CN107120787A

CN107120787A - The control method of air-conditioning

Info

Publication number: CN107120787A
Application number: CN201710272051.3A
Authority: CN
Inventors: 刘卫兵; 耿宝寒; 朱辉
Original assignee: Qingdao Haier Air Conditioner Gen Corp Ltd
Current assignee: Qingdao Haier Air Conditioner Gen Corp Ltd; Haier Smart Home Co Ltd
Priority date: 2017-04-24
Filing date: 2017-04-24
Publication date: 2017-09-01
Anticipated expiration: 2037-04-24
Also published as: CN107120787B

Abstract

The invention provides a kind of control method of air-conditioning, comprise the following steps：The interior space is divided into multiple air-supply regions；The environment temperature in each air-supply region of detection；The temperature difference of the environment temperature per adjacent two air-supply regions is calculated, two maximum adjacent blow zones domains of the temperature difference are confirmed；Adjust the air supply direction of air-conditioning：In refrigeration mode, make wind higher air-supply region of temperature into the two adjacent blow zones domains with maximum temperature difference, in heating mode, make wind relatively low air-supply region of temperature into the two adjacent blow zones domains with maximum temperature difference, to eliminate the temperature difference in the two adjacent blow zones domain.The control method of the air-conditioning of the present invention can lift the uniformity of temperature throughout the room and the comfort level of indoor environment.

Description

The control method of air-conditioning

Technical field

The present invention relates to refrigeration technology field, more particularly to a kind of control method of air-conditioning.

Background technology

At present, existing air-conditioning is relatively fixed to the mode of indoor air-supply, or is dried to be oriented towards a direction, or logical Cross to automatically control wind deflector or put leaf circulation and sweep wind, or wind is hidden human body according to force-feeling sensor, it is to avoid blow-through human body is caused It is uncomfortable.In a word, existing air-conditioned air supply mode is relatively simple.

The content of the invention

In view of the above problems, it is proposed that the present invention so as to provide one kind overcome above mentioned problem or at least in part solve on State the control method of the air-conditioning of problem.

The present invention further objective is that the uniformity of temperature throughout the room is lifted, to lift the comfortable of indoor environment Degree.

Especially, the invention provides a kind of control method of air-conditioning, comprise the following steps：

The interior space is divided into multiple air-supply regions；

The environment temperature in each air-supply region of detection；

The temperature difference of the environment temperature per adjacent two air-supply regions is calculated, two maximum adjacent blow zones domains of the temperature difference are confirmed；

Adjust the air supply direction of the air-conditioning：In refrigeration mode, make wind to the two adjacent air-supplies with maximum temperature difference The higher air-supply region of temperature in region, in heating mode, makes wind into the two adjacent blow zones domains with maximum temperature difference The relatively low air-supply region of temperature, to eliminate the temperature difference in the two adjacent blow zones domain.

Alternatively, the temperature difference of the environment temperature per adjacent two air-supply regions is calculated, two maximum adjacent air-supplies of the temperature difference are confirmed Also include after the step of region：According to the temperature difference in two maximum adjacent blow zones domains of the temperature difference, inquire about default rotation speed of fan with The corresponding relation of the temperature difference, adjusts the rotating speed of the blower fan to the two adjacent blow zones domain air-supply.

Alternatively, default rotation speed of fan and the corresponding relation of the temperature difference include：Set multiple temperature difference interval, each temperature difference area Between correspondence one rotation speed of fan.

Alternatively, the step of environment temperature for detecting each air-supply region, includes：The each air-supply region of detection The temperature of an interior test point as the air-supply region environment temperature, or in each air-supply of detection multiple test points it is flat Equal temperature as the air-supply region environment temperature.

Alternatively, the air-conditioning has multiple air outlets for indoor air-supply；And the air-supply side of the regulation air-conditioning To the step of include：The air-out direction of an air outlet is adjusted, in refrigeration mode, makes wind to maximum temperature difference The higher air-supply region of temperature, in heating mode, makes wind adjacent to two with maximum temperature difference in two adjacent blow zones domains The relatively low air-supply region of temperature in air-supply region.

Alternatively, it is provided with each air outlet for guiding the multiple horizontal-extending of air-out direction and can be along level Yaw leaf and multiple vertical vertical pendulum leaves that extends and can be pivoted along vertical axis that axis is pivoted.

Alternatively, the quantity of the blower fan is identical with the quantity of the air outlet, and each blower fan is matched described in one Air outlet.

