CN107084493B - Variable frequency air conditioner, shutdown control method and computer readable storage medium - Google Patents

Abstract

The invention discloses a shutdown control method of a variable frequency air conditioner, which comprises the following steps: when the variable frequency air conditioner receives a shutdown signal, reducing the running frequency of the compressor until the running frequency reaches a preset frequency; acquiring the exhaust temperature of the compressor; and when the exhaust temperature is less than a preset shutdown temperature threshold value, controlling the compressor to stop running. The invention also discloses a variable frequency air conditioner and a computer readable storage medium. The invention can reduce the vibration and stress of the piping of the compressor of the inverter air conditioner, prolong the service life of the piping and improve the system stability of the inverter air conditioner.

Description

Variable frequency air conditioner, shutdown control method and computer readable storage medium

Technical Field

The invention relates to the technical field of air conditioners, in particular to a variable frequency air conditioner, a shutdown control method and a computer readable storage medium.

Background

In the inverter air conditioning system, when the pressure of the refrigerant is high during high-frequency operation, the pipeline has certain deformation, if the compressor is directly stopped, the refrigerant can rapidly stop flowing, the pressure of the refrigerant is suddenly lost, and the deformation of the pipeline is immediately rebounded and oscillated, so that the vibration and the stress of the tubing of the compressor are overlarge, and even the risk of tube breakage of the tubing exists. Therefore, how to reduce the vibration and stress of the pipes of the compressor at the shutdown time of the inverter air conditioner is a problem to be solved.

Disclosure of Invention

The invention mainly aims to provide an inverter air conditioner, a shutdown control method and a computer readable storage medium, aiming at reducing the vibration and stress of a piping of a compressor of the inverter air conditioner, prolonging the service life of the piping and improving the system stability of the inverter air conditioner.

In order to achieve the purpose, the shutdown control method of the variable frequency air conditioner provided by the invention comprises the following steps:

when the variable frequency air conditioner receives a shutdown signal, reducing the running frequency of the compressor until the running frequency reaches a preset frequency;

acquiring the exhaust temperature of the compressor;

and when the exhaust temperature is less than a preset shutdown temperature threshold value, controlling the compressor to stop running.

Preferably, the step of reducing the operating frequency of the compressor when the inverter air conditioner receives the shutdown signal further includes:

and when the variable frequency air conditioner receives a stop signal, controlling the compressor to reduce the frequency at a constant speed until the lowest running frequency is reached.

Preferably, the step of reducing the operating frequency of the compressor when the inverter air conditioner receives the shutdown signal further includes:

the method comprises the steps that when the variable frequency air conditioner receives a stop signal, the current running frequency of a compressor is obtained;

judging a frequency interval where the current running frequency is located;

when the frequency interval where the current operating frequency is located is a first frequency band, controlling the compressor to operate at a corresponding first speed reduction frequency;

and when the frequency interval in which the current operating frequency is located is a second frequency band, controlling the compressor to operate at a corresponding second speed reduction frequency until the lowest operating frequency is reached.

Preferably, the first frequency band range is greater than the second frequency band range, and the second reduced speed frequency is smaller than the first reduced speed frequency.

Preferably, the shutdown control method of the inverter air conditioner further includes:

acquiring the running time of the compressor running at the lowest running frequency;

and controlling the compressor to stop running when the running time reaches a preset running time threshold value.

Preferably, the shutdown control method of the inverter air conditioner further includes:

when the variable frequency air conditioner receives a stop signal, acquiring the frequency reduction time of the compressor for performing frequency reduction operation;

and when the frequency reduction time reaches a preset frequency reduction time threshold value, controlling the compressor to stop running.

In order to achieve the above object, the present invention also provides an inverter air conditioner, including:

a shutdown control program configured to implement the steps of the shutdown control method of the inverter air conditioner as described above.

In order to achieve the above object, the present invention further provides a computer readable storage medium having a shutdown control program of an inverter air conditioner stored thereon, where the shutdown control program of the inverter air conditioner is executed by a processor to implement the steps of the shutdown control method of the inverter air conditioner as described above.

