving the starting instructions.

In one embodiment, the obtaining of the mute mode and the corresponding mute mode of each internal unit of the temperature regulation equipment

After the step of the mute mode weight value, the method further comprises:

When the mute modes of the internal machines are consistent, outputting a mute mode control instruction; and the mute mode control instruction is used for controlling the internal machine to enter a corresponding mute mode.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

Acquiring capacity requirements, starting modes and corresponding starting mode weight values of each internal machine of the temperature regulating equipment;

When the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent, outputting a starting control instruction according to the starting modes of the internal machines and the corresponding starting mode weight values; and the starting control instruction is used for controlling the corresponding internal machine to start.

a demand mode control system of temperature regulation equipment comprises a processor and two or more internal machines, wherein the processor is connected with the internal machines,

The processor is used for outputting a starting-up control instruction according to any one of the methods;

the internal machine is used for starting up according to the received starting-up control instruction.

An air conditioner comprises the demand mode control system of the temperature adjusting device.

According to the demand mode control method, device and system of the temperature regulating equipment and the air conditioner, the capacity demand and the starting mode of each internal machine of the temperature regulating equipment and the corresponding starting mode weight value are obtained; when the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent, outputting a starting control instruction according to the starting modes of the internal machines and the corresponding starting mode weight values; and the starting control instruction is used for controlling the corresponding internal machine to start. The three parameters of the capacity requirement, the starting mode and the corresponding starting mode weight value of each internal machine are combined for judgment, so that the starting requirement of the internal machines can be preferentially controlled, and the temperature adjusting equipment is more reliably controlled.

Drawings

FIG. 1 is a flowchart of a demand mode control method of a thermostat according to an embodiment;

FIG. 2 is a flowchart of a demand mode control method of the temperature adjusting apparatus in another embodiment;

FIG. 3 is a flow chart illustrating a demand mode control method of the thermostat according to an embodiment;

FIG. 4 is a flowchart of a demand mode control method of the temperature adjusting device in still another embodiment;

FIG. 5 is a flowchart illustrating a demand mode control method of the temperature adjusting apparatus according to another embodiment;

FIG. 6 is a flowchart of a demand mode control method of the temperature adjusting device in still another embodiment;

FIG. 7 is a flowchart of a demand mode control method of the temperature adjusting device in still another embodiment;

FIG. 8 is a flowchart of a demand mode control method of the temperature adjusting device in still another embodiment;

FIG. 9 is a flowchart of a demand mode control method of the temperature adjusting device in still another embodiment;

FIG. 10 is a flowchart of a demand mode control method of the temperature adjusting device in still another embodiment;

FIG. 11 is a block diagram showing a demand mode control apparatus of the temperature adjusting device in one embodiment;

Fig. 12 is a block diagram of a demand mode control system of the temperature adjusting device in one embodiment.

Detailed Description

in order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In one embodiment, as shown in fig. 1, a demand mode control method for a thermostat is provided, and the method is used in a multi-split thermostat, and is described by taking the method as an example applied to a processor, and includes the following steps:

step S110: the capacity requirements, the starting mode and the corresponding starting mode weight value of each internal machine of the temperature regulating equipment are obtained.

Specifically, the processor receives a starting-up instruction fed back by each internal unit, and can obtain the capacity requirement of each internal unit according to the starting-up instruction fed back by each internal unit, if the starting-up instruction fed back by the internal unit is received, it indicates that the capacity requirement of the internal unit is greater than zero, and if the starting-up instruction fed back by the internal unit is not received, it indicates that the capacity requirement of the internal unit is zero; in this embodiment, the power-on modes include a cooling mode and a heating mode, each independent internal unit is given a power-on mode IP weight value in advance, the power-on mode IP weight value represents a priority order of power-on, the larger the power-on mode IP weight value is, the higher the power-on priority is, and if there are N internal units, the power-on mode weight values of the internal units are sequentially a1 and a2 … … an.

Step S120: and when the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent, outputting a starting control instruction according to the starting modes of the internal machines and the corresponding starting mode weighted values.