Alternatively, the quantity of the blower fan is less than the quantity of the air outlet, and the part blower fan is matched to be sent described in one Air port, remaining described blower fan matches multiple air outlets.

Alternatively, the quantity of the air outlet is three, its vertical array on the housing of the air-conditioning；And the blower fan Quantity be two, its vertical array inside the air-conditioning, and positioned at upside blower fan matching positioned at two of upside air-supplies Mouthful, the blower fan matching positioned at downside is located at an air outlet of lower side.

Alternatively, the blower fan is the vertically extending cross flow fan of axis.

In the control method of the air-conditioning of the present invention, by the way that the interior space is divided into multiple air-supply regions, each air-supply of detection The environment temperature in region, makes wind emphasis eliminate the temperature difference in the two adjacent blow zones domains with maximum temperature difference, by constantly eliminating The process of the two adjacent blow zones domain temperature difference, finally makes the temperature in all air-supply regions reach unanimity, enhances indoor environment Comfort level, makes human body will not be produced because of temperature variation band when no matter being in indoor any position or indoors any shift position The discomfort come.

Further, in the control method of air-conditioning of the invention, adjusted by the corresponding relation of the temperature difference and rotation speed of fan Rotation speed of fan, so as to which in the big temperature difference, the temperature difference is eliminated using Wind Volume, lifts speed；In the small temperature difference, eliminated using small air quantity The temperature difference, reduces fan energy consumption and noise.

Further, in the control method of air-conditioning of the invention, by making air-conditioning be provided with multiple air outlets, one can be made Individual air outlet is used for the temperature difference for eliminating two adjacent blow zones domains of maximum temperature difference, and remaining air outlet is used to otherwise blow, Such as orient air-supply or wind is swept in circulation, so improve the diversity of air supply mode and the experience effect of user.

Further,, can be by controlling blower fan by setting multiple blower fans in the control method of air-conditioning of the invention Open quantity to adjust the air output of air-conditioning, enhance the diversity of the air supply mode of air-conditioning.

According to the accompanying drawings to the detailed description of the specific embodiment of the invention, those skilled in the art will be brighter Above-mentioned and other purposes, the advantages and features of the present invention.

Brief description of the drawings

Some specific embodiments of the present invention are described in detail by way of example, and not by way of limitation with reference to the accompanying drawings hereinafter. Identical reference denotes same or similar part or part in accompanying drawing.It should be appreciated by those skilled in the art that these What accompanying drawing was not necessarily drawn to scale.In accompanying drawing：

Fig. 1 is the schematic, exploded of air-conditioning according to an embodiment of the invention；

Fig. 2 is the schematic diagram of the control method of air-conditioning according to an embodiment of the invention；

Fig. 3 is the flow chart of the control method of air-conditioning according to an embodiment of the invention.

Embodiment

The embodiment of the present invention provide firstly a kind of air-conditioning, and Fig. 1 is the signal of air-conditioning according to an embodiment of the invention Property exploded view.The air-conditioning of the present embodiment can be Split wall-mounted air-conditioning or separated floor air-conditioning, and it, which includes at least one, is used for To the air outlet and at least one blower fan of indoor air-supply.By taking the floor air conditioner indoor machine shown in Fig. 1 as an example, air outlet 112, 114th, 116 it is arranged on the front panel 110 of housing, blower fan 410,420 is arranged on the rear of front panel 110, ducting assembly 120 is set Put between blower fan 410,420 and front panel 110, for guiding wind direction.In addition, being additionally provided with evaporator in indoor set, pass through Vapor-compression refrigerant cycle system is constituted with the condenser, compressor and throttling arrangement of outdoor unit, and concrete structure is herein no longer Repeat.

Air-conditioning also includes temperature-detecting device 200 and control device (not shown).The interior space is divided into many by air-conditioning Individual air-supply region, environment temperature of the temperature-detecting device 200 with each air-supply region of detection.Temperature-detecting device 200 can Including one or more temperature sensors (such as infrared temperature sensor).To expand detection range, temperature sensor can be made removable Move or be rotatably arranged on air-conditioning.Control device is received after each regional temperature of the detection of temperature-detecting device 200, is calculated Per the temperature difference of the environment temperature in adjacent two air-supply regions, two maximum adjacent blow zones domains of the temperature difference are confirmed, and adjust in the following manner Save the air supply direction of air outlet：In refrigeration mode, make wind into the two adjacent blow zones domains with maximum temperature difference temperature compared with High air-supply region, in heating mode, makes wind temperature is relatively low into the two adjacent blow zones domains with maximum temperature difference to send Wind region.

