CN114061093A

CN114061093A - Control method and operation control device of window type air conditioner and window type air conditioner

Info

Publication number: CN114061093A
Application number: CN202111347961.6A
Authority: CN
Inventors: 李锶; 胡伟宏; 梁嘉文
Original assignee: GD Midea Air Conditioning Equipment Co Ltd
Current assignee: GD Midea Air Conditioning Equipment Co Ltd
Priority date: 2021-11-15
Filing date: 2021-11-15
Publication date: 2022-02-18
Also published as: WO2023082611A1

Abstract

The invention discloses a control method and an operation control device of a window type air conditioner and the window type air conditioner, wherein the method comprises the following steps: acquiring a mode trigger instruction, and operating in a first control mode in a first preset time period, wherein the first control mode comprises: acquiring a noise measured value and a temperature measured value, and adjusting the frequency of a compressor, the rotating speed of an inner fan, the rotating speed of an outer fan and the rotating speed of a water pumping motor according to the noise measured value, the temperature measured value, a noise preset value and a temperature preset value; after the first preset time period, operating in a second control mode, wherein the second control mode comprises: and acquiring a humidity measured value, and adjusting the frequency of the compressor, the rotating speed of the inner fan and the rotating speed of the water pumping motor according to the humidity measured value and the humidity preset value. The operating parameters of the window type air conditioner are correspondingly controlled through different parameter emphasis points of the two stages, the influence of noise, temperature and humidity can be effectively coordinated, and the comfort of a user in the sleeping process is improved.

Description

Control method and operation control device of window type air conditioner and window type air conditioner

Technical Field

The invention relates to the technical field of air conditioner control, in particular to a window type air conditioner control method, an operation control device and the window type air conditioner.

Background

Window air conditioners are typically mounted to a window frame of a wall for cooling or heating an indoor environment. Most window air conditioners are provided with a noise reduction mode at present, and the noise reduction method of the fixed-frequency window air conditioner is that when the sleep mode is started, the rotating speed of a fan is directly adjusted to the lowest gear for working; the noise reduction method of the frequency conversion window type air conditioner is that when the sleep mode is started, the rotating speed of the fan is reduced to the lowest level, the frequency of the compressor is also reduced, and the overall low noise requirement is met. But the refrigeration effect is obviously reduced by independently reducing the rotating speed of the fan and the frequency of the compressor, and the user has poor cold and hot comfort experience in the sleeping process and still cannot fall asleep easily although the noise is reduced; in addition, in some areas with hot and dry climate and less rainfall, if the humidity cannot be controlled during the sleeping process, the humidity becomes lower, and the sleeping experience is worse.

Disclosure of Invention

The invention aims to at least solve one of the technical problems in the prior art, and provides a control method, an operation control device and a window type air conditioner, which can effectively coordinate the influence of noise, temperature and humidity and improve the comfort of a user in the sleeping process.

In a first aspect, an embodiment of the present invention provides a method for controlling a window type air conditioner, including:

acquiring a mode trigger instruction, and operating in a first control mode in a first preset time period, wherein the first control mode comprises: acquiring a noise measured value and a temperature measured value, and adjusting the frequency of a compressor, the rotating speed of an inner fan, the rotating speed of an outer fan and the rotating speed of a water pumping motor according to the noise measured value, the temperature measured value, a noise preset value and a temperature preset value;

after the first preset time period, operating in a second control mode, wherein the second control mode comprises: and acquiring a humidity measured value, and adjusting the frequency of the compressor, the rotating speed of the inner fan and the rotating speed of the water pumping motor according to the humidity measured value and the humidity preset value.

The control method of the window type air conditioner provided by the embodiment of the invention at least has the following beneficial effects: after a user selects to enter a sleep mode, the window type air conditioner receives a mode trigger instruction, then operates in a first control mode within a first preset time period, and adjusts the frequency of a compressor, the rotating speed of an inner fan, the rotating speed of an outer fan and the rotating speed of a water beating motor according to the difference between a noise measured value and a temperature measured value and a preset value in the first control mode, so that the noise and the temperature meet the low noise requirement and the temperature requirement of the sleep initial stage as far as possible; after the first preset time period, the sleep stage is started, the noise requirement is not high in the sleep initial stage, but the humidity needs to be controlled well, so that the frequency of the compressor, the rotating speed of the inner fan and the rotating speed of the water pumping motor are adjusted according to the difference between the humidity measured value and the preset value in the second control mode, and the humidity can meet the humidity requirement of the sleep stage as far as possible; the operating parameters of the window type air conditioner are correspondingly controlled through different parameter emphasis points of the two stages, the influence of noise, temperature and humidity can be effectively coordinated, and the comfort of a user in the sleeping process is improved.

