CN110929408A - Compressor frequency calculation of variable frequency air conditioner - Google Patents

Abstract

The invention discloses a compressor frequency calculation method of a variable frequency air conditioner, which comprises the following steps: s1, parameter definition; and S2, calculating the running target frequency, and determining an initial frequency target according to the temperature. According to the invention, by controlling the operating frequency of the variable frequency compressor, the fluctuation of the indoor environment temperature caused by large-amplitude frequency adjustment can be effectively prevented, the real-time adjustment of the operating frequency of the compressor can be effectively carried out in real time, and the comfort of the variable frequency air conditioner is improved; the more linear adjustment of the running frequency of the compressor can also achieve the set temperature required by a user more quickly, and the energy-saving effect is achieved.

Description

Compressor frequency calculation of variable frequency air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a compressor frequency calculation method of a variable frequency air conditioner.

Background

The popularization of the air conditioner is the result of pursuit of the quality of life of people, the common household variable frequency air conditioner is also the main household electric energy consumption object at present, and the invention provides a frequency calculation mode of the variable frequency air conditioner compressor directly powered by solar energy aiming at the use state of the household air conditioner with a large amount of electric energy consumption.

The invention provides a linear compressor frequency control and calculation mode, which can quickly adjust the target frequency of the compressor operation in real time according to the temperature change in the current use environment, so that the use is more energy-saving and more suitable.

Disclosure of Invention

According to the invention, by controlling the operating frequency of the variable frequency compressor, the fluctuation of the indoor environment temperature caused by large-amplitude frequency adjustment can be effectively prevented, the real-time adjustment of the operating frequency of the compressor can be effectively carried out in real time, and the comfort of the variable frequency air conditioner is improved; the more linear adjustment of the running frequency of the compressor can also achieve the set temperature required by a user more quickly, achieve the energy-saving effect and solve the problems in the background art.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a compressor frequency of inverter air conditioner calculates, when controlling compressor running frequency, only prescribe a limit to its operating range, in the operating frequency scope of injecing, the compressor can the target frequency carry out the calculation of current operation target frequency according to the change of indoor side temperature, confirm initial compressor start-up frequency according to indoor side target frequency, confirm compressor final operation target frequency according to indoor side ambient temperature again, the indoor side temperature change of higher accuracy, compressor running frequency is more meticulous control, there is the fluctuation of effectual reduction compressor running frequency and indoor difference in temperature, use and improve the suitability of using, more energy consumption saves, specifically include the following steps:

s1, parameter definition:

fob1, calculating the target frequency 1 (calculated temperature difference);

FTobj is the temperature compensation frequency (temperature variation compensation frequency value);

frun is the compressor operating frequency; frun Fob1+ FTobj;

tr: indoor ambient temperature, TS: setting the temperature;

the delta Td is a mode temperature difference, and the delta Td is equal to Tr-TS in a refrigerating mode and equal to TS-Tr in a heating mode;

freq _ H: maximum operating frequency Freq _ L: running the lowest frequency;

t1: time of temperature change;

tm: a time base;

Δ F: compensating the frequency;

n is a compression frequency interval constant which generally takes a value of 4;

s2, calculating the running target frequency, and determining an initial frequency target according to the temperature:

a) when the current temperature difference is equal to or greater than Th (generally 4 ℃), the operating target frequency is compressed: freq _ H;

b) when the current temperature difference is between TL (generally value 0 ℃) and Th (generally value 4 ℃), Fob1 runs according to the difference calculation value of the temperature, and the calculation formula is as follows:

Fobj＝(ΔTd*(Freq_H-Freq_L)/n)+Freq_L

c) when the current temperature difference is less than TL (generally 0 ℃) but more than TL-1 ℃, compressing the operation target frequency: freq _ L;

d) when the current temperature difference is less than TL-1 ℃, the current FTobj is 0.

