CN1737439A - Air-conditioner and operation control method thereof - Google Patents

Abstract

An air-conditioner includes a small-capacity compressor and a large-capacity compressor for compressing a refrigerant to a high temperature high pressure gaseous refrigerant; a valve for connecting a suction opening of a refrigerant channel of the large-capacity compressor and a discharge passage of a refrigerant channel of the large-capacity compressor; and a controller for controlling the small-capacity compressor, the large-capacity compressor and the valve.

Description

Air-conditioning and progress control method thereof

Technical field

The present invention relates to a kind of air-conditioning, and be particularly related to a kind of method that is used to control the operation of this air-conditioning.

Background technology

Usually, air-conditioning comprises: compressor is used for the gaseous refrigerant of low-temp low-pressure is compressed into the gaseous refrigerant of HTHP; Condenser, be used for gaseous refrigerant with the HTHP after compressor is compressed be transformed in the liquid refrigerant of warm high pressure; Electric expansion valve is used for the liquid refrigerant of warm high pressure is transformed into the liquid refrigerant of low-temp low-pressure; Evaporimeter is used for the liquid refrigerant of low-temp low-pressure is transformed into gaseous refrigerant; And cross valve, be used for changing the passage of cold-producing medium according to refrigeration mode or heating mode.

In air-conditioning, the function of indoor heat converter and outdoor heat converter changes according to refrigeration mode or heating mode.When heating mode, indoor heat converter is as condenser, and outdoor heat converter is as evaporimeter; When refrigeration mode, indoor heat converter is as evaporimeter, and outdoor heat converter is as condenser.

Recently, the output capacity of air-conditioning can or heat load according to refrigeration load, change by using a plurality of compressors with different capabilities, thereby can optimize refrigeration and heating efficiency.

Fig. 1 shows the structure according to the air-conditioning of prior art.

As shown in Figure 1, traditional air-conditioning comprises: first compressor 11 and second compressor 12, and they have different capacity, are used for the gaseous refrigerant of low-temp low-pressure is compressed into the gaseous refrigerant of HTHP; Outdoor heat converter 14 is used to make the gaseous refrigerant and the outdoor air heat exchange of HTHP so that this gaseous refrigerant be condensed in the liquid refrigerant of warm high pressure; Outdoor fan 14A is used for towards the outdoor heat converter blow air; Electric expansion valve 15 is used for will be being transformed into the liquid refrigerant of low-temp low-pressure through the liquid refrigerant of the warm high pressure of outdoor heat converter 14; Indoor heat converter 16 is used to make the liquid refrigerant and the room air heat exchange of the low-temp low-pressure that has passed through electric expansion valve; Indoor fan 16A is used for towards indoor heat converter 16 blow air; And gatherer (accumulator) 17, be used for only extracting gaseous refrigerant, and this gaseous refrigerant is supplied to first compressor 11 and second compressor 12 from the cold-producing medium that passes through indoor heat converter 16.

This air-conditioning also comprises: check-valves 11A and 12A are used to prevent that the cold-producing medium from low capacity compressor 11 is discharged from flowing back into big capacity compressor 12, or prevent to flow back into low capacity compressor 11 from the cold-producing medium that big capacity compressor 12 is discharged; And cross valve 13, be used for setting the function of indoor heat converter and outdoor heat converter by the passage that switches the cold-producing medium by first compressor 11 and second compressor 12.

When cool room, cold-producing medium is discharged from two compressors, through check-valves, is condensed in outdoor heat converter then.Condensed refrigerant process electric expansion valve, and in indoor heat converter, be evaporated.Afterwards, the cold-producing medium of evaporation is back to compressor then through shared gatherer.Here, the operation of traditional air-conditioning comprises two stages.That is, in the phase I, only first compressor, 11 operations, in second stage, first and second compressors 11 and 12 all move.That is to say that traditional air-conditioning moves in two stages.