In an embodiment of the control method, during a first preset time period, when the noise measurement value is greater than the noise preset value, at least one of the following is performed:

reducing the compressor frequency;

reducing the rotating speed of the inner fan;

reducing the rotating speed of the outer fan;

the rotating speed of the water fetching motor is reduced.

When the measured value of the noise is larger than the preset value of the noise, the frequency of the compressor, the rotating speed of the inner fan, the rotating speed of the outer fan and the rotating speed of the water pumping motor are all reduced, so that the noise value can be effectively controlled.

In an embodiment, in a first preset time period, when the temperature measurement value is greater than the temperature preset value, at least one of the following is performed:

raising the compressor frequency;

increasing the rotating speed of the inner fan;

increasing the rotating speed of the outer fan;

and increasing the rotating speed of the water fetching motor.

When the temperature measured value is greater than the temperature preset value, the refrigerating capacity can be improved by increasing the frequency of the compressor, the rotating speed of the inner fan, the rotating speed of the outer fan and the rotating speed of the water pumping motor, so that the temperature value is effectively controlled.

In a control method of an embodiment, during a first preset time period, the method includes:

when T is less than Tt-N, reducing the frequency of the compressor;

when D is less than Dt-M and T is more than Tt, raising the frequency of the compressor;

when Dt-M is less than D and less than Dt + M and T is more than Tt + N, increasing the rotating speed of the water fetching motor;

when D is more than Dt + M and Tt-N is less than T and less than Tt + N, reducing the rotating speed of the inner fan;

wherein D is a noise measurement value, Dt is a noise preset value, T is a temperature measurement value, Tt is a temperature preset value, and M and N are preset values.

When the temperature measured value T is smaller than the difference between the temperature preset value Tt and the preset value N, the temperature measured value T is far smaller than the temperature preset value Tt, the temperature is too low or the refrigerating capacity is too violent at the moment, and the refrigerating capacity can be effectively reduced by reducing the frequency of the compressor;

when the noise measured value D is smaller than the difference between the noise preset value Dt and the preset value M and the temperature measured value T is larger than the temperature preset value Tt, the noise measured value D is far smaller than the noise preset value Dt and the temperature does not meet the requirement, at the moment, the frequency of the compressor is increased, the refrigerating capacity can be effectively improved, and the noise value has sufficient space for allowing the noise value to be increased;

when the noise measured value D is within the range of the fluctuation preset value M around the noise preset value Dt and the temperature measured value T is larger than the sum of the temperature preset value Tt and the preset value N, the noise deviation is not large, but the temperature deviation is large, at the moment, the rotating speed of the water-fetching motor is increased, the heat exchange effect of the condenser can be improved, the refrigerating capacity is improved, and the noise cannot be greatly improved;

when the noise measured value D is larger than the sum of the noise preset value Dt and the preset value M and the temperature measured value T fluctuates within the range of the preset value N around the temperature preset value Tt, the temperature deviation is not large, but the noise deviation is large, the rotating speed of the inner fan is reduced, the noise can be reduced, and meanwhile, the refrigerating capacity cannot be greatly reduced.

In the control method of an embodiment, during a first preset time period, the method further includes:

and when the Dt-M is less than the D and less than the Dt and the Tt is less than the T and less than the Tt + N, increasing the rotating speed of the water beating motor.

When Dt-M is less than D and less than Dt and Tt is less than T and less than Tt + N, the noise is slightly lower than the noise preset value Dt, the noise requirement is met, the temperature is slightly greater than the temperature preset value Tt, the rotating speed of the water-fetching motor is increased at the moment, the heat exchange effect of the condenser can be improved, the refrigerating capacity is improved, and the noise cannot be greatly improved.

In the control method of an embodiment, within a first preset time period:

when Dt-M is less than D and less than Dt and T is more than Tt + N, increasing the rotating speed of the water beating motor and increasing the rotating speed of the outer fan;

when Dt is less than D and less than Dt + M and T is more than Tt + N, the rotating speed of the water pumping motor is increased, and simultaneously the frequency of the compressor is increased and the rotating speed of the external fan is reduced.