Preferably, in S2, the compressor currently calculates a target rotation speed operation Tm (generally, 2 to 5 minutes), and adjusts and compensates the operation frequency according to the current room ambient temperature change direction, where the compensation time is generally an accumulated time Tsum, and is an integral multiple of Tm for accumulated compensation, specifically, as follows:

a) when the current temperature difference is equal to or greater than Th (generally 4 ℃), the operating target frequency is compressed: freq _ H;

b) when the current temperature difference is between TL (generally taking 0 ℃) +1 ℃ -Th (generally taking 4 ℃), temperature compensation calculation is carried out according to the temperature change of the room at the indoor side, and the current running frequency is updated once in each Tm time, which is specifically as follows:

fobj ═ Frun + (Tsum/Tm), the maximum operating frequency cannot exceed Freq _ H during frequency compensation;

c) when the current temperature difference is between TL (generally value 0 ℃) DEG C-TL (generally value 0 ℃) +1 ℃, the current operating frequency is kept:

d) when the current temperature difference is between TL (generally value 0 ℃) DEG C and TL (generally value 0 ℃) minus 1 ℃, the compensation of the running frequency of the compressor is cancelled step by step, and the specific formula is as follows:

fobj ═ Frun- (Tsum/Tm), the minimum operating frequency cannot be lowered by Freq _ L during cancellation of frequency compensation;

e) when the current temperature difference is less than TL (generally, the value is 0 ℃) to 1 ℃, the compressor stops running.

Compared with the prior art, the frequency calculation method of the compressor of the variable frequency air conditioner provided by the invention has the following steps:

the invention only limits the operation range of the compressor when controlling the operation frequency of the compressor, in the limited operation frequency range, the compressor can calculate the current operation target frequency according to the change of the indoor side temperature, the initial compressor starting frequency is determined according to the indoor side target frequency, the final operation target frequency of the compressor is determined according to the indoor side environment temperature, the indoor side temperature change with higher precision is realized, the operation frequency of the compressor is more finely controlled, the fluctuation of the operation frequency of the compressor and the indoor temperature difference is effectively reduced, the use suitability is improved, and the energy consumption is more saved.

Drawings

FIG. 1 is a graph of a target frequency calculation according to the present invention.

Detailed Description

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

Example 1

The utility model provides a compressor frequency of inverter air conditioner calculates, when controlling compressor running frequency, only prescribe a limit to its operating range, in the operating frequency scope of injecing, the compressor can the target frequency carry out the calculation of current operation target frequency according to the change of indoor side temperature, confirm initial compressor start-up frequency according to indoor side target frequency, confirm compressor final operation target frequency according to indoor side ambient temperature again, the indoor side temperature change of higher accuracy, compressor running frequency is more meticulous control, there is the fluctuation of effectual reduction compressor running frequency and indoor difference in temperature, use and improve the suitability of using, more energy consumption saves, specifically include the following steps:

s1, parameter definition:

fob1, calculating the target frequency 1 (calculated temperature difference);

FTobj is the temperature compensation frequency (temperature variation compensation frequency value);

frun is the compressor operating frequency; frun Fob1+ FTobj;

tr: indoor ambient temperature, TS: setting the temperature;

the delta Td is a mode temperature difference, and the delta Td is equal to Tr-TS in a refrigerating mode and equal to TS-Tr in a heating mode;

freq _ H: maximum operating frequency Freq _ L: running the lowest frequency;

t1: time of temperature change;

tm: a time base;

Δ F: compensating the frequency;

n is a compression frequency interval constant which generally takes a value of 4;

s2, calculating the operation target frequency, and determining the initial frequency target according to the temperature, as shown in fig. 1:

a) when the current temperature difference is equal to or greater than Th (generally 4 ℃), the operating target frequency is compressed: freq _ H;

b) when the current temperature difference is between TL (generally value 0 ℃) and Th (generally value 4 ℃), Fob1 runs according to the difference calculation value of the temperature, and the calculation formula is as follows:

Fobj＝(ΔTd*(Freq_H-Freq_L)/n)+Freq_L

c) when the current temperature difference is less than TL (generally 0 ℃) but more than TL-1 ℃, compressing the operation target frequency: freq _ L;

d) when the current temperature difference is less than TL-1 ℃, the current FTobj is 0.

In S2, the compressor calculates a target rotation speed operation Tm (generally, 2 to 5 minutes), adjusts and compensates the operation frequency according to the current room ambient temperature change direction, where the compensation time is generally an accumulation time Tsum, and takes an integral multiple of Tm for accumulation compensation, specifically as follows:

a) when the current temperature difference is equal to or greater than Th (generally 4 ℃), the operating target frequency is compressed: freq _ H;

b) when the current temperature difference is between TL (generally taking 0 ℃) +1 ℃ -Th (generally taking 4 ℃), temperature compensation calculation is carried out according to the temperature change of the room at the indoor side, and the current running frequency is updated once in each Tm time, which is specifically as follows:

fobj ═ Frun + (Tsum/Tm), the maximum operating frequency cannot exceed Freq _ H during frequency compensation;

c) when the current temperature difference is between TL (generally value 0 ℃) DEG C-TL (generally value 0 ℃) +1 ℃, the current operating frequency is kept:

d) when the current temperature difference is between TL (generally value 0 ℃) DEG C and TL (generally value 0 ℃) minus 1 ℃, the compensation of the running frequency of the compressor is cancelled step by step, and the specific formula is as follows:

fobj ═ Frun- (Tsum/Tm), the minimum operating frequency cannot be lowered by Freq _ L during cancellation of frequency compensation;

e) when the current temperature difference is less than TL (generally, the value is 0 ℃) to 1 ℃, the compressor stops running.

