CN102538132A - Air conditioner intelligent control method with auxiliary electric heating function - Google Patents

Abstract

The invention provides an air conditioner intelligent control method with an auxiliary electric heating function, which is used for improving the comfort of an air conditioner and fulfilling the aim of saving energy. The air conditioner intelligent control method with the auxiliary electric heating function is implemented by the following technical scheme that: the air conditioner comprises an auxiliary electric heater and the auxiliary electric heater comprises more than two electric heating units capable of being separately controlled, wherein a control system of the air conditioner is used for carrying out intelligent hierarchical control on the auxiliary electric heater according to an indoor environment temperature value T inner pipe, an indoor evaporator temperature value T inner pipe and a set temperature value T setting so as to command each auxiliary electric heating unit to be in an on or off working mode.

Description

Have auxiliary electrically heated air-conditioner intelligence control method

Technical field

The invention belongs to the air-conditioner field of intelligent control technology, be specifically related to have auxiliary electrically heated air-conditioner intelligence control method.

Background technology

The air conditioner of prior art is divided into common air conditioner and band auxiliary electrical heats cold warm air conditioner, and band auxiliary electrical heats cold warm air conditioner be divided into adopt the resistance wire heating with the cold/hot air-conditioning that adopts the ptc material heating.Adopting the air-conditioning of resistance wire heating is in air conditioner, to load onto a resistance wire heating power, in fact just is equivalent to extension electric furnace on the wall; The air conditioner that adopts the ptc material heating then is that the pottery with special quality has substituted resistance wire fully, has got rid of this potential safety hazard fully.In addition, the PTC heat generating component is loaded onto temperature controller and fuse, plays double protection functions.

Electrical auxiliary heater has that rapid heat dissipation, heating capacity are strong, the characteristics of stable performance, little power consumption have solved the little difficult problem of puzzlement air conditioning system maker's heating capacity for many years effectively.

The auxiliary electrically heated air conditioner of band has ultralow temperature starting capability and rapid heat cycle function; Even 18 degrees below zero also can start as usual, heat rapidly, utilize the cold air behind PTC and the heater heating and dehumidification, obtain 3 times of dehumidifier effects; And dehumidifying is not lowered the temperature; Dehumidifying continuously, compressor is start-stop frequently, energy saving.Exempted extremely frigid zones air-conditioning user's trouble and worry.

Usually the heating of the auxiliary electrical of air-conditioner is designed to an integral body, and control model has only simple integral body to open or stop mode, and there is following defective in traditional design:

1., auxiliary electrical heating integral body opens, the stopping time is bigger to the influence of air-conditioning heating effect, occurs sometimes hot and sometimes cold situation easily, comfortableness is relatively poor;

2., auxiliary electrical heating integral body opens, stops, and do not combine the operation of air conditioner operating mode to carry out hierarchical processing, is unfavorable for energy-conservation.

Summary of the invention

The object of the present invention is to provide a kind of auxiliary electrically heated air-conditioner intelligence control method that has, improve air-conditioner comfortableness, reach purpose of energy saving.

The present invention realizes through following technical scheme:

Have auxiliary electrically heated air-conditioner intelligence control method, said air-conditioner includes electrical auxiliary heater, and electrical auxiliary heater includes the electric heating unit that can control separately more than two; Wherein, the control system of said air-conditioner is according to the indoor environment temperature value T _{Interior ring} , indoor evaporator temperature value T _{Interior pipe}And set temperature value T _Set , heating is carried out intelligent grading control, the mode of operation of instructing each auxiliary electrical heating unit to be in out or to stop to auxiliary electrical.

To sum up, the invention has the beneficial effects as follows:

Assist electrically heated air-conditioner intelligence control method of the present invention having, because electrical auxiliary heater includes the electric heating unit that can control separately more than two, the control system of said air-conditioner is according to the indoor environment temperature value T _{Interior ring} , indoor evaporator temperature value T _{Interior pipe}And set temperature value T _Set , heating is carried out intelligent grading control, the mode of operation of instructing each auxiliary electrical heating unit to be in out or to stop to auxiliary electrical.Therefore under the different temperature environment, according to actual conditions, all or part of electric heating unit energising moves; Electrical auxiliary heater can increase or reduce caloric value step by step, sometimes hot and sometimes cold situation when having avoided prior art to use electrical auxiliary heater, and comfortableness is high; Has energy-conservation effect simultaneously.