When Dt-M is less than D and less than Dt and T is more than Tt + N, the noise is slightly lower than a noise preset value Dt, the noise requirement is met, the temperature is far greater than a temperature preset value Tt, the refrigerating capacity is far from the requirement, at the moment, the rotating speed of the water pumping motor is increased to improve the refrigerating capacity, the rotating speed of the outer fan can also be increased, and the temperature performance can be improved by slightly sacrificing the noise performance; when Dt is less than D and less than Dt + M and T is more than Tt + N, the noise is slightly higher than a noise preset value Dt, the temperature is far higher than a temperature preset value Tt, the refrigerating capacity is far beyond the requirement, at the moment, the rotating speed of the water pumping motor is increased to improve the refrigerating capacity, the frequency of the compressor can be increased to improve the refrigerating capacity, but the influence of the frequency of the compressor on the noise performance is large, and the rotating speed of the outer fan needs to be reduced at the same time to make up the influence of the noise performance caused by the increase of the frequency of the compressor.

In the control method of an embodiment, within a first preset time period:

when D is less than Dt-M and T is more than Tt + N, the rotating speed of the outer fan is increased while the frequency of the compressor is increased.

When D is less than Dt-M and T is more than Tt + N, the noise is far lower than a preset noise value Dt, the temperature is far greater than a preset temperature value Tt, the refrigerating capacity is far from the requirement, the refrigerating capacity can be improved by increasing the frequency of the compressor, the rotating speed of an external fan can be increased to improve the refrigerating capacity, and the noise value has sufficient space for allowing the noise value to be improved.

In the control method of an embodiment, within a first preset time period:

when D is larger than Dt + M and Tt is smaller than Tt and smaller than Tt + N, the rotating speed of the water pumping motor is increased while the rotating speed of the inner fan is reduced.

When D is more than Dt + M and Tt is less than T and less than Tt + N, the noise is far higher than a noise preset value Dt, the temperature is slightly greater than the temperature preset value Tt, the noise can be reduced by reducing the rotating speed of the inner fan, but the refrigerating capacity can also be reduced, and meanwhile, the influence of the refrigerating performance caused by reducing the rotating speed of the inner fan can be slightly compensated by increasing the rotating speed of the water-fetching motor.

In the control method of an embodiment, within a first preset time period:

when Dt-M is more than D and less than Dt and T is less than Tt-N, the rotating speed of the inner fan is reduced while the frequency of the compressor is reduced;

when D is more than Dt + M and T is less than Tt-N, the frequency of the compressor is reduced and the rotating speed of the inner fan is reduced.

When Dt-M is more than D and less than Dt and T is more than Tt-N, the noise is slightly lower than a noise preset value Dt, the temperature is far lower than a temperature preset value Tt, the temperature performance allowance is sufficient, the compressor frequency and the rotating speed of an inner fan can be reduced at the same time, and the refrigerating capacity is reduced; when D is more than Dt + M and T is less than Tt-N, the noise is far larger than the noise preset value Dt, the temperature is far lower than the temperature preset value Tt, the temperature performance margin is sufficient, the compressor frequency and the rotating speed of the inner fan can be reduced simultaneously to reduce the noise, and the refrigerating capacity has sufficient space allowing reduction.

In one embodiment, when D is greater than Dt + M and T is greater than Tt + N, a warning indicating a low noise preset value or a low temperature preset value is issued.

When D is greater than Dt + M and T is greater than Tt + N, it is indicated that the noise and the temperature are both far greater than the preset value, and no matter what adjustment is performed, one of the factors is further deviated from the preset value, and a warning that the preset value of the noise or the preset value of the temperature is too low needs to be sent out, so that a user is prompted to appropriately increase the preset value corresponding to the at least one factor.

In the control method according to an embodiment, the adjusting the compressor frequency, the inner fan rotation speed, and the water pumping motor rotation speed according to the humidity measured value and the humidity preset value includes:

when H is less than Ht-P, reducing the frequency of the compressor and increasing the rotating speed of the inner fan;

when H is more than Ht + P, reducing the rotating speed of the inner fan and increasing the rotating speed of the water pumping motor;

wherein H is a humidity measured value, Ht is a humidity preset value, and P is a preset value.