Here, after compressor is out of service, when compressor need rerun, must balance suck the pressure of oral-lateral and the pressure of passing away.Yet, in traditional air-conditioning, after compressor is out of service, because oil and cold-producing medium in the compressor, so the pressure at the pressure at passing away place and suction inlet place is balance soon, but reach equal lentamente, thus caused the problem of board-like pressure (platen pressure), and the pressure of the pressure of 30 minutes suction inlets of the longest needs and passing away could equate.

Therefore, in the method for traditional compressor and control compressor operating, behind the low capacity compressor operating, when big capacity compressor was activated, because the problem of the board-like pressure in the housing of big capacity compressor, this big capacity compressor can not be activated immediately.That is, after through after a while (the longest 30 minutes), when the pressure of the passing away of big capacity compressor equated with the pressure of suction inlet, big capacity compressor was activated.Therefore, the ability of handling the load of air-conditioning reduces.

Summary of the invention

Therefore, the object of the present invention is to provide a kind of air-conditioning that can improve the load disposal ability by the shortening time, make when the low capacity compressor is moving, before big capacity compressor is activated operation, the pressure of the passing away of big capacity compressor equates with the pressure of the suction inlet of this big capacity compressor.

Another object of the present invention is to provide a kind of method that is used to control operation of air conditioner, wherein low capacity compressor and big capacity compressor all move to carry out refrigerating operation over and over again, then, when indoor load increase, when only the low capacity compressor is moved cool room simultaneously, the pressure of the passing away of big capacity compressor is equated with the pressure of the suction inlet of low capacity compressor, start big capacity compressor then with the execution refrigerating operation, thereby carry out the refrigerating operation of air-conditioning with high energy-saving mode.

In order to realize these and other advantage, according to the object of the invention, as broadly describe at this and implement, the invention provides a kind of air-conditioning, comprise: low capacity compressor and big capacity compressor are used for cold-producing medium is compressed into the gaseous refrigerant of HTHP; Valve is used to connect the passing away of the refrigerant passage of the suction inlet of refrigerant passage of this big capacity compressor and this big capacity compressor; And controller, be used to control this low capacity compressor, this big capacity compressor and this valve.

To achieve these goals, the present invention also provides a kind of method of controlling the operation of air-conditioning, comprise: first step, wherein under the situation of refrigerating operation, low capacity compressor and big capacity compressor are activated, then, when the house temperature that changes by the low capacity compressor of this startup and big capacity compressor when deducting the value that predetermined first temperature obtains by the preferred temperature of setting from the user, this low capacity compressor and this big capacity compressor stop; Second step, wherein under the state that this low capacity compressor and this big capacity compressor stop, when this house temperature greater than by being scheduled to second temperature when adding the value of this preferred temperature acquisition, return first step; Third step wherein repeats this first step and this second step pre-determined number; The 4th step, wherein only this low capacity compressor is controlled satisfies following relation: (preferred temperature-predetermined first temperature)≤room temperature≤(preferred temperature-predetermined second temperature); The 5th step, wherein when this house temperature greater than by will be scheduled to value that the 3rd temperature adds that this preferred temperature obtains the time, valve continuous service a period of time stops then; And the 6th step, wherein this big capacity compressor is activated.

In conjunction with the accompanying drawings in describing in detail below of the present invention, above-mentioned and other purposes, feature, scheme and advantage of the present invention will become more obvious.

Comprise the accompanying drawing of incorporating into, constitute this specification part for further understanding the present invention, the diagram embodiments of the invention, and be used from specification one and explain principle of the present invention.

Description of drawings

Fig. 1 has shown the structure according to the air-conditioning of prior art.

Fig. 2 is low capacity compressor and the startup of big capacity compressor and the curve map of the relation between the pressure that shows according to the air-conditioning of prior art.

Fig. 3 is the block diagram according to air-conditioning of the present invention.