Description of drawings

Fig. 1 is the T that the present invention has auxiliary electrically heated air-conditioner intelligence control method _{Interior pipe}Control model sketch map when temperature raises;

Fig. 2 is the T that the present invention has auxiliary electrically heated air-conditioner intelligence control method _{Interior pipe}Control model sketch map when temperature descends.

The specific embodiment

The invention discloses to have and assist electrically heated air-conditioner intelligence control method, said air-conditioner includes electrical auxiliary heater, and electrical auxiliary heater includes the electric heating unit that can control separately more than two; Wherein, the control system of said air-conditioner is according to the indoor environment temperature value T _{Interior ring} , indoor evaporator temperature value T _{Interior pipe}And set temperature value T _Set , heating is carried out intelligent grading control, the mode of operation of instructing each auxiliary electrical heating unit to be in out or to stop to auxiliary electrical.

Assist electrically heated air-conditioner intelligence control method said having, and concrete determining step is following:

Step 1: T judges in the control system of air-conditioner _{Interior pipe}Whether temperature value is less than T _{Interior pipe min}, in this way, all auxiliary electrical heating units of the control system command of air-conditioner are opened heating; T wherein _{Interior pipe min}For the indoor evaporator temperature is set minimum of a value;

Step 2: judge T _{Interior pipe}Whether temperature value satisfies T _{Interior pipe min}≤T _{Interior pipe} ﹤T _{Interior pipe 1}, in this way, all auxiliary electrical heating units of the control system command of air-conditioner are opened heating; T wherein _{Interior pipe min} ﹤T _{Interior pipe 1}

Step 3: judge T _{Interior pipe}Whether temperature value satisfies T _{Interior pipe 1}≤T _{Interior pipe}≤T _{Interior pipe max}, in this way, the control system command part auxiliary electrical heating unit of air-conditioner is opened heating; T wherein _{Interior pipe 1} ﹤T _{Interior pipe max}, T _{Interior pipe max}For the indoor evaporator temperature is set maximum;

Step 4: judge T _{Interior pipe}Whether temperature value is greater than T _{Interior pipe max}, in this way, all auxiliary electrical heating units of the control system command of air-conditioner stop heating;

Step 5: the auxiliary electrical heating unit quit work after a period of time, judged T _{Interior pipe}Whether temperature value satisfies T _{Interior pipe 1}≤T _{Interior pipe}≤T _{Interior pipe max}, in this way, all auxiliary electrical heating units of the control system command of air-conditioner stop heating;

Step 6: judge whether T _{Interior pipe min}≤T _{Interior pipe} ﹤T _{Interior pipe 1}, in this way, the control system command part auxiliary electrical heating unit of air-conditioner is opened heating;

Step 7: judge T _{Interior pipe}Whether temperature value is less than T _{Interior pipe min}, in this way, all auxiliary electrical heating units of the control system command of air-conditioner are opened heating.

Before step 1, also comprise the steps:

Step S1: the control system of air-conditioner judges whether T _{Interior ring}>=T1 or T _{Interior ring}>=(T _Set-1 ℃), in this way, electric heating unit is all out of service; As not, to step S2; Wherein T1 is first definite temperature value;

Step S2: judge whether T _{Interior ring}﹤ T2 and T _{Interior ring}﹤ (T _Set-3 ℃); In this way, to step 1; As not, electric heating unit keeps original state; Wherein T2 is second definite temperature value.

Embodiment:

Being divided into 2 grades with the auxiliary electrical heating is that example is carried out intelligent hierarchical control method explanation, like Fig. 1, shown in 2:

Electrical auxiliary heater includes two the auxiliary electrical heating units that can control separately.