Specifically, the power-on control instruction is used for controlling the corresponding internal unit to be powered on. When the starting modes of the internal machines with capacity requirements larger than zero are inconsistent, namely the starting modes of one part of the internal machines are heating modes, and the starting mode of the other part of the internal machines is a refrigerating mode, the total weight value or the weight value proportion of the internal machines in the same starting mode can be obtained according to the starting modes of the internal machines and the corresponding weight values of the starting modes, comparison results can be obtained according to comparison between the weight values of the internal machines in the refrigerating mode and the weight values of the internal machines in the heating mode, and starting control instructions are output.

According to the demand mode control method of the temperature regulating equipment, the three parameters of the capacity demand, the starting mode and the corresponding starting mode weight value of each internal machine are combined for judgment, the starting demand of the internal machines can be controlled preferentially, and the temperature regulating equipment is controlled more reliably.

In one embodiment, as shown in fig. 2 and 3, step S120 includes step S122 and step S124.

Step S122: and when the power-on modes of the internal machines with the capacity requirements larger than zero are inconsistent and the corresponding weight values of the power-on modes are inconsistent, obtaining the weight value proportion of the internal machines in the same power-on mode according to the power-on modes of the internal machines and the corresponding weight values of the power-on modes.

Specifically, when the system detects that the internal machine startup modes with the capacity requirements larger than zero are inconsistent, the processor performs the comparison of the startup mode weight proportion values of the internal machines with the capacity requirements larger than zero, and performs the startup mode control with the larger weight proportion value. Suppose that there are N internal machines, the power-on mode weight values of the internal machines are a1 and a2 … … an in sequence, a1 is greater than a2 is greater than a3 … … is greater than an, and the total weight value is San which is a1+ a2+ a3 … … + an, so the weight proportion of the No. 1 internal machine is a1/San, and the weight proportion of the No. N internal machine is an/San in the same manner. If the refrigeration internal machines are a1, a3, a5 and … an, the weight ratio of the refrigeration internal machines is: (a1+ a3+ a5+ … an)/San, and similarly, the heating internal machine weight proportion value is as follows: (a2+ a4+ a5+ … an-1)/San.

Step S124: and outputting a starting control instruction according to the weight value proportion of the internal machines in the same starting mode.

specifically, the power-on control instruction is used for controlling the power-on of the internal unit in the power-on mode with the largest weight value ratio. If the boot modes of the number 1, 2, and 3 … N internal machines are not consistent, the priority of booting should be determined according to the weight ratio of the boot modes, and the formula represents: (a1+ a3+ a5+ … an)/San > (a2+ a4+ a5+ … an-1)/San, the processor controls the internal machine executing the cooling mode to be turned on.

In another embodiment, as shown in fig. 4 and 5, step S120 includes step S126 and step S128.

step S126: and when the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent and the corresponding weighted values of the starting modes are consistent, acquiring the sequence of the internal machines for receiving the starting instructions.

Step S128: and outputting the starting control instruction according to the sequence of the starting instructions received by the internal machines.

Specifically, the power-on control instruction is used for controlling the internal unit to be powered on according to the sequence of receiving the power-on instruction. When the user does not set the IP address weight value, that is, does not set the internal unit startup mode weight value, each internal unit startup mode weight value defaults to a constant T, and at this time, the weights of the startup modes of the internal units are consistent. When the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent, the processor needs to be controlled according to the starting mode, namely, the sequence of the internal machines for receiving the starting instructions is obtained, and the corresponding internal machines are controlled to be started according to the sequence of the received starting instructions.

in another embodiment, as shown in fig. 6, after step S110, step S130 is further included.

step S130: and when the starting modes of the internal machines with the capacity requirements larger than zero are consistent, outputting a starting control instruction.

Specifically, the start-up control command is used for controlling the start-up of the internal machine with the capacity requirement larger than zero. When the processor detects that the internal machine starting modes with the capacity requirements larger than zero are consistent, the processor does not execute the comparison of the starting mode weight proportion values of the started internal machines, and directly sends out a starting control instruction to execute the starting control action.

in one embodiment, as shown in fig. 7, after step S120 or step S130, step S140 and step S150 are further included.

step S140: and acquiring the mute mode of each internal machine of the temperature adjusting equipment and the corresponding weight value of the mute mode.