Fig. 4 A and Fig. 4 B are the flow charts that is used to control the method for operation of air conditioner according to of the present invention.

Fig. 5 is the curve map that shows according to the room temperature waveform of the method that is used for controlling operation of air conditioner of the present invention.

The specific embodiment

Air-conditioning of the present invention can improve the load disposal ability by the shortening time, make when the low capacity compressor is moving, before big capacity compressor is activated operation, the pressure of the passing away of big capacity compressor equates with the pressure of the suction inlet of this big capacity compressor, and in the method that is used for controlling operation of air conditioner of the present invention, low capacity compressor and big capacity compressor all move to carry out refrigerating operation over and over again, then, when indoor load increases, when only the low capacity compressor is moved cool room simultaneously, the pressure of the passing away of big capacity compressor is equated with the pressure of the suction inlet of low capacity compressor, big then capacity compressor is activated to carry out refrigerating operation, thereby carry out the refrigerating operation of air-conditioning with high energy-saving mode, describe air-conditioning according to a preferred embodiment of the invention and be used to control the method for operation of air conditioner below with reference to Fig. 3 to Fig. 5.

Fig. 3 is the block diagram according to air-conditioning of the present invention.

As shown in Figure 3, air-conditioning according to the present invention comprises: low capacity compressor 31 and big capacity compressor 32 are used for cold-producing medium is compressed into the gaseous refrigerant of HTHP; First check-valves 33 and second check-valves 34 are installed on the passing away of the refrigerant passage of this low capacity compressor and this big capacity compressor respectively; Be connected to the indoor heat converter 35 of this first check-valves and second check-valves; Be connected to the outdoor heat converter 36 of this indoor heat converter; Be connected to the gatherer 37 of this outdoor heat converter; Valve is used to connect the suction inlet and the passing away of the refrigerant passage of compressor, and wherein this compressor is the compressor with big compression volume in low capacity compressor and big capacity compressor; And the controller (not shown) that is used to control this valve.

Describe according to the method that is used to control operation of air conditioner of the present invention with reference to Fig. 4 A and Fig. 4 B below.

Shown in Fig. 4 A and Fig. 4 B, be used to control the method for operation of air conditioner, comprise: first step, wherein under the refrigerating operation situation, low capacity compressor and big capacity compressor are activated, then, when the house temperature that changes by low capacity compressor that is activated and big capacity compressor when deducting the value that predetermined first temperature obtains by the preferred temperature of setting from the user, this low capacity compressor and this big capacity compressor stop; Second step, wherein under the state that this low capacity compressor and this big capacity compressor stop, when house temperature greater than by being scheduled to second temperature when adding the value of this preferred temperature acquisition, return first step; Third step wherein repeats this first step and this second step pre-determined number; The 4th step, wherein only this low capacity compressor is controlled satisfies following relation (preferred temperature-predetermined first temperature)≤room temperature≤(preferred temperature-predetermined second temperature); The 5th step, wherein when house temperature greater than by will be scheduled to value that the 3rd temperature adds that this preferred temperature obtains the time, valve continuous service a period of time, stop then; And the 6th step, wherein this big capacity compressor is activated.

To describe the operation of air-conditioning below in detail.Air-conditioning of the present invention moves in two stages.

At first, when the user selects refrigerating operation, low capacity compressor 31 compressed gaseous cold-producing mediums.Compressed cold-producing medium is passing through first check-valves, 33 back inflow indoor heat exchangers 35.

When 31 operations of low capacity compressor,, then before making big capacity compressor 32 operations, make 38 continuous service a period of times of valve if expect big capacity compressor 32 operations.When indoor load increases, big capacity compressor 32 operations.In other words, room temperature is only by low capacity compressor 31 control, and then, when room temperature rose to the preferred temperature of setting than the user gradually and exceeds predetermined temperature, big then capacity compressor 32 was activated.The reason that makes 38 continuous service a period of times of valve is that the pressure for the passing away of the big capacity compressor 32 of the pressure of the suction inlet that makes the big capacity compressor 32 that cold-producing medium flows into and discharging refrigerant equates.The time of valve 38 operations is preferably 1 minute and 30 seconds as the experiment gained.