T _{Interior pipe max}It is 52 ℃.

T _{Interior pipe min}It is 45 ℃.

T _{Interior pipe 1}It is 48 ℃.

T1 is 26 ℃.

T2 is 23 ℃.

Concrete control method is:

. judge T _{Interior ring}Whether>=26 ℃ or T _{Interior ring}Whether>=(T _Set-1 ℃) time, in this way, then the auxiliary electrical heating all stops; As not, arrive step 2.;

2.. judge whether T _{Interior ring}23 ℃ of ﹤ and T _{Interior ring}﹤ (T _Set-3 ℃); In this way, 3. to step; As not, electric heating unit keeps original state; Wherein T2 is second definite temperature value;

. work as T _{Interior pipe}≤45 ℃, 2 auxiliary electrical heating units of the control system command of air-conditioner are all opened;

4.. work as T _{Interior pipe}>=52 ℃, 2 auxiliary electrical heating units of the control system command of air-conditioner all stop;

5.. T _{Interior pipe}When temperature was warmed up between 45～48 ℃, 2 auxiliary electrical heating units of the control system command of air-conditioner were all opened;

6.. T _{Interior pipe}When temperature was warmed up between 48～52 ℃, 1 of the control system command auxiliary electrical heating unit of air-conditioner was opened, and 1 stops;

. T _{Interior pipe}In the time of between greenhouse cooling to 48～52 ℃, 2 auxiliary electrical heating units of the control system command of air-conditioner all stop;

. T _{Interior pipe}In the time of between greenhouse cooling to 45～48 ℃, 1 of the control system command auxiliary electrical heating unit of air-conditioner is opened, and 1 stops;

.T _{Interior pipe}In the time of below the greenhouse cooling to 45 ℃, the control system command auxiliary electrical heating unit of air-conditioner is all opened.

Explain: T _{Interior pipe}Refer to the indoor evaporator temperature, temperature spot can be regulated according to different air-conditioning systems for 42 ℃, 48 ℃, 52 ℃, to reach optimum comfortableness and energy saving.

 

Above-mentioned listed concrete implementation is nonrestrictive, to one skilled in the art, is not departing from the scope of the invention, and various improvement and the variation carried out all belong to protection scope of the present invention.

Claims (10)

1. have auxiliary electrically heated air-conditioner intelligence control method, said air-conditioner includes electrical auxiliary heater, and electrical auxiliary heater includes the auxiliary electrical heating unit that can control separately more than two; It is characterized in that: the control system of said air-conditioner is according to the indoor environment temperature value T _{Interior ring} , indoor evaporator temperature value T _{Interior pipe}And set temperature value T _Set , heating is carried out intelligent grading control, the mode of operation of instructing each auxiliary electrical heating unit to be in out or to stop to auxiliary electrical.

2. assist electrically heated air-conditioner intelligence control method according to claim 1 having, and it is characterized in that: concrete determining step is following:

Step 1: T judges in the control system of air-conditioner _{Interior pipe}Whether temperature value is less than T _{Interior pipe min}, in this way, all auxiliary electrical heating units of the control system command of air-conditioner are opened heating; T wherein _{Interior pipe min}For the indoor evaporator temperature is set minimum of a value;

Step 2: judge T _{Interior pipe}Whether temperature value satisfies T _{Interior pipe min}≤T _{Interior pipe} ﹤T _{Interior pipe 1}, in this way, all auxiliary electrical heating units of the control system command of air-conditioner are opened heating; T wherein _{Interior pipe min} ﹤T _{Interior pipe 1}

Step 3: judge T _{Interior pipe}Whether temperature value satisfies T _{Interior pipe 1}≤T _{Interior pipe}≤T _{Interior pipe max}, in this way, the control system command part auxiliary electrical heating unit of air-conditioner is opened heating; T wherein _{Interior pipe 1} ﹤T _{Interior pipe max}, T _{Interior pipe max}For the indoor evaporator temperature is set maximum;

Step 4: judge T _{Interior pipe}Whether temperature value is greater than T _{Interior pipe max}, in this way, all auxiliary electrical heating units of the control system command of air-conditioner stop heating;