When H is less than Ht-P, the measured value of the humidity is far lower than the preset value of the humidity, the temperature of the evaporator is raised by reducing the frequency of the compressor and raising the rotating speed of the inner fan, and therefore the dehumidification capacity is reduced; when H is larger than Ht + P, the measured value of the humidity is far larger than the preset value of the humidity, and the evaporation temperature is reduced by reducing the rotating speed of the inner fan and increasing the rotating speed of the water beating motor, so that the dehumidification capacity is increased.

In the above control method, the rate of increase of the compressor frequency is 2hz/min, and the rate of decrease is 4 hz/min; the rising rate of the rotating speed of the inner fan, the rotating speed of the outer fan and the rotating speed of the water beating motor is 50rev/min, and the falling rate is 100 rev/min.

In a second aspect, an embodiment of the present invention provides an operation control apparatus, including at least one control processor and a memory, which is communicatively connected to the at least one control processor; the memory stores instructions executable by the at least one control processor to enable the at least one control processor to perform the method of controlling a window air conditioner as described above in the embodiments of the first aspect.

In a third aspect, an embodiment of the present invention provides a window type air conditioner, including the operation control device as described in the second aspect.

In a fourth aspect, embodiments of the present invention provide a computer-readable storage medium storing computer-executable instructions for causing a computer to perform the control method of a window air conditioner as described in the first aspect.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the example serve to explain the principles of the invention and not to limit the invention.

The invention is further described below with reference to the accompanying drawings and examples;

fig. 1 is a flowchart illustrating a method for controlling a window type air conditioner according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating a method for controlling a window type air conditioner according to another embodiment of the present invention;

fig. 3 is a schematic structural diagram of an operation control device according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, if there are first and second described only for the purpose of distinguishing technical features, it is not understood that relative importance is indicated or implied or that the number of indicated technical features or the precedence of the indicated technical features is implicitly indicated or implied.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

The embodiment of the invention provides a control method and an operation control device of a window type air conditioner and the window type air conditioner, which can effectively coordinate the influence of noise, temperature and humidity and improve the comfort of a user in the sleeping process.

The embodiments of the present invention will be further explained with reference to the drawings.

Referring to fig. 1, a first embodiment of the present invention provides a method for controlling a window type air conditioner, including steps S110 to S120:

step S110: acquiring a mode trigger instruction, and operating in a first control mode in a first preset time period, wherein the first control mode comprises: acquiring a noise measured value and a temperature measured value, and adjusting the frequency of a compressor, the rotating speed of an inner fan, the rotating speed of an outer fan and the rotating speed of a water pumping motor according to the noise measured value, the temperature measured value, a noise preset value and a temperature preset value;

step S120: after the first preset time period, operating in a second control mode, wherein the second control mode comprises: and acquiring a humidity measured value, and adjusting the frequency of the compressor, the rotating speed of the inner fan and the rotating speed of the water pumping motor according to the humidity measured value and the humidity preset value.

According to the control method of the window type air conditioner provided by the embodiment of the invention, after a user selects to enter a sleep mode, the window type air conditioner receives a mode trigger instruction, then operates in a first control mode within a first preset time period, and adjusts the frequency of a compressor, the rotating speed of an inner fan, the rotating speed of an outer fan and the rotating speed of a water beating motor according to the difference between a noise measured value and a temperature measured value and a preset value under the first control mode, so that the noise and the temperature can meet the low noise requirement and the temperature requirement of the sleep initial stage as much as possible; after the first preset time period, the sleep stage is started, the noise requirement is not high in the sleep initial stage, but the humidity needs to be controlled well, so that the frequency of the compressor, the rotating speed of the inner fan and the rotating speed of the water pumping motor are adjusted according to the difference between the humidity measured value and the preset value in the second control mode, and the humidity can meet the humidity requirement of the sleep stage as far as possible; the operating parameters of the window type air conditioner are correspondingly controlled through different parameter emphasis points of the two stages, the influence of noise, temperature and humidity can be effectively coordinated, and the comfort of a user in the sleeping process is improved.

reducing the compressor frequency;

reducing the rotating speed of the inner fan;

reducing the rotating speed of the outer fan;

the rotating speed of the water fetching motor is reduced.