If two compressors of air-conditioning have identical compression volume, then valve can be installed in the either side of two compressors.

After through low capacity compressor 31 and big capacity compressor 32, cold-producing medium flow through first check-valves 33 and second check-valves 34 arrive outdoor heat converter 36 by refrigerant passage then.Then, cold-producing medium is introduced into gatherer 37 from outdoor heat converter 36, and low capacity compressor 31 or arrive big capacity compressor 32 arrives soon after.Freeze or heat by said process.

The method that is used to control operation of air conditioner is described below with reference to Fig. 5.

Fig. 5 is the curve map that shows according to the room temperature waveform of the method that is used for controlling operation of air conditioner of the present invention.

As shown in Figure 5, when the user selected refrigerating operation and air-conditioning to bring into operation, the controller (not shown) started low capacity compressor 31 and big capacity compressor 32, to reduce room temperature before operation of air conditioner, had been and had solved indoor load (step S401).

The controller comparison deducts the value (step S402) of being scheduled to first temperature and obtaining by the house temperature of low capacity compressor 31 that moves and big capacity compressor 32 changes with from the preferred temperature that the user sets.

If the value that house temperature obtains less than deduct predetermined first temperature from preferred temperature, then this controller makes low capacity compressor 31 and big capacity compressor 32 (step S403) out of service.

If the value that house temperature obtains greater than deduct predetermined first temperature from preferred temperature, then this controller makes low capacity compressor 31 and big capacity compressor 32 continue operation.Should predetermined first temperature be preferably 0.5 ℃.

After low capacity compressor 31 and big capacity compressor 32 stop, the house temperature that this controller relatively increases and by being scheduled to the value (step S404) that second temperature adds that preferred temperature obtains.

If the house temperature that increases will be greater than by being scheduled to the value that second temperature adds that preferred temperature obtains, then this controller starts low capacity compressor 31 and big capacity compressor 32 (step S401) once more.If the house temperature that increases will be less than by being scheduled to the value that second temperature adds that preferred temperature obtains, then this controller makes low capacity compressor 31 and big capacity compressor 32 keep halted states.

By the certain number of times of repeated execution of steps S401 to S404, can solve indoor load.Here, this certain number of times is preferably twice.

After the certain number of times of repeated execution of steps S401 to S404, if the house temperature that increases greater than by being scheduled to the value that second temperature adds that preferred temperature obtains, then this low capacity compressor is activated (step S405).Here, predetermined second temperature is preferably 0.5 ℃.

When the low capacity compressor is moving, compare house temperature and be scheduled to the value (step S406) that first temperature obtains by deducting from preferred temperature.

If house temperature is less than being scheduled to the value that first temperature obtains by deducting from preferred temperature, then the low capacity compressor stops (step S407).Otherwise the low capacity compressor continues operation.

After the low capacity compressor stops, controller comparison house temperature and by being scheduled to the value (step S408) that second temperature adds that preferred temperature obtains.

If house temperature will be less than by being scheduled to the value that second temperature adds that preferred temperature obtains, then low capacity compressor 31 remains on stop phase.

If house temperature will be greater than by being scheduled to the value that second temperature adds that preferred temperature obtains, then controller starts low capacity compressor 31 (step S409) once more.

After low capacity compressor 31 is activated, house temperature and relatively by being scheduled to the value (step S410) that the 3rd temperature adds that preferred temperature obtains.Here, predetermined the 3rd temperature is preferably more than predetermined first temperature and predetermined second temperature.

If house temperature will be greater than by being scheduled to the value that the 3rd temperature adds that preferred temperature obtains, for the pressure of the passing away of the pressure of the suction inlet that makes big capacity compressor 32 and big capacity compressor 32 equates that 38 continuous service a period of times of valve stop (step S411) then.