According to the variable frequency air conditioner, the stop control method and the computer readable storage medium provided by the invention, when the variable frequency air conditioner receives a stop signal, the operation frequency of the compressor is reduced until the operation frequency reaches a preset frequency, then the exhaust temperature of the compressor is obtained, and when the exhaust temperature is smaller than a preset stop temperature threshold value, the compressor is controlled to stop operating. In this way, by reducing the operating frequency of the compressor to a preset frequency and controlling the compressor to stop when the exhaust temperature is less than a preset stop temperature threshold value, the vibration and the stress of the piping of the compressor of the inverter air conditioner can be reduced, the service life of the piping can be prolonged, and the system stability of the inverter air conditioner can be improved.

Drawings

FIG. 1 is a schematic structural diagram of an inverter air conditioner in a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart illustrating an embodiment of a shutdown control method for an inverter air conditioner according to the present invention;

FIG. 3 is a detailed flowchart of the step in FIG. 2, when the inverter air conditioner receives a shutdown signal, reducing the operating frequency of the compressor until a predetermined frequency is reached;

FIG. 4 is a specific diagram illustrating the inverter air conditioner of the present invention determining whether to control the compressor to stop according to the relationship between the discharge temperature and the predetermined stop temperature threshold;

FIG. 5 is a schematic flow chart illustrating a shutdown control method for an inverter air conditioner according to another embodiment of the present invention;

FIG. 6 is a specific diagram illustrating the inverter air conditioner of the present invention determining whether to control the compressor to stop according to the relationship between the operation time of the compressor operating at the predetermined frequency and the preset time threshold;

FIG. 7 is a schematic flow chart illustrating a shutdown control method of an inverter air conditioner according to still another embodiment of the present invention;

fig. 8 is a specific schematic diagram of the inverter air conditioner according to the relationship between the down-conversion time of the compressor for down-conversion operation and the preset down-conversion time threshold, and determining whether to control the compressor to stop.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, the inverter air conditioner of the present invention includes: a processor 1001, such as a CPU, a user interface 1002, a memory 1003, and a communication bus 1004. Wherein a communication bus 1004 is used to enable connective communication between these components. The user interface 1002 may include a Display screen (Display), an input unit such as a remote controller. The memory 1003 may be a high-speed RAM memory or a non-volatile memory (e.g., a disk memory). The memory 1003 may alternatively be a storage device separate from the processor 1001.

The inverter air conditioner also comprises an indoor unit, an outdoor unit, a compressor arranged in the outdoor unit, various sensors for detecting parameters such as temperature, pressure, humidity, refrigerant flow and the like.

Those skilled in the art will appreciate that the inverter air conditioner configuration shown in FIG. 1 does not constitute a limitation of inverter air conditioners and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, the memory 1003, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and a shutdown control program of the inverter air conditioner.

In the variable frequency air conditioner shown in fig. 1, the user interface 1002 is mainly used for receiving a user instruction, such as cooling or heating, triggered by a user touching the display screen or inputting an instruction in the input unit; and the processor 1001 may be configured to call a shutdown control program of the inverter air conditioner stored in the memory 1003, and perform the following operations:

when the variable frequency air conditioner receives a shutdown signal, reducing the running frequency of the compressor until the running frequency reaches a preset frequency;

acquiring the exhaust temperature of the compressor;

and when the exhaust temperature is less than a preset shutdown temperature threshold value, controlling the compressor to stop running.

Further, the processor 1001 may call the shutdown control program stored in the memory 1003, and also perform the following operations:

and when the variable frequency air conditioner receives a stop signal, controlling the compressor to reduce the frequency at a constant speed until the lowest running frequency is reached.

Further, the processor 1001 may call the shutdown control program stored in the memory 1003, and also perform the following operations:

the method comprises the steps that when the variable frequency air conditioner receives a stop signal, the current running frequency of a compressor is obtained;

judging a frequency interval where the current running frequency is located;

when the frequency interval where the current operating frequency is located is a first frequency band, controlling the compressor to operate at a corresponding first speed reduction frequency;

and when the frequency interval in which the current operating frequency is located is a second frequency band, controlling the compressor to operate at a corresponding second speed reduction frequency until the lowest operating frequency is reached.