It can be understood that the noise value can be reduced by reducing the frequency of the compressor, the rotating speed of the inner fan, the rotating speed of the outer fan and the rotating speed of the water pumping motor, so that the noise value can be effectively controlled by executing the operation when the noise measured value is greater than the noise preset value.

It should be noted that, in this embodiment, only noise factors and adjustment operations corresponding to noise reduction are considered, and the four adjustment operations have different effects on the noise factors, and the effect of the compressor frequency, the inner fan rotation speed, the outer fan rotation speed, and the water pumping motor rotation speed on the noise is substantially gradually reduced, and an appropriate adjustment measure needs to be selected according to the magnitude of the noise measurement value.

raising the compressor frequency;

increasing the rotating speed of the inner fan;

increasing the rotating speed of the outer fan;

and increasing the rotating speed of the water fetching motor.

It can be understood that the refrigerating capacity can be improved by increasing the frequency of the compressor, the rotating speed of the inner fan, the rotating speed of the outer fan and the rotating speed of the water-beating motor, and the temperature value can be effectively controlled by executing the operation when the temperature measured value is greater than the temperature preset value.

It should be noted that, in this embodiment, only the temperature factor and the adjustment operation for correspondingly improving the refrigeration capacity are considered, and the four adjustment operations have different effects on the refrigeration capacity, and the effects of the compressor frequency, the rotation speed of the inner fan, the rotation speed of the outer fan, and the rotation speed of the water-pumping motor on the refrigeration capacity are substantially gradually reduced, and an appropriate adjustment measure needs to be selected according to the magnitude of the temperature measurement value.

It will be appreciated that the above two embodiments are provided for adjusting the noise factor and the temperature factor separately, and that the specific adjustment operation will be different when the noise factor and the temperature factor need to be considered together, as will be further described below.

The adjustment operation performed in combination with the noise factor and the temperature factor is shown in the following table.

when T is less than Tt-N, reducing the frequency of the compressor;

when T is less than Tt-N, namely the temperature measurement value T is less than the difference between the temperature preset value Tt and the preset value N, the temperature measurement value T is far less than the temperature preset value Tt, and the temperature is too low or the refrigerating capacity is too violent at the moment, the frequency of the compressor is reduced by adjusting operation, and the operation can effectively reduce the refrigerating capacity;

when D is less than Dt-M and T is more than Tt, namely the noise measured value D is less than the difference between the noise preset value Dt and the preset value M and the temperature measured value T is greater than the temperature preset value Tt, the noise measured value D is far less than the noise preset value Dt and the temperature does not meet the requirement, the frequency of the compressor is increased at the moment, the refrigerating capacity can be effectively improved, and the noise value also has sufficient space for allowing the noise value to be increased;

when Dt-M is smaller than D and smaller than Dt + M and T is larger than Tt + N, namely the noise measured value D is within the range of the fluctuation preset value M around the noise preset value Dt and the temperature measured value T is larger than the sum of the temperature preset value Tt and the preset value N, the noise deviation is not large, but the temperature deviation is large, at the moment, the rotating speed of the water-fetching motor is increased, the heat exchange effect of the condenser can be improved, the refrigerating capacity is improved, and the noise is not greatly improved;

when D is larger than Dt + M, Tt-N is smaller than T and smaller than Tt + N, the noise measured value D is larger than the sum of the noise preset value Dt and the preset value M, and the temperature measured value T is in the range of the fluctuation preset value N around the temperature preset value Tt, the temperature deviation is not large, but the noise deviation is large, at the moment, the rotating speed of the inner fan is reduced, the noise can be reduced, and meanwhile, the refrigerating capacity cannot be greatly reduced.

In the control method of an embodiment, within a first preset time period:

The above-described embodiments describe the adjustment operation of the window air conditioner in the first control mode for various combinations of noise and temperature. The following describes the adjustment operation of the window air conditioner in the second control mode.

The following describes the control method of the window air conditioner in detail with reference to fig. 2.

The user is in the sleep in-process, not only has the demand to the noise, also has the demand to the humiture simultaneously. Especially in the sauter market, the temperature and the humidity are high all the year round, so the control on the proper humidity is very important, and the control method of the window type air conditioner is designed by combining the structural form of the window type air conditioner and the special function of water fetching of the window type air conditioner, so that the influence of noise, temperature and humidity can be effectively coordinated, and the comfort of a user in the sleeping process is improved.