Step 5: the auxiliary electrical heating unit quit work after a period of time, judged T _{Interior pipe}Whether temperature value satisfies T _{Interior pipe 1}≤T _{Interior pipe}≤T _{Interior pipe max}, in this way, all auxiliary electrical heating units of the control system command of air-conditioner stop heating;

Step 6: judge whether T _{Interior pipe min}≤T _{Interior pipe} ﹤T _{Interior pipe 1}, in this way, the control system command part auxiliary electrical heating unit of air-conditioner is opened heating;

Step 7: judge T _{Interior pipe}Whether temperature value is less than T _{Interior pipe min}, in this way, all auxiliary electrical heating units of the control system command of air-conditioner are opened heating.

3. the said auxiliary electrically heated air-conditioner intelligence control method that has according to claim 2 is characterized in that: before step 1, also comprise the steps:

Step S1: the control system of air-conditioner judges whether T _{Interior ring}>=T1 or T _{Interior ring}>=(T _Set-1 ℃), in this way, electric heating unit is all out of service; As not, to step S2; Wherein T1 is first definite temperature value;

Step S2: judge whether T _{Interior ring}﹤ T2 and T _{Interior ring}﹤ (T _Set-3 ℃); In this way, to step 1; As not, electric heating unit keeps original state; Wherein T2 is second definite temperature value.

4. the said auxiliary electrically heated air-conditioner intelligence control method that has according to claim 2, it is characterized in that: electrical auxiliary heater includes two the auxiliary electrical heating units that can control separately.

5. the said auxiliary electrically heated air-conditioner intelligence control method that has according to claim 3 is characterized in that: T _{Interior pipe max}It is 52 ℃.

6. the said auxiliary electrically heated air-conditioner intelligence control method that has according to claim 3 is characterized in that: T _{Interior pipe min}It is 45 ℃.

7. the said auxiliary electrically heated air-conditioner intelligence control method that has according to claim 3 is characterized in that: T _{Interior pipe 1}It is 48 ℃.

8. the said auxiliary electrically heated air-conditioner intelligence control method that has according to claim 3, it is characterized in that: T1 is 26 ℃.

9. the said auxiliary electrically heated air-conditioner intelligence control method that has according to claim 3, it is characterized in that: T2 is 23 ℃.

10. the said auxiliary electrically heated air-conditioner intelligence control method that has according to claim 3 is characterized in that:

Concrete control method is:

1. judge T _{Interior ring}Whether>=26 ℃ or T _{Interior ring}Whether>=(T _Set-1 ℃) time, in this way, then the auxiliary electrical heating all stops; As not, arrive step 2.;

2. judge whether T _{Interior ring}23 ℃ of ﹤ and T _{Interior ring}﹤ (T _Set-3 ℃); In this way, 3. to step; As not, electric heating unit keeps original state; Wherein T2 is second definite temperature value;

3. work as T _{Interior pipe}≤45 ℃, 2 auxiliary electrical heating units of the control system command of air-conditioner are all opened;

4. work as T _{Interior pipe}>=52 ℃, 2 auxiliary electrical heating units of the control system command of air-conditioner all stop;

5. T _{Interior pipe}When temperature was warmed up between 45～48 ℃, 2 auxiliary electrical heating units of the control system command of air-conditioner were all opened;

6. T _{Interior pipe}When temperature was warmed up between 48～52 ℃, 1 of the control system command auxiliary electrical heating unit of air-conditioner was opened, and 1 stops;

7. T _{Interior pipe}In the time of between greenhouse cooling to 48～52 ℃, 2 auxiliary electrical heating units of the control system command of air-conditioner all stop;

8. T _{Interior pipe}In the time of between greenhouse cooling to 45～48 ℃, 1 of the control system command auxiliary electrical heating unit of air-conditioner is opened, and 1 stops;

9. T _{Interior pipe}In the time of below the greenhouse cooling to 45 ℃, the control system command auxiliary electrical heating unit of air-conditioner is all opened.

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