Further, the processor 1001 may call the shutdown control program stored in the memory 1003, and also perform the following operations:

the first frequency range is larger than the second frequency range, and the second speed reduction frequency is smaller than the first speed reduction frequency.

Further, the processor 1001 may call the shutdown control program stored in the memory 1003, and also perform the following operations:

acquiring the running time of the compressor running at the lowest running frequency;

and controlling the compressor to stop running when the running time reaches a preset running time threshold value.

Further, the processor 1001 may call the shutdown control program stored in the memory 1003, and also perform the following operations:

when the variable frequency air conditioner receives a stop signal, acquiring the frequency reduction time of the compressor for performing frequency reduction operation;

and when the frequency reduction time reaches a preset frequency reduction time threshold value, controlling the compressor to stop running.

Referring to fig. 2, in a first embodiment, the present invention provides a shutdown control method for an inverter air conditioner, including:

step S1, when the variable frequency air conditioner receives the shutdown signal, reducing the running frequency of the compressor until the running frequency reaches the preset frequency;

in this embodiment, the condition that the inverter air conditioner receives the shutdown signal mainly includes the shutdown signal triggered by the user through the remote controller or the operation panel. The air conditioning system mainly relates to the variable frequency air conditioner, so the operating frequency of the compressor can be dynamically changed, and the operating frequency of the compressor which operates at high frequency is adjusted and operated when the shutdown signal is received by the air conditioning system in the embodiment of the invention, so that the compressor is prevented from being directly shut down, and the phenomenon of pipe breakage of a pipe of the compressor is prevented.

In this embodiment, the manner of reducing the operating frequency of the compressor may include various ways, such as controlling the compressor to down-convert at a constant rate until a predetermined frequency is reached; alternatively, the compressor is controlled to down-convert at a variable rate until a predetermined frequency is reached, specifically, the compressor may down-convert at a greater rate and then down-convert at a lesser rate until the predetermined frequency is reached. In addition, the running time of the down conversion at different rates can be reasonably set according to actual needs.

In this embodiment, the predetermined frequency is preferably set as the lowest operating frequency of the compressor of the corresponding model of the inverter air conditioner, and of course, in other embodiments, other frequencies may also be used, for example, the predetermined frequency may be selected as a certain frequency value between the highest operating frequency and the highest operating frequency according to actual needs.

Step S2, acquiring the exhaust temperature of the compressor;

in this embodiment, can detect through temperature sensor the exhaust temperature of compressor, temperature sensor can set up in the position of the blast pipe of compressor, can also set up in the top temperature of compressor, of course, can also set up in other reasonable positions.

And step S3, controlling the compressor to stop running when the exhaust temperature is less than a preset shutdown temperature threshold value.

In this embodiment, in order to reduce the piping vibration and stress of the compressor at the shutdown time of the inverter air conditioner, a direct shutdown method is not adopted under normal conditions unless the air conditioning system fails (is abnormal), but the compressor is gradually reduced in frequency and stopped until the refrigerant pressure is lower. Therefore, the exhaust temperature of the compressor can be monitored in real time or at regular time, and if the monitored exhaust temperature is greater than or equal to the preset shutdown temperature threshold, such as 60 ℃, the corresponding refrigerant pressure is still higher, and the compressor is further controlled to continue to operate at the preset frequency; if the monitored exhaust temperature is less than the preset shutdown temperature threshold, the corresponding refrigerant pressure is indicated to reach a safety range, and therefore the compressor can be controlled to stop running.

In the inverter air conditioning system, the refrigerant pressure is the pressure difference between the condensing pressure and the evaporating pressure, and the exhaust temperature rises along with the rise of the condensing pressure, so that the condensing pressure can be indirectly judged through the exhaust temperature, and the pressure difference is further judged, namely, the compressor can be controlled to stop according to the exhaust temperature, and the vibration and the stress at the moment of stopping are reduced.