The window type air conditioner in the embodiment is an integral type air conditioner which is divided into an indoor part and an outdoor part, wherein the indoor part and the outdoor part are separated by a middle partition plate; the indoor main components comprise an evaporator, an inner fan and a wind wheel, and the outdoor main components comprise a condenser, an outer fan and a wind wheel. Meanwhile, a small water fetching device is installed on the outdoor side chassis and is close to the condenser, the water fetching device comprises a water fetching motor and an impeller installed on a motor shaft of the water fetching motor, and when the water fetching device runs, the impeller fetches the condensed water on the chassis onto the condenser, so that the heat exchange effect of the condenser is improved.

In the present embodiment, the sleep process is divided into a first stage and a second stage:

the first stage is a first sleep stage, which is a start stage of a sleep mode, the required noise is obviously reduced, the environmental temperature also meets the requirements of refrigeration and heating, and the low-noise main temperature control mode is adopted;

the second stage is a sleep stage, which is a sound sleep stage, and a humidity control mode that does not require too low noise but needs to control humidity well and cannot make the humidity of the room too low is required.

When a user selects to enter a sleep mode, a temperature preset value Tt, a humidity preset value Ht and a noise preset value Dt need to be set, the air conditioner starts to detect the humidity and the temperature of the indoor environment, a noise measured value D of the current air conditioner is obtained through a built-in noise curve according to the rotating speed of an internal machine and an external machine and the frequency of a compressor, and the user sets the noise preset value Dt and then judges the noise preset value Dt.

First a first phase is entered, the duration of which is t.

	\|D-Dt\|<M	\|D-Dt\|>M
			D-Dt<0	Enter judgment logic 1	Enter judgment logic 2
D-Dt>0	Enter judgment logic 3	Enter judgment logic 4

Wherein D is a noise measurement value, Dt is a noise preset value, and M is a preset value.

The first step of judgment is executed firstly, the noise measured value D is compared with the noise preset value Dt, and corresponding next step of judgment logic is entered according to the comparison result, namely judgment logic 1, judgment logic 2, judgment logic 3 or judgment logic 4 in the table. When D-Dt is less than 0 and | D-Dt | > M, namely D is less than Dt-M, the noise measured value D is far less than the noise preset value Dt, and then logic judgment 2 is performed; when D-Dt is less than 0 and | D-Dt | is less than M, namely Dt-M is less than D and is less than Dt, the noise measured value D is slightly less than the noise preset value Dt, and then logic judgment 1 is carried out; when D-Dt is greater than 0 and | D-Dt | < M, namely Dt < D < Dt + M, the noise measured value D is slightly larger than the noise preset value Dt, and then logic judgment 3 is carried out; when D-Dt >0 and | D-Dt | > M, i.e., D > Dt + M, indicate that the noise measurement value D is much larger than the noise preset value Dt, then enter logic judgment 4. The following is a further description of the four logical decisions.

When the entry logic judges 1:

at the moment, the noise is slightly lower than the noise preset value Dt, the requirement of a user is met, then temperature judgment is carried out, and corresponding adjustment operation is executed according to the result of the temperature judgment:

wherein T is a temperature measurement value, Tt is a temperature preset value, and N is a preset value.

When logic decision 2 is entered:

the noise is far lower than the noise preset value Dt at the moment, the user requirement is met, then temperature judgment is carried out, and corresponding adjustment operation is executed according to the temperature judgment result:

when the entry logic determines 3:

at the moment, the noise is slightly higher than the preset noise value Dt, then temperature judgment is carried out, and corresponding adjustment operation is carried out according to the result of the temperature judgment:

when logic decision 4 is entered:

at the moment, the noise is far higher than the noise preset value Dt, then temperature judgment is carried out, and corresponding adjustment operation is executed according to the result of the temperature judgment:

after the duration t of the first stage, entering a second stage:

the second stage is mainly a humidity control mode, and the humidity is controlled as much as possible to ensure the comfort under the condition of keeping the current noise level. And when the second stage is entered, recording the compressor frequency, the outer fan rotating speed, the inner fan rotating speed and the water beating motor rotating speed at the end of the first stage, wherein the compressor frequency, the outer fan rotating speed and the inner fan rotating speed of the second stage are the upper limit and the lower limit of the range determined according to the first stage end parameters.