Specifically, in this embodiment, the mute mode includes a mute mode one, a mute mode two, and a mute mode three, and the mute mode one is set as follows: corresponding to the windshield rotation speed N1, the mute mode II: corresponding to windshield rotation speed 3 × N1/4, silent mode three: corresponding to the windshield rotation speed 3 × N1/2, a mute mode weight value is given to each independent indoor unit in advance, the mute mode weight value represents the control priority of the mute mode, and assuming that there are N indoor units, the mute mode weight values of the indoor units are b1 and b2 … … bn in sequence, so that the weight proportion of the No. 1 indoor unit is b1/Sbn, and similarly, the weight proportion of the No. N indoor unit is bn/Sbn. .

step S150: and when the mute modes of the internal machine are inconsistent, outputting a mute mode control instruction according to the mute mode of the internal machine and the corresponding mute mode weight value.

Specifically, the mute mode control instruction is used to control the internal units corresponding to the same mute mode to enter the corresponding mute mode. When the mute modes of the internal machines are not consistent, namely the mute mode of a part of the internal machines is the mute mode I, the mute mode of a part of the internal machines is the mute mode II or the mute mode of a part of the internal machines is the mute mode III, the total weight value or the weight value proportion of the internal machines in the same mute mode can be obtained according to the mute modes of the internal machines and the corresponding weight values of the mute modes, and the comparison can be carried out according to the total weight values of the internal machines in the same mute mode to output a mute mode control instruction.

In one embodiment, as shown in fig. 8, step S150 includes step S152 and step S154.

Step S152: and when the mute modes of the inner machines are inconsistent and the weight values of the mute modes corresponding to the inner machines are inconsistent, obtaining the weight value proportion of the inner machines in the same mute mode according to the mute modes of the inner machines and the corresponding weight values of the mute modes.

Specifically, when the system detects that the mute mode levels set by the turned-on unit are inconsistent, the processor performs comparison of the weight proportion values of the set mute mode levels, and the processor performs control of the mute mode with a larger weight proportion value. If the weighting ratio in mute mode is: (b1+ b4+ b7+ … bn)/Sbn, the weight ratio in mute mode two is: (b2+ b5+ b8+ … bn-1)/Sbn, the weight ratio value in silent mode three is: (b3+ b6+ b9+ … bn-2)/Sbn.

step S154: and outputting a mute mode control instruction according to the weight value proportion of the internal machine in the same mute mode.

specifically, the mute mode control instruction is used to control the internal unit of the mute mode with the largest weight value ratio to enter the corresponding mute mode. If the mute modes of the number 1, 2, and 3 … N machines are not consistent, the priority for entering the mute mode should be determined according to the weight ratio of the mute modes, and the formula is as follows: (b1+ b4+ b7+ … bn)/Sbn > (b2+ b5+ b8+ … bn-1)/Sbn > (b3+ b6+ b9+ … bn-2)/Sbn, the system performs the control of the mute mode one.

In another embodiment, as shown in fig. 9, step S150 further includes step S156 and step S158.

Step S156: and when the mute modes of the internal machines are inconsistent and the corresponding weight values of the mute modes of the internal machines are consistent, acquiring the sequence of the internal machines for receiving the starting instructions.

Step S158: and outputting a mute mode control instruction according to the sequence of the receiving of the starting instruction by each internal machine.

Specifically, the mute mode control instruction is used for controlling the corresponding internal unit to enter the corresponding mute mode according to the sequence of receiving the power-on instruction. When the user does not set the weight value of the silent mode, the weight value of the silent mode of each indoor unit is defaulted to be a constant T, and the weights of the silent modes of the indoor units are consistent. When the mute modes of the internal machines are inconsistent, the processor needs to control according to the mode of firstly starting the internal machines to be standard, namely, the sequence of the internal machines for receiving the starting instructions is obtained, and the corresponding internal machines are controlled to enter the corresponding mute modes according to the sequence of the received starting instructions.

In another embodiment, as shown in fig. 10, step S140 is followed by step S160.

Step S160: and when the mute modes of the internal machines are consistent, outputting a mute mode control instruction.

Specifically, the mute mode control instruction is used to control the internal unit to enter a corresponding mute mode. When the system detects that the levels of the silent modes set by the started machine are consistent, the processor does not execute comparison of the silent mode weight proportion values of the started machine, and directly sends out a silent mode control instruction to execute control action.