According to the shutdown control method of the variable frequency air conditioner, when the variable frequency air conditioner receives a shutdown signal, the operation frequency of the compressor is reduced until the operation frequency reaches a preset frequency, then the exhaust temperature of the compressor is obtained, and when the exhaust temperature is smaller than a preset shutdown temperature threshold value, the compressor is controlled to stop operating. In this way, by reducing the operating frequency of the compressor to a preset frequency and controlling the compressor to stop when the exhaust temperature is less than a preset stop temperature threshold value, the vibration and the stress of the piping of the compressor of the inverter air conditioner can be reduced, the service life of the piping can be prolonged, and the system stability of the inverter air conditioner can be improved.

In the second embodiment, based on the first embodiment shown in fig. 2, the step S1 further includes:

and when the variable frequency air conditioner receives a stop signal, controlling the compressor to reduce the frequency at a constant speed until the lowest running frequency is reached.

In this embodiment, when the inverter air conditioner receives the shutdown signal, the compressor may be controlled to perform frequency reduction at a constant rate until a predetermined frequency, such as a minimum operating frequency, is reached. Specifically, the inverter air conditioner may control the compressor to perform frequency reduction at a constant rate, such as 1Hz/s (assuming that a rated operation frequency of the compressor is 90Hz, and an actual shutdown process is 30s to 90s), assuming that the compressor initially operates at the operation frequency of 90Hz, the compressor operates at the operation frequency of 80Hz after 10s, operates at the operation frequency of 70Hz after 20s, and so on until the lowest operation frequency is reached.

It should be understood that the specific values of the constant rate recited in the present embodiment are not limitative, but can be set appropriately according to the actual situation.

In the third embodiment, referring to fig. 3, on the basis of the first embodiment shown in fig. 2, the step S1 further includes:

step S11, when the variable frequency air conditioner receives a stop signal, acquiring the current operating frequency of the compressor;

step S12, judging the frequency interval of the current operation frequency;

in this embodiment, when the inverter air conditioner receives a shutdown signal, the current operating frequency of the compressor is obtained, and a frequency interval in which the current operating frequency is located is determined, where the specifically set frequency interval may be two, three, or more, and two are taken as an example for description below.

Step S13, when the frequency interval where the current operation frequency is located is a first frequency band, controlling the compressor to operate at a corresponding first speed reduction frequency;

in this embodiment, it is assumed that the frequency interval includes a first frequency band and a second frequency band, wherein the frequency range values of the first frequency band are both greater than the frequency range value of the second frequency band. If the frequency interval in which the current operating frequency of the compressor is located is judged to be the first frequency band, the operating frequency of the compressor is high at the moment, and therefore a first speed reduction frequency which is relatively large can be selected to carry out fast frequency reduction until the current operating frequency is located in the second frequency band.

And step S14, when the frequency interval where the current operating frequency is located is a second frequency band, controlling the compressor to operate at a corresponding second speed reduction frequency until the lowest operating frequency is reached.

In this embodiment, when the frequency interval in which the current operating frequency of the compressor is located is the second frequency band, it indicates that the operating frequency of the compressor at this time is relatively low, and therefore, a relatively small second speed reduction frequency may be selected to slowly reduce the frequency until the lowest operating frequency is reached. That is, the second speed reduction frequency is smaller than the first speed reduction frequency, so that the stability of the compressor during high-frequency operation is better, and therefore, the speed reduction frequency can be improved to shorten the shutdown time; the stability of the compressor is relatively poor when the compressor operates at low frequency, and particularly for a single-rotor variable frequency compressor, the stability is lower, so that a relatively smaller speed reduction frequency needs to be selected to improve the stability.

In other embodiments, the frequency interval need not be divided, but the corresponding speed reduction frequency is determined directly from the current operating frequency of the compressor. Specifically, the relationship between the speed reduction frequency of the compressor and the current operation frequency may be set to be a positive correlation, that is, the higher the current operation frequency is, the higher the corresponding speed reduction frequency is, and the corresponding relationship may be obtained by calculation or by looking up a table, which is not limited specifically.