If house temperature will be less than by being scheduled to the value that the 3rd temperature adds that preferred temperature obtains, then low capacity compressor 31 continues operation.Here, house temperature is greater than adding that by being scheduled to the 3rd temperature the reason of the value that preferred temperature obtains is: because when room temperature is only controlled by low capacity compressor 31, room temperature may take place rise gradually.Described a period of time is preferably 1 minute and 30 seconds (this Best Times for obtaining by experiment).

After valve 38 stopped, big capacity compressor 32 was activated, with the indoor load (step S412) that reduces to increase.

If two compressors according to air-conditioning of the present invention have identical capacity, then can move two compressors regardless of boot sequence.

As for heating operation, air-conditioning moves according to same control method.

As mentioned above, air-conditioning of the present invention and the being used to method of controlling operation of air conditioner has following advantage.

That is, because when the low capacity compressor is moving, before big capacity compressor is activated, for the pressure of the suction inlet of the pressure of the passing away that makes big capacity compressor and big capacity compressor equates time of spending can improve the load disposal ability.

In addition, low capacity compressor and big capacity compressor all move carry out refrigerating operation and refrigerating operation and be repeated to carry out certain number of times after, when indoor load increases when only there being the low capacity compressor operating to carry out refrigerating operation, the pressure of the suction inlet of the pressure of passing away of big capacity compressor and low capacity compressor is equated, start big capacity compressor then and carry out refrigerating operation.Therefore, the refrigerating operation of air-conditioning can be carried out with the pattern of height economize on electricity.

Because the present invention can realize under the situation that does not break away from its spirit and essential feature in a variety of forms, so be to be understood that: the foregoing description is not limited to aforesaid any details, unless other regulation is arranged, but should in the spirit and scope that are defined by the claims, be understood widely.Therefore, fall within the claim scope change and the equivalent of variation or scope all trends towards being contained by appended claims.

Claims (16)

1. air-conditioning comprises:

Low capacity compressor and big capacity compressor are used for cold-producing medium is compressed into the gaseous refrigerant of HTHP;

Valve is used to connect the passing away of the refrigerant passage of the suction inlet of refrigerant passage of this big capacity compressor and this big capacity compressor; And

Controller is used to control this low capacity compressor, this big capacity compressor and this valve.

2. air-conditioning according to claim 1, wherein when the low capacity compressor was moving, this controller made this valve continuous service a period of time before starting this big capacity compressor, and then, this controller makes this big capacity compressor operation.

3. air-conditioning according to claim 1, wherein this controller is by following step executive control operation:

First step, wherein under the situation of refrigerating operation, low capacity compressor and big capacity compressor are activated, then, when the house temperature that changes by the low capacity compressor of this startup and big capacity compressor when deducting the value that predetermined first temperature obtains by the preferred temperature of setting from the user, this low capacity compressor and this big capacity compressor stop;

Second step, wherein under the state that this low capacity compressor and this big capacity compressor stop, when this house temperature greater than by being scheduled to second temperature when adding the value of this preferred temperature acquisition, return first step;

Third step wherein repeats this first step and this second step pre-determined number;

The 4th step, this low capacity compressor of its China National Instruments Import ﹠ Export Corporation is controlled to satisfy following relation:

(preferred temperature-predetermined first temperature)≤room temperature≤(preferred temperature-predetermined second temperature);

The 5th step, wherein when this house temperature greater than by will be scheduled to value that the 3rd temperature adds that this preferred temperature obtains the time, this valve continuous service a period of time stops then; And

The 6th step, wherein this big capacity compressor is activated.

4. air-conditioning according to claim 2, wherein this a period of time is 1 minute and 30 seconds.

5. air-conditioning according to claim 3, wherein this a period of time is 1 minute and 30 seconds.