Entering the second phase, with duration t1, the room humidity is detected:

When H-Ht is less than 0 and | H-Ht | is > P, namely H is less than Ht-P, the measured value of the humidity is far lower than the preset value of the humidity, and the temperature of the evaporator is raised by reducing the frequency of the compressor and raising the rotating speed of the inner fan, so that the dehumidification capacity is reduced; when H-Ht is greater than 0 and | H-Ht | is greater than P and H is greater than Ht + P, the measured value of the humidity is far greater than the preset value of the humidity, and the evaporation temperature is reduced by reducing the rotating speed of the inner fan and increasing the rotating speed of the water pumping motor, so that the dehumidification capacity is increased.

It is understood that when the user performs the interrupt operation during the duration t of the first phase or during the duration t2 of the second phase, the loop judgment may be re-performed, and the first phase may be re-entered to re-perform the control method of the window type air conditioner in the above-described embodiment.

Referring to fig. 3, a second embodiment of the present invention provides an operation control apparatus 500, including at least one control processor 510 and a memory 520 for communication connection with the at least one control processor 510; the memory 520 stores instructions executable by the at least one control processor 510, and the instructions are executed by the at least one control processor 510, so that the at least one control processor 510 can execute the control method of the window air conditioner according to the first embodiment, for example, execute the method steps S110 to S120 in fig. 1, or execute the method flow shown in fig. 2.

In addition, a third embodiment of the present invention provides a window type air conditioner, which includes the operation control device 500 as described in the second embodiment.

In addition, a fourth aspect of the present invention provides a computer-readable storage medium, which stores computer-executable instructions for causing a computer to perform the control method of the window air conditioner as described in the first aspect of the present invention, for example, perform steps S110 to S120 of the method in fig. 1, or perform the method flow shown in fig. 2.

One of ordinary skill in the art will appreciate that all or some of the steps, systems, and methods disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, digital signal processor, or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable media, which may include computer storage media or non-transitory media and communication media or transitory media. The term computer storage media includes volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data as is well known to those of ordinary skill in the art. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital versatile disks, DVD, or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can accessed by a computer. In addition, communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media as known to those skilled in the art.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims

1. A method for controlling a window type air conditioner, comprising:

2. The control method according to claim 1, wherein, when the noise measurement value is greater than the noise preset value during a first preset time period, at least one of:

reducing the compressor frequency;

reducing the rotating speed of the inner fan;

reducing the rotating speed of the outer fan;

the rotating speed of the water fetching motor is reduced.

3. The control method according to claim 1, wherein, during a first preset time period, when the temperature measurement value is greater than the temperature preset value, at least one of:

raising the compressor frequency;

increasing the rotating speed of the inner fan;

increasing the rotating speed of the outer fan;

and increasing the rotating speed of the water fetching motor.

4. The control method according to claim 1, characterized by comprising, during a first preset time period:

when T is less than Tt-N, reducing the frequency of the compressor;

5. The control method according to claim 4, characterized by further comprising, during a first preset time period:

6. The control method according to claim 4, characterized in that, within a first preset time period:

7. The control method according to claim 4, characterized in that, within a first preset time period:

8. The control method according to claim 4, characterized in that, within a first preset time period:

9. The control method according to claim 4, characterized in that, within a first preset time period:

10. The control method of claim 4, wherein when D > Dt + M and T > Tt + N, a warning of a low noise preset value or a low temperature preset value is issued.

11. The control method according to claim 1, wherein the adjusting of the compressor frequency, the inner fan rotation speed and the water beating motor rotation speed according to the humidity measured value and the humidity preset value comprises:

12. The control method according to claim 1, wherein the rate of increase of the compressor frequency is 2hz/min and the rate of decrease is 4 hz/min; the rising rate of the rotating speed of the inner fan, the rotating speed of the outer fan and the rotating speed of the water beating motor is 50rev/min, and the falling rate is 100 rev/min.

13. An operation control device comprising at least one control processor and a memory for communicative connection with the at least one control processor; the memory stores instructions executable by the at least one control processor to enable the at least one control processor to perform the method of controlling the window air conditioner as claimed in any one of claims 1 to 12.

14. A window type air conditioner comprising the operation control apparatus as claimed in claim 13.

15. A computer-readable storage medium storing computer-executable instructions for causing a computer to perform the method of controlling a window type air conditioner according to any one of claims 1 to 12.