In a specific example, as shown in fig. 4, when the inverter air conditioner receives a shutdown signal during normal operation, the operation frequency of the compressor may be reduced by performing a frequency-division variable-down frequency (two-division variable-down frequency: a first down-speed frequency and a second down-speed frequency) until the discharge temperature of the compressor is less than the predetermined shutdown temperature threshold, and a compressor stop signal is triggered to stop the operation of the compressor.

In the fourth embodiment, referring to fig. 5, on the basis of the second embodiment, the step S1 is further followed by:

step S5, acquiring the running time of the compressor running at the lowest running frequency;

and step S6, controlling the compressor to stop running when the running time reaches a preset running time threshold.

In this embodiment, when the operating frequency of the compressor is reduced to the minimum operating frequency, the operating time of the compressor operating at the minimum operating frequency is acquired in real time or at regular time. If the operation time of the compressor operating at the lowest operation frequency reaches a preset operation time threshold value, such as 60s, it indicates that the corresponding refrigerant pressure at this time has reached the safe range, and therefore the compressor can be controlled to stop operating.

It should be understood that the scheme for controlling the shutdown operation of the compressor by the discharge temperature being less than the predetermined shutdown temperature threshold and the scheme for controlling the shutdown operation of the compressor by the operation time of the compressor operating at the lowest operation frequency reaching the preset operation time threshold may be separately executed, that is, the compressor is controlled to stop operating as long as either scheme satisfies the condition; the two schemes can also be executed in a combined manner, namely, the exhaust temperature and the time for the compressor to operate at the lowest operation frequency are considered, for example, when the exhaust temperature of the compressor is greater than or equal to the preset shutdown temperature threshold value, if the operation time for the compressor to operate at the lowest operation frequency reaches the preset operation time threshold value, the compressor is controlled to stop operating at the moment; of course, the other way around, when the running time of the compressor running at the lowest running frequency does not reach the preset running time threshold value, if the discharge temperature of the compressor is less than the preset shutdown temperature threshold value, the compressor is controlled to be shut down.

In a specific example, as shown in fig. 6, when the inverter air conditioner receives a shutdown signal during normal operation, the operation frequency of the compressor may be reduced by performing a frequency-division variable-reduction frequency to reduce the operation frequency of the compressor (two-division variable-reduction frequency: a first reduction frequency and a second reduction frequency), and a compressor shutdown signal is triggered until the operation time of the compressor operating at the lowest operation frequency reaches a preset operation time threshold (at which the discharge temperature of the compressor is greater than or equal to the preset shutdown temperature threshold), so as to stop the operation of the compressor.

In the fifth embodiment, referring to fig. 7, on the basis of the first embodiment, the step S1 is further followed by:

step S7, when the variable frequency air conditioner receives a stop signal, acquiring the frequency reduction time of the compressor for frequency reduction operation;

in this embodiment, when the inverter air conditioner receives the shutdown signal, the down-conversion time during which the compressor is performing the down-conversion operation is obtained in real time or at regular time, where the down-conversion time includes an operation time during which the operation frequency of the compressor is reduced to a predetermined frequency, for example, a minimum operation frequency, and an operation time during which the compressor is operating at the minimum operation frequency.

And step S8, controlling the compressor to stop running when the frequency reduction time reaches a preset frequency reduction time threshold.

In this embodiment, the preset down-conversion time threshold may be set to 90s, and of course, in other embodiments, other reasonable values may be set. When the frequency reduction time of the compressor reaches a preset frequency reduction time threshold, the frequency reduction process is completed and the compressor is in a relatively stable state, so that the compressor can be controlled to stop running.

In a specific example, as shown in fig. 8, when the inverter air conditioner receives a shutdown signal during normal operation, the frequency-dividing-section speed-reducing frequency may be performed to reduce the operating frequency of the compressor (the two-section speed-reducing frequency: a first speed-reducing frequency and a second speed-reducing frequency) until the compressor operates at the lowest operating frequency, during which, the frequency-reducing time of the compressor is obtained in real time or at regular time, and if the frequency-reducing time reaches a preset frequency-reducing time threshold, a compressor stop signal is triggered to stop the operation of the compressor.