For example, the interior space is divided into nine regions such as A01~A09.During refrigeration mode, through temperature detection, A01 is confirmed The temperature difference with A02 is maximum, and A02 temperature is higher, can now make wind to A02 regions.During being blown to A02, temperature inspection Survey device 200 also continuing to detect, with continuing for air-supply process, after A01 and the A02 temperature difference are eliminated, possible A03 and A04 Between the temperature difference become maximum temperature difference, and A03 temperature highests, now air-conditioning by emphasis to A03 regions blow, so constantly continue The process of the temperature difference is eliminated, makes the temperature of the interior space uniform and is evenly down to (during refrigeration) or is maintained at design temperature.So One, enhance the comfort level of indoor environment, make human body no matter in indoor any position or indoors any shift position when It will not produce because of the discomfort that temperature change is brought.

In certain embodiments, control device is configured to the temperature difference according to two maximum adjacent blow zones domains of the temperature difference, looks into Default rotation speed of fan and the corresponding relation of the temperature difference are ask, the rotating speed of the blower fan to the two adjacent blow zones domain air-supply is adjusted.Can be with Understand, in the big temperature difference, rotating speed should be increased, to eliminate the temperature difference using Wind Volume, lift speed；In the small temperature difference, it should subtract Small rotating speed, to eliminate the temperature difference using small air quantity, reduces fan energy consumption and noise.

Preferably, multiple temperature difference can be set interval, each temperature difference interval one rotation speed of fan of correspondence.For example, with Δ Tr generations The table temperature difference, correspondence rotation speed of fan is 900rpm during Δ Tr >=5 DEG C, and corresponding rotation speed of fan is during 5 DEG C >=Δ Tr >=4 DEG C 850rpm, corresponding rotation speed of fan is 800rpm, corresponding rotation speed of fan during 3 DEG C >=Δ Tr >=2 DEG C during 4 DEG C >=Δ Tr >=3 DEG C For 750rpm, corresponding rotation speed of fan is 700rpm during 2 DEG C >=Δ Tr >=1 DEG C, and corresponding blower fan turns during 1 DEG C >=Δ Tr >=0 DEG C Fast 650rpm.

In the above-described embodiments, the air-supply region can be used as by the temperature of a test point in each air-supply region of detection Environment temperature, the test point can be located at the middle position in the region or the table for the entity (such as wall or floor) in the region Face.Or, can also be by detecting that the mean temperature of multiple test points in each air-supply is used as the environment temperature in the air-supply region.

In certain embodiments, preferably make the quantity of air outlet to be multiple, include as shown in Figure 1 air outlet 112,114, 116.Also, control device is configured to：Adjust an air outlet air-out direction, in refrigeration mode, make wind to The higher air-supply region of temperature in two adjacent blow zones domains of maximum temperature difference, in heating mode, makes wind to maximum temperature The relatively low air-supply region of temperature in two adjacent blow zones domains of difference.And for remaining air outlet, it can be made to be used for otherwise Wind is swept in air-supply, such as orientation air-supply or circulation, so improves the diversity of air supply mode and the experience effect of user.

Certainly, in some alternative embodiments, the air-out direction one of whole air outlets 112,114,116 can also be made Cause, equal emphasis is used for the maximum temperature difference for eliminating two adjacent blow zones domains.

In certain embodiments, it can make to set multigroup pendulum leaf at each air outlet, for guiding air-out direction.Pendulum leaf includes The multiple horizontal-extending and yaw leaf 322,324,326 that can be pivoted along horizontal axis and multiple vertical extensions and can be along vertical axis The vertical pendulum leaf 312,314,316 of pivot.Yaw leaf 322,324,326 is used in above-below direction regulation wind direction, vertical pendulum leaf 312, 314th, 316 are used to adjust wind direction in left and right directions, and both, which are combined, can significantly expand the wind direction of air outlet.It is specific such as to scheme Shown in 1, vertical pendulum leaf 312,314,316 can be made to be separately positioned at the air outlet 112,114,116 of housing, make yaw leaf 322, 324th, 326 it is arranged at ducting assembly, both are driven by respective drive device pivot respectively, realizes pendulum wind.