According to the demand mode control method of the temperature regulation equipment, each independent indoor unit is given a weight value of the demand mode, and the priority order of the control demand can be determined according to the weight value proportion, namely, the starting priority control of the refrigeration or heating mode is determined according to the proportion of the weight value of the starting mode of the indoor unit; according to the mute mode weight value proportion of the internal unit, the priority control of the mute mode grade is determined, so that the demand mode control of the temperature regulating equipment is more intelligent, the user demand is met, and the reliability is improved.

It should be understood that although the various steps in the flow charts of fig. 1-10 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 1-10 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternating with other steps or at least some of the sub-steps or stages of other steps.

in one embodiment, as shown in fig. 11, a demand mode control apparatus for a thermostat includes a parameter obtaining module 110 and a start-up control module 120, wherein:

a parameter obtaining module 110, configured to obtain capability requirements, a power-on mode, and a corresponding power-on mode weight value of each internal unit of the temperature adjustment device; the startup control module 120 is configured to output a startup control instruction according to the startup mode of the internal machine and the corresponding startup mode weight value when the startup modes of the internal machines with capacity requirements greater than zero are inconsistent; the starting control instruction is used for controlling the corresponding internal machine to start.

In one embodiment, the power-on control module includes a power-on mode weight value proportion determining unit and a power-on control unit, wherein the power-on mode weight value proportion determining unit is used for obtaining the weight value proportion of the internal machines in the same power-on mode according to the power-on mode of the internal machines and the corresponding power-on mode weight values when the power-on modes of the internal machines with capacity requirements larger than zero are inconsistent and the corresponding power-on mode weight values are inconsistent; the starting control unit is used for outputting a starting control instruction according to the weight value proportion of the internal machines in the same starting mode; the starting control instruction is used for controlling the starting of the internal machine in the starting mode with the largest weight value proportion.

In another embodiment, the power-on control module includes a first power-on instruction sequence determining unit and a power-on control unit, wherein the first power-on instruction sequence determining unit is configured to obtain a sequence in which each internal unit receives the power-on instruction when the power-on modes of the internal units whose capacity requirements are greater than zero are inconsistent and the corresponding weight values of the power-on modes are consistent; the starting control unit is used for outputting starting control instructions according to the sequence of the starting instructions received by the internal machines; the starting control instruction is used for controlling the internal machine to start according to the sequence of receiving the starting instruction.

In another embodiment, the power-on control module is further configured to output a power-on control instruction when the power-on modes of the internal machines with the capacity requirements greater than zero are consistent; the starting control instruction is used for controlling the starting of the internal machine with the capacity requirement larger than zero.

In one embodiment, the startup control module further comprises a mute mode parameter acquisition module and a mute mode control module, wherein the mute mode parameter acquisition module is used for acquiring mute modes and corresponding mute mode weight values of each internal unit of the temperature regulation equipment; the mute mode control module is used for outputting a mute mode control instruction according to the mute mode of the internal machine and the corresponding weight value of the mute mode when the mute modes of the internal machine are inconsistent; the mute mode control instruction is used for controlling the corresponding internal machine to enter the corresponding mute mode.

In one embodiment, the mute mode control module includes a mute mode weight value proportion determining unit and a mute mode control unit, wherein the mute mode weight value proportion determining unit is configured to obtain a weight value proportion of an internal unit in the same mute mode according to a mute mode of the internal unit and a corresponding mute mode weight value when the mute modes of the internal unit are inconsistent and the mute mode weight values corresponding to the internal unit are inconsistent; the mute mode control unit is used for outputting a mute mode control instruction according to the weight value proportion of the internal machine in the same mute mode; the mute mode control instruction is used for controlling the internal machine of the mute mode with the largest weight value proportion to enter the corresponding mute mode.

In another embodiment, the silent mode control module includes a second power-on instruction determining unit and a silent mode control unit, wherein the second power-on instruction determining unit is configured to obtain an order in which each internal unit receives a power-on instruction when the silent modes of the internal units are inconsistent and the corresponding weight values of the silent modes of the internal units are consistent; the mute mode control unit is used for outputting mute mode control instructions according to the sequence of the startup instructions received by the internal machines; the mute mode control instruction is used for controlling the corresponding internal machine to enter the corresponding mute mode according to the sequence of receiving the starting instruction.

in another embodiment, the mute mode control module is further configured to output a mute mode control instruction when the mute modes of the internal machines are consistent; and the mute mode control instruction is used for controlling the internal machine to enter a corresponding mute mode.