In addition, the embodiment of the invention also provides an inverter air conditioner and a computer readable storage medium, wherein the inverter air conditioner comprises a stop control program, and the stop control program is configured to implement the steps of the stop control method of the inverter air conditioner.

The computer readable storage medium stores a shutdown control program of the inverter air conditioner, and the shutdown control program of the inverter air conditioner realizes the following operations when being executed by a processor:

when the variable frequency air conditioner receives a shutdown signal, reducing the running frequency of the compressor until the running frequency reaches a preset frequency;

acquiring the exhaust temperature of the compressor;

and when the exhaust temperature is less than a preset shutdown temperature threshold value, controlling the compressor to stop running.

Further, when executed by the processor, the shutdown control program of the inverter air conditioner further implements the following operations:

and when the variable frequency air conditioner receives a stop signal, controlling the compressor to reduce the frequency at a constant speed until the lowest running frequency is reached.

Further, when executed by the processor, the shutdown control program of the inverter air conditioner further implements the following operations:

the method comprises the steps that when the variable frequency air conditioner receives a stop signal, the current running frequency of a compressor is obtained;

judging a frequency interval where the current running frequency is located;

when the frequency interval where the current operating frequency is located is a first frequency band, controlling the compressor to operate at a corresponding first speed reduction frequency;

and when the frequency interval in which the current operating frequency is located is a second frequency band, controlling the compressor to operate at a corresponding second speed reduction frequency until the lowest operating frequency is reached.

Further, when executed by the processor, the shutdown control program of the inverter air conditioner further implements the following operations:

the first frequency range is larger than the second frequency range, and the second speed reduction frequency is smaller than the first speed reduction frequency.

Further, when executed by the processor, the shutdown control program of the inverter air conditioner further implements the following operations:

acquiring the running time of the compressor running at the lowest running frequency;

and controlling the compressor to stop running when the running time reaches a preset running time threshold value.

Further, when executed by the processor, the shutdown control program of the inverter air conditioner further implements the following operations:

when the variable frequency air conditioner receives a stop signal, acquiring the frequency reduction time of the compressor for performing frequency reduction operation;

and when the frequency reduction time reaches a preset frequency reduction time threshold value, controlling the compressor to stop running.

The specific embodiment of the shutdown control program of the inverter air conditioner executed by the processor is described above, and is not described herein again.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (4)

1. The shutdown control method of the variable frequency air conditioner is characterized by comprising the following steps of:

the method comprises the steps that when the variable frequency air conditioner receives a stop signal, the current running frequency of a compressor is obtained;

judging a frequency interval in which the current operating frequency is located, controlling the compressor to operate at a corresponding first speed reduction frequency when the frequency interval in which the current operating frequency is located is a first frequency band, and controlling the compressor to operate at a corresponding second speed reduction frequency when the frequency interval in which the current operating frequency is located is a second frequency band until the lowest operating frequency is reached;

acquiring the exhaust temperature of the compressor, and acquiring the frequency reduction time of the compressor for frequency reduction operation, wherein the frequency reduction time comprises the operation time of reducing the operation frequency of the compressor to the lowest operation frequency and the operation time of operating the compressor at the lowest operation frequency;

and when the exhaust temperature is smaller than a preset shutdown temperature threshold value and the frequency reduction time reaches a preset frequency reduction time threshold value, judging that the pressure of a refrigerant corresponding to the compressor reaches a safety range, and controlling the compressor to stop running.

2. The shutdown control method of the inverter air conditioner as claimed in claim 1, wherein the first frequency band range is greater than the second frequency band range, and the second reduced speed frequency is less than the first reduced speed frequency.

3. The variable frequency air conditioner is characterized by comprising:

a stop control program configured to implement the steps of the stop control method of the inverter air conditioner according to claim 1 or 2.

4. A computer-readable storage medium, wherein the computer-readable storage medium stores thereon a shutdown control program of an inverter air conditioner, the shutdown control program of the inverter air conditioner being executed by a processor to implement the steps of the shutdown control method of the inverter air conditioner according to claim 1 or 2.

Images