In certain embodiments, the quantity of blower fan can be made identical with the quantity of air outlet, so that each blower fan matches one Air outlet, that is, form one-to-one relation, and the wind of each blower fan is only blown out from corresponding air outlet.Certainly, Duo Gefeng The operation of machine is independent of each other.

In some preferred embodiments, the quantity of blower fan can be made to be less than the quantity of air outlet, part fan is matched one Individual air outlet, remaining blower fan matches multiple air outlets.For example shown in Fig. 1, the quantity that can make air outlet is three, is air outlet 112nd, 114,116, its (being specially on front panel 110) vertical array on the housing of air-conditioning.And the quantity of blower fan is two, is Blower fan 410,420, its vertical array inside air-conditioning, and it is located at two air outlets of the matching of blower fan 410 positioned at upside of upside 112nd, 114, the matching of blower fan 420 positioned at downside is located at an air outlet 116 of lower side.Two blower fans 410,420 are preferably For the vertically extending cross flow fan of axis, two cross flow fans 410,420 are driven by respective motor.It is preferred that making three air outlets 112nd, 114,116 be the equal circle of air-out area, and the length of the blower fan 410 positioned at upside is equal to downside blower fan 420 2 times of length, have identical air quantity, just so as to when two rotation speed of fan are identical, make three air outlets 112,114,116 In to indoor carry out balanced ventilation.

The embodiment of the present invention additionally provides a kind of control method of air-conditioning.The control method is used to control any of the above to implement The air-conditioning of example.Fig. 2 is the schematic diagram of the control method of air-conditioning according to an embodiment of the invention.The control method includes：

Step S202, multiple air-supply regions are divided into by the interior space.Multiple air-supply regions should cover indoor human body can All regions reached.

Step S204, the environment temperature in each air-supply region of detection.Each air-supply can be detected by temperature-detecting device 200 In region the temperature of a test point as the air-supply region environment temperature, the test point can be located at the region middle position Or be the surface of the entity (such as wall or floor) in the region.Or, it can also pass through multiple inspections in each air-supply region of detection The mean temperature of measuring point as the air-supply region environment temperature.Temperature-detecting device 200 may include that one or more temperature are passed Sensor (such as infrared temperature sensor).To expand detection range, temperature sensor can be made removable or sky is rotatably arranged in On tune.

Step S206, calculates the temperature difference of the environment temperature per adjacent two air-supply regions, confirms that the temperature difference is maximum and two adjacent send Wind region.

Step S208, adjusts the air supply direction of air-conditioning：Completed by control device, in refrigeration mode, make wind to The higher air-supply region of temperature in two adjacent blow zones domains of maximum temperature difference, in heating mode, makes wind to maximum temperature The relatively low air-supply region of temperature in two adjacent blow zones domains of difference, to eliminate the temperature difference in the two adjacent blow zones domain.When maximum temperature When difference appears in two groups or more adjacent air-supply region, wind one group of blow zones thereto can be first made by nearby principle Domain.

Fig. 3 is the flow chart of the control method of air-conditioning according to an embodiment of the invention.In certain embodiments, according to The temperature difference in two maximum adjacent blow zones domains of the temperature difference, inquires about default rotation speed of fan and the corresponding relation of the temperature difference, adjust to this two The rotating speed of the blower fan of adjacent air-supply region air-supply.It is understood that in the big temperature difference, rotating speed should be increased, to use Wind Volume The temperature difference is eliminated, speed is lifted；In the small temperature difference, rotating speed should be reduced, to eliminate the temperature difference using small air quantity, reduce fan energy consumption and make an uproar Sound.It is preferred that multiple temperature difference intervals are put, each temperature difference interval one rotation speed of fan of correspondence.For example, the temperature difference is represented with Δ Tr, Δ Tr >= Correspondence rotation speed of fan is 900rpm/min at 5 DEG C, and corresponding rotation speed of fan is 850rpm/min, 4 DEG C during 5 DEG C >=Δ Tr >=4 DEG C Corresponding rotation speed of fan is 800rpm/min during >=Δ Tr >=3 DEG C, and corresponding rotation speed of fan is during 3 DEG C >=Δ Tr >=2 DEG C 750rpm/min, corresponding rotation speed of fan is 700rpm/min during 2 DEG C >=Δ Tr >=1 DEG C, corresponding during 1 DEG C >=Δ Tr >=0 DEG C Rotation speed of fan 650rpm/min.The quantity for making air outlet is multiple.

The control method performs following steps successively：

Step S302, multiple air-supply regions are divided into by the interior space.