The demand mode control device of the temperature regulating equipment gives a weight value to each independent indoor unit demand mode, and determines the priority order of control demands according to the weight value proportion, namely determines the starting-up priority control of a refrigeration or heating mode according to the size of the starting-up mode weight value proportion of the indoor unit; according to the mute mode weight value proportion of the internal unit, the priority control of the mute mode grade is determined, so that the demand mode control of the temperature regulating equipment is more intelligent, the user demand is met, and the reliability is improved.

For the specific definition of the demand mode control device of the temperature adjustment apparatus, reference may be made to the above definition of the demand mode control method of the temperature adjustment apparatus, which is not described herein again. The respective modules in the demand pattern control apparatus of the above-described temperature adjusting device may be entirely or partially implemented by software, hardware, and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of: acquiring capacity requirements, starting modes and corresponding starting mode weight values of each internal machine of the temperature regulating equipment; when the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent, outputting a starting control instruction according to the starting modes of the internal machines and the corresponding starting mode weight values; the starting control instruction is used for controlling the corresponding internal machine to start.

In one embodiment, when the computer program is executed by the processor and the power-on mode of the internal device with the capacity requirement greater than zero is inconsistent, the step of outputting the power-on control instruction according to the power-on mode of the internal device and the corresponding weight value of the power-on mode includes: when the power-on modes of the internal machines with the capacity requirements larger than zero are inconsistent and the corresponding weight values of the power-on modes are inconsistent, obtaining the weight value proportion of the internal machines in the same power-on mode according to the power-on modes of the internal machines and the corresponding weight values of the power-on modes; outputting a starting-up control instruction according to the weight value proportion of the internal machines in the same starting-up mode; the starting control instruction is used for controlling the starting of the internal machine in the starting mode with the largest weight value proportion.

In one embodiment, when the computer program is executed by the processor and the power-on modes of the internal machines with the capacity requirement greater than zero are not consistent, the step of outputting the power-on control instruction according to the power-on modes of the internal machines and the corresponding power-on mode weight values further includes: when the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent and the corresponding weighted values of the starting modes are consistent, acquiring the sequence of the internal machines for receiving starting instructions; outputting a starting-up control instruction according to the sequence of the starting-up instructions received by the internal machines; the starting control instruction is used for controlling the internal machine to start according to the sequence of receiving the starting instruction.

in one embodiment, after the step of obtaining the capability requirement, the boot mode, and the corresponding boot mode weight value of each internal device of the temperature adjustment device when the computer program is executed by the processor, the method further includes: when the starting modes of the internal machines with the capacity requirements larger than zero are consistent, outputting a starting control instruction; the starting control instruction is used for controlling the starting of the internal machine with the capacity requirement larger than zero.

In one embodiment, when the computer program is executed by the processor, and when the power-on modes of the internal units with the capacity requirements greater than zero are inconsistent, after the step of outputting the power-on control instruction according to the power-on modes of the internal units and the corresponding weight values of the power-on modes, the method further includes: acquiring mute modes and corresponding mute mode weight values of each internal machine of the temperature regulating equipment; when the mute modes of the internal machines are inconsistent, outputting a mute mode control instruction according to the mute modes of the internal machines and the corresponding mute mode weight values; the mute mode control instruction is used for controlling the corresponding internal machine to enter the corresponding mute mode.

In one embodiment, when the mute mode of the internal unit is inconsistent, the step of outputting the mute mode control instruction according to the mute mode of the internal unit and the corresponding weight value of the mute mode includes: when the mute modes of the internal machines are inconsistent and the weight values of the mute modes corresponding to the internal machines are inconsistent, obtaining the weight value proportion of the internal machines in the same mute mode according to the mute modes of the internal machines and the weight values of the corresponding mute modes; outputting a mute mode control instruction according to the weight value proportion of the internal machine in the same mute mode; the mute mode control instruction is used for controlling the internal machine of the mute mode with the largest weight value proportion to enter the corresponding mute mode.