6. air-conditioning according to claim 3 should predetermined first temperature be 0.5 ℃ with being scheduled to second temperature wherein.

7. air-conditioning according to claim 3 wherein should predetermined the 3rd temperature be scheduled to first temperature and be somebody's turn to do predetermined second temperature greater than this.

8. air-conditioning according to claim 3, wherein this pre-determined number is twice.

9. method that is used to control the operation of air-conditioning comprises:

Operation low capacity compressor;

When this low capacity compressor is moving, the pressure of the outlet side of the pressure of suction side of refrigerant passage of big capacity compressor and this refrigerant passage is equated; And

Make above-mentioned two pressure equate that the back starts this big capacity compressor.

10. method that is used to control the operation of air-conditioning comprises:

First step, wherein under the situation of refrigerating operation, low capacity compressor and big capacity compressor are activated, then, when the house temperature that changes by the low capacity compressor of this startup and big capacity compressor when deducting the value that predetermined first temperature obtains by the preferred temperature of setting from the user, this low capacity compressor and this big capacity compressor stop;

Second step, wherein under the state that this low capacity compressor and this big capacity compressor stop, when this house temperature greater than by being scheduled to second temperature when adding the value of this preferred temperature acquisition, return first step;

Third step wherein repeats this first step and this second step pre-determined number;

The 4th step, wherein only this low capacity compressor is controlled satisfies following relation:

(preferred temperature-predetermined first temperature)≤room temperature≤(preferred temperature-predetermined second temperature);

The 5th step, wherein when this house temperature greater than by will be scheduled to value that the 3rd temperature adds that this preferred temperature obtains the time, valve continuous service a period of time stops then; And

The 6th step, wherein this big capacity compressor is activated.

11. method according to claim 10, wherein the 4th step comprises:

One step, wherein after this low capacity compressor is activated, if the house temperature that is changed by the low capacity compressor of this startup is less than by deducting the value that this predetermined first temperature obtains from this preferred temperature, then this low capacity compressor is stopped; And

One step, wherein along with this low capacity compressor is stopped, if this house temperature less than by being scheduled to the value that second temperature adds that preferred temperature obtains, then this low capacity compressor is activated.

12. method according to claim 10, wherein this a period of time is 1 minute and 30 seconds.

13. method according to claim 10 should predetermined first temperature be 0.5 ℃ with being scheduled to second temperature wherein.

14. method according to claim 10 wherein should predetermined the 3rd temperature be scheduled to first temperature and be somebody's turn to do predetermined second temperature greater than this.

15. method according to claim 10, wherein this pre-determined number is twice.

16. an air-conditioning comprises:

Low capacity compressor and big capacity compressor are used for cold-producing medium is compressed into the gaseous refrigerant of HTHP;

Valve is used to connect the passing away of the refrigerant passage of the suction inlet of refrigerant passage of this big capacity compressor and this big capacity compressor; And

Controller is used for coming executive control operation by following step, and described step comprises:

First step, wherein heating under the situation of operation, this low capacity compressor and this big capacity compressor are activated, then, when the house temperature that changes by the low capacity compressor of this startup and big capacity compressor when deducting the value that predetermined first temperature obtains by the preferred temperature of setting from the user, this low capacity compressor and this big capacity compressor stop;

Second step, wherein under the state that this low capacity compressor and this big capacity compressor stop, when this house temperature greater than by being scheduled to second temperature when adding the value of this preferred temperature acquisition, return first step;

Third step wherein repeats this first step and this second step pre-determined number;

The 4th step, wherein only this low capacity compressor is controlled satisfies following relation:

(preferred temperature-predetermined first temperature)≤room temperature≤(preferred temperature-predetermined second temperature);

The 5th step, wherein when this house temperature greater than by will be scheduled to value that the 3rd temperature adds that this preferred temperature obtains the time, valve continuous service a period of time stops then; And

The 6th step, wherein this big capacity compressor is activated.

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