Step S304, detects that the temperature of a test point in each air-supply region is used as the environment temperature in the air-supply region；

Step S306, calculates the temperature difference of the environment temperature per adjacent two air-supply regions, confirms the maximum adjacent air-supply of the temperature difference Region, then performs step S308 and step S310.

Step S308, adjusts the air supply direction of an air outlet：In refrigeration mode, make wind to maximum temperature difference Adjacent air-supply region in the higher air-supply region of temperature, in heating mode, wind is sent to adjacent with maximum temperature difference The relatively low air-supply region of temperature in wind region.

Step S310, according to the temperature difference in the maximum adjacent air-supply region of the temperature difference, inquires about default rotation speed of fan and the temperature difference Corresponding relation, adjusts the rotating speed for the blower fan blown to the adjacent air-supply region.

After execution of step S308, execution step S304 is returned again to, by the way that above-mentioned steps are performed a plurality of times, institute is finally eliminated There is the temperature difference between air-supply region.

So far, although those skilled in the art will appreciate that detailed herein have shown and described multiple showing for the present invention Example property embodiment, still, still can be direct according to present disclosure without departing from the spirit and scope of the present invention It is determined that or deriving many other variations or modifications for meeting the principle of the invention.Therefore, the scope of the present invention is understood that and recognized It is set to and covers other all these variations or modifications.

Claims

1. a kind of control method of air-conditioning, comprises the following steps：

The interior space is divided into multiple air-supply regions；

The environment temperature in each air-supply region of detection；

The temperature difference of the environment temperature per adjacent two air-supply regions is calculated, two maximum adjacent blow zones domains of the temperature difference are confirmed；And

Adjust the air supply direction of the air-conditioning：In refrigeration mode, make wind to the two adjacent blow zones domains with maximum temperature difference The higher air-supply region of middle temperature, in heating mode, makes wind temperature into the two adjacent blow zones domains with maximum temperature difference Relatively low air-supply region, to eliminate the temperature difference in the two adjacent blow zones domain.

2. control method according to claim 1, wherein, the temperature difference of the environment temperature per adjacent two air-supply regions is calculated, Also include after the step of confirming two adjacent blow zones domain of temperature difference maximum：

According to the temperature difference in two maximum adjacent blow zones domains of the temperature difference, default rotation speed of fan and the corresponding relation of the temperature difference are inquired about, is adjusted Save the rotating speed of the blower fan to the two adjacent blow zones domain air-supply.

3. control method according to claim 2, wherein, the corresponding relation of default rotation speed of fan and the temperature difference includes：

Set multiple temperature difference interval, each temperature difference interval one rotation speed of fan of correspondence.

4. control method according to claim 1, wherein the step of environment temperature in detection each air-supply region is wrapped Include：

Detect that the temperature of a test point in each air-supply region is each as the environment temperature in the air-supply region, or detection In the air-supply mean temperature of multiple test points as the air-supply region environment temperature.

5. control method according to claim 1, wherein

The air-conditioning has multiple air outlets for indoor air-supply；And

The step of air supply direction for adjusting the air-conditioning, includes：The air-out direction of an air outlet is adjusted, in refrigeration mode When, make wind higher air-supply region of temperature into the two adjacent blow zones domains with maximum temperature difference, in heating mode, make wind Blow to the relatively low air-supply region of temperature in the two adjacent blow zones domains with maximum temperature difference.

6. control method according to claim 5, wherein

It is provided with each air outlet for guiding the multiple horizontal-extending of air-out direction and can be pivoted along horizontal axis Yaw leaf and multiple vertical extensions and the vertical pendulum leaf that can be pivoted along vertical axis.

7. control method according to claim 5, wherein

The quantity of the blower fan is identical with the quantity of the air outlet, and each blower fan matches an air outlet.

8. control method according to claim 5, wherein

The quantity of the blower fan is less than the quantity of the air outlet, and the part blower fan matches an air outlet, remaining institute State blower fan and match multiple air outlets.

9. control method according to claim 8, wherein

The quantity of the air outlet is three, its vertical array on the housing of the air-conditioning；And

The quantity of the blower fan is two, its vertical array inside the air-conditioning, and the blower fan positioned at upside is matched positioned at upper Two air outlets of side, the blower fan matching positioned at downside is located at an air outlet of lower side.

10. control method according to claim 9, wherein

The blower fan is the vertically extending cross flow fan of axis.