In one embodiment, when the mute mode of the internal unit is inconsistent, the step of outputting the mute mode control instruction according to the mute mode of the internal unit and the corresponding weight value of the mute mode further includes: when the mute modes of the internal machines are inconsistent and the corresponding weight values of the mute modes of the internal machines are consistent, acquiring the sequence of the internal machines for receiving the starting instructions; outputting a mute mode control instruction according to the sequence of the receiving of the starting instruction by each internal machine; the mute mode control instruction is used for controlling the corresponding internal machine to enter the corresponding mute mode according to the sequence of receiving the starting instruction.

In one embodiment, after the step of obtaining the mute mode and the corresponding mute mode weight value of each internal unit of the temperature adjustment device when the computer program is executed by the processor, the method further includes: when the mute modes of the internal machines are consistent, outputting a mute mode control instruction; and the mute mode control instruction is used for controlling the internal machine to enter a corresponding mute mode.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware related to instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

In an embodiment, as shown in fig. 12, a demand mode control system of a temperature adjustment device includes a processor 210 and internal units 220, where the number of the internal units 220 is two or more, the processor 210 is connected to the internal units 220, and the processor 210 is configured to obtain a capability demand, a power-on mode, and a corresponding power-on mode weight value of each internal unit 220 of the temperature adjustment device; and when the power-on modes of the internal units 220 with the capacity requirements larger than zero are inconsistent, outputting a power-on control instruction to the corresponding internal units 220 according to the power-on modes of the internal units 220 and the corresponding weight values of the power-on modes; the internal unit 220 is configured to start up according to the received start-up control instruction.

for specific limitations of the demand mode control system of the temperature regulation device, reference may be made to the above limitations of the demand mode control method of the temperature regulation device, which are not described herein again.

The demand mode control system of the temperature regulating equipment gives a weight value to each independent indoor unit demand mode, and can determine the priority order of control demands according to the weight value proportion, namely, the startup priority control of a refrigeration or heating mode is determined according to the proportion of the startup mode weight values of the indoor units; according to the mute mode weight value proportion of the internal unit, the priority control of the mute mode grade is determined, so that the demand mode control of the temperature regulating equipment is more intelligent, the user demand is met, and the reliability is improved.

in one embodiment, an air conditioner includes a demand mode control system of the above-described temperature adjustment apparatus.

For the specific definition of the air conditioner, reference may be made to the above definition of the demand mode control method for the temperature adjustment device, which is not described herein again.

according to the air conditioner, each independent indoor unit is given a weight value of a demand mode, and the priority sequence of control demands can be determined according to the weight value proportion, namely, the starting-up priority control of a refrigeration or heating mode is determined according to the size of the weight value proportion of the starting-up mode of the indoor unit; according to the mute mode weight value proportion of the internal unit, the priority control of the mute mode grade is determined, so that the demand mode control of the temperature regulating equipment is more intelligent, the user demand is met, and the reliability is improved.

the technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (11)

1. a demand mode control method of a thermostat, the method comprising:

Acquiring capacity requirements, starting modes and corresponding starting mode weight values of each internal machine of the temperature regulating equipment;

When the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent, outputting a starting control instruction according to the starting modes of the internal machines and the corresponding starting mode weight values; the starting control instruction is used for controlling the corresponding internal machine to start;

When the power-on modes of the internal machines with the capacity requirements larger than zero are inconsistent, after the step of outputting the power-on control instruction according to the power-on modes of the internal machines and the corresponding power-on mode weight values, the method further comprises the following steps:

acquiring mute modes and corresponding mute mode weight values of each internal machine of the temperature regulating equipment;

when the mute modes of the internal machines are inconsistent, outputting a mute mode control instruction according to the mute modes of the internal machines and the corresponding mute mode weight values; and the mute mode control instruction is used for controlling the corresponding internal machine to enter the corresponding mute mode.

2. The method according to claim 1, wherein the step of outputting the power-on control instruction according to the power-on mode of the indoor unit and the corresponding weight value of the power-on mode when the power-on mode of the indoor unit with the capacity requirement greater than zero is inconsistent comprises:

when the power-on modes of the internal machines with the capacity requirements larger than zero are inconsistent and the corresponding weight values of the power-on modes are inconsistent, obtaining the weight value proportion of the internal machines in the same power-on mode according to the power-on modes of the internal machines and the corresponding weight values of the power-on modes;

Outputting a starting-up control instruction according to the weight value proportion of the internal machines in the same starting-up mode; the starting control instruction is used for controlling the starting of the internal machine in the starting mode with the largest weight value proportion.