Therefore, the invention can effectively prevent the fluctuation of the indoor environment temperature caused by large amplitude frequency adjustment by controlling the running frequency of the variable frequency compressor, can effectively regulate the running frequency of the compressor in real time in more real time, and increases the comfort of the variable frequency air conditioner; the more linear adjustment of the running frequency of the compressor can also achieve the set temperature required by a user more quickly, and the energy-saving effect is achieved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (2)

1. The utility model provides a compressor frequency of inverter air conditioner calculates, characterized in that, when controlling the compressor running frequency, only prescribe a limit to its operating range, in the operating frequency scope of injecing, the compressor can the target frequency carry out the calculation of current operation target frequency according to the change of indoor side temperature, confirm initial compressor start frequency according to indoor side target frequency, confirm compressor final operation target frequency according to indoor side ambient temperature again, the indoor side temperature change of higher accuracy, compressor running frequency more meticulous control, there is the fluctuation of effectual reduction compressor running frequency and indoor difference in temperature, use and improve the suitability of using, more energy consumption saves, specifically include the following steps:

s1, parameter definition:

fob1, calculating the target frequency 1 (calculated temperature difference);

FTobj is the temperature compensation frequency (temperature variation compensation frequency value);

frun is the compressor operating frequency; frun Fob1+ FTobj;

tr: indoor ambient temperature, TS: setting the temperature;

the delta Td is a mode temperature difference, and the delta Td is equal to Tr-TS in a refrigerating mode and equal to TS-Tr in a heating mode;

freq _ H: maximum operating frequency Freq _ L: running the lowest frequency;

t1: time of temperature change;

tm: a time base;

Δ F: compensating the frequency;

n is a compression frequency interval constant which generally takes a value of 4;

s2, calculating the running target frequency, and determining an initial frequency target according to the temperature:

a) when the current temperature difference is equal to or greater than Th (generally 4 ℃), the operating target frequency is compressed: freq _ H;

b) when the current temperature difference is between TL (generally value 0 ℃) and Th (generally value 4 ℃), Fob1 runs according to the difference calculation value of the temperature, and the calculation formula is as follows:

Fobj＝(ΔTd*(Freq_H-Freq_L)/n)+Freq_L

c) when the current temperature difference is less than TL (generally 0 ℃) but more than TL-1 ℃, compressing the operation target frequency: freq _ L;

d) when the current temperature difference is less than TL-1 ℃, the current FTobj is 0.

2. The compressor frequency calculation of the inverter air conditioner according to claim 1, wherein: in S2, the compressor calculates a target rotation speed operation Tm (generally, 2 to 5 minutes), adjusts and compensates the operation frequency according to the current room ambient temperature change direction, where the compensation time is generally an accumulation time Tsum, and takes an integral multiple of Tm for accumulation compensation, specifically as follows:

a) when the current temperature difference is equal to or greater than Th (generally 4 ℃), the operating target frequency is compressed: freq _ H;

b) when the current temperature difference is between TL (generally taking 0 ℃) +1 ℃ -Th (generally taking 4 ℃), temperature compensation calculation is carried out according to the temperature change of the room at the indoor side, and the current running frequency is updated once in each Tm time, which is specifically as follows:

fobj ═ Frun + (Tsum/Tm), the maximum operating frequency cannot exceed Freq _ H during frequency compensation;

c) when the current temperature difference is between TL (generally value 0 ℃) DEG C-TL (generally value 0 ℃) +1 ℃, the current operating frequency is kept:

d) when the current temperature difference is between TL (generally value 0 ℃) DEG C and TL (generally value 0 ℃) minus 1 ℃, the compensation of the running frequency of the compressor is cancelled step by step, and the specific formula is as follows:

fobj ═ Frun- (Tsum/Tm), the minimum operating frequency cannot be lowered by Freq _ L during cancellation of frequency compensation;

e) when the current temperature difference is less than TL (generally, the value is 0 ℃) to 1 ℃, the compressor stops running.

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