3. The method according to claim 2, wherein the step of outputting the power-on control instruction according to the power-on mode of each internal machine and the corresponding power-on mode weight value when the power-on modes of the internal machines with the capacity requirement greater than zero are inconsistent further comprises:

When the starting modes of the internal machines with the capacity requirements larger than zero are inconsistent and the corresponding weighted values of the starting modes are consistent, acquiring the sequence of the internal machines for receiving starting instructions;

Outputting a starting-up control instruction according to the sequence of the starting-up instructions received by the internal machines; and the starting control instruction is used for controlling the internal machine to start according to the sequence of receiving the starting instruction.

4. The method according to claim 1, wherein after the step of obtaining the capability requirement, the power-on mode, and the corresponding power-on mode weight value of each internal unit of the thermostat, the method further comprises:

When the starting modes of the internal machines with the capacity requirements larger than zero are consistent, outputting a starting control instruction; and the starting control instruction is used for controlling the internal machine with the capacity requirement larger than zero to start.

5. The method according to claim 1, wherein the step of outputting the mute mode control instruction according to the mute mode of the indoor unit and the corresponding mute mode weight value when the mute modes of the indoor units are inconsistent comprises:

when the mute modes of the internal machines are inconsistent and the weight values of the mute modes corresponding to the internal machines are inconsistent, obtaining the weight value proportion of the internal machines in the same mute mode according to the mute modes of the internal machines and the weight values of the corresponding mute modes;

Outputting a mute mode control instruction according to the weight value proportion of the internal machine in the same mute mode; and the mute mode control instruction is used for controlling the internal machine of the mute mode with the largest weight value proportion to enter the corresponding mute mode.

6. The method according to claim 5, wherein the step of outputting the mute mode control instruction according to the mute mode of the indoor unit and the corresponding weight value of the mute mode when the mute modes of the indoor units are not consistent further comprises:

When the mute modes of the internal machines are inconsistent and the corresponding weight values of the mute modes of the internal machines are consistent, acquiring the sequence of the internal machines for receiving the starting instructions;

Outputting a mute mode control instruction according to the sequence of the receiving of the starting instruction by each internal machine; and the mute mode control instruction is used for controlling the corresponding internal machines to enter the corresponding mute modes according to the sequence of receiving the starting instructions.

7. The method according to claim 1, wherein the step of obtaining the mute mode and the corresponding mute mode weight value of each of the units of the thermostat device is followed by the step of:

When the mute modes of the internal machines are consistent, outputting a mute mode control instruction; and the mute mode control instruction is used for controlling the internal machine to enter a corresponding mute mode.

8. A demand mode control apparatus for a temperature adjusting device, characterized by comprising:

The parameter acquisition module is used for acquiring the capacity requirements, the starting mode and the corresponding starting mode weight value of each internal machine of the temperature regulation equipment;

The starting control module is used for outputting a starting control instruction according to the starting mode of the internal machine and the corresponding starting mode weight value when the starting modes of the internal machines with capacity requirements larger than zero are inconsistent; the starting control instruction is used for controlling the corresponding internal machine to start;

The startup control module is also provided with a mute mode parameter acquisition module and a mute mode control module, wherein the mute mode parameter acquisition module is used for acquiring mute modes and corresponding mute mode weight values of each internal machine of the temperature regulating equipment; the mute mode control module is used for outputting a mute mode control instruction according to the mute mode of the internal machine and the corresponding weight value of the mute mode when the mute modes of the internal machine are inconsistent; and the mute mode control instruction is used for controlling the corresponding internal machine to enter the corresponding mute mode.

9. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of any of claims 1 to 7.

10. A demand mode control system of a temperature regulation device is characterized by comprising two or more processors and internal machines, wherein the processors are connected with the internal machines,

The processor is used for outputting a starting-up control instruction according to the method of any one of claims 1 to 7;

The internal machine is used for starting up according to the received starting-up control instruction.

11. an air conditioner characterized by comprising the demand mode control system of the temperature adjusting device according to claim 10.