CN202485149U - Air conditioner system and control device thereof - Google Patents

Abstract

The utility model discloses an air conditioner system and controlling means thereof. The device includes: the detection module is used for detecting the outdoor environment temperature; the judging module is used for judging the relation between the outdoor environment temperature and a first preset temperature range; and the first control module is used for controlling the air conditioner system to enable the temperature of the first area to be within a second preset temperature range and controlling the air conditioner system to enable the temperature of the second area to be the temperature set by a user when the outdoor environment temperature is not within the first preset temperature range. Through the utility model discloses, set up first region as the user by indoor to outdoor or outdoor to indoor transition region, the indoor outer difference in temperature in this region is less, can make the user progressively adapt to the indoor outer difference in temperature, and the quenching suddenly heats when avoiding the user to pass in and out indoorly, and the temperature of simultaneous control second region has satisfied user's travelling comfort requirement for the temperature that the user set for.

Description

Air-conditioner system and control device thereof

Technical field

The utility model relates to the air-conditioner field, in particular to a kind of air-conditioner system and control device thereof.

Background technology

The appearance of air-conditioner has greatly improved Interior Temperature Environment, becomes requisite household electrical appliance in people's life.At present, it all is to set air-conditioner to be in a particular value that people use the general fashion of air-conditioner, makes the temperature constant in room, reaches the human comfort requirement.But just because room temperature is in steady state value, when outdoor temperature changes greatly, because the user does not have the running temperature of timely corresponding adjustment air-conditioner; Make indoor/outdoor temperature-difference too big, people pass in and out the room will feel cold or too hot, according to investigations; In case indoor/outdoor temperature-difference is above 6 ℃; Human body will produce discomfort because of thermal ataxia, causes the generation of catching a cold or suffering heatstroke easily, suffers from " air conditioner disease ".Therefore, solve the problem of " air conditioner disease ", become people's serious hope for a long time.

In order to address the above problem, application number is that the Chinese patent of CN201020297349.3 makes indoor/outdoor temperature-difference maintain certain preset temperature range through a kind of temperature-control circuit.But, adopt above-mentioned control method can not solve " air conditioner disease " problem preferably.Because during the broiling summer or cold winter, outdoor temperature is more extreme, only guarantees internal-external temperature difference, make indoor temperature can't reach the level of human comfort on the contrary, sacrificed the effect of air-conditioner.

In correlation technique, existing air-conditioner can't provide the problem of comfortable indoor environment when guaranteeing that indoor/outdoor temperature-difference is less, do not propose effective solution at present as yet.

The utility model content

The main purpose of the utility model is to provide a kind of air-conditioner system and control device thereof, can't when guaranteeing that indoor/outdoor temperature-difference is less, the problem of comfortable indoor environment be provided to solve existing air-conditioner.

To achieve these goals, according to the one side of the utility model, a kind of control device of air-conditioner system is provided.

Control device according to the air-conditioner system of the utility model comprises: detection module is used to detect outdoor environment temperature; Judge module is used to judge the relation between the outdoor environment temperature and first preset temperature range; And first control module; Be used for when outdoor environment temperature is not within first preset temperature range; The control air-conditioner system so that the temperature of first area in second preset temperature range, and the control air-conditioner system is so that the temperature of second area is the temperature of user setting, wherein; Air-conditioner system is used to regulate the temperature of first area and second area, and the first area is between outdoor area and second area.

Further; First control module comprises: the first control submodule; Be used for when outdoor environment temperature during more than or equal to the maximum temperature in first preset temperature range, the control air-conditioner system is so that the temperature of first area is the maximum temperature in second preset temperature range; And the second control submodule, when being used for the minimum temperature when outdoor environment temperature is less than or equal to first preset temperature range in, control air-conditioner system so that the temperature of first area is the interior minimum temperature of second preset temperature range.

Further, this device also comprises: computing module, be used for when outdoor environment temperature is within first preset temperature range, adopt following formula to calculate to obtain transition temperature:

T=(T _Inspection-T _Min) * (T ₁-T ₂)/(T _Max-T _Min)+T ₂

Wherein, T is a transition temperature, T _InspectionBe outdoor environment temperature, T ₁Be the maximum temperature in second preset temperature range, T ₂Be the minimum temperature in second preset temperature range, T _MaxBe the maximum temperature in first preset temperature range, T _MinIt is the minimum temperature in first preset temperature range; And second control module, be used to control air-conditioner system so that the temperature of first area is a transition temperature.

Further, air-conditioner system is used to regulate the temperature in a plurality of zones, and this control device also comprises: receiver module, and the zone that is used to receive user's input is provided with order, and wherein, the zone is provided with order and is used for selecting a zone as the first area in a plurality of zones; And determination module, be used for order being set and confirm the first area according to the zone.

To achieve these goals, according to the utility model on the other hand, a kind of air-conditioner system is provided.

Air-conditioner system according to the utility model comprises: first split air conditioner, the temperature that is used to regulate the first area; Second split air conditioner, the temperature that is used to regulate second area, wherein, the first area is between outdoor area and second area; And the control device of any one air-conditioner system that provides according to the utility model, wherein, this air-conditioner system is a central air-conditioning.

To achieve these goals, according to the utility model on the other hand, another kind of air-conditioner system is provided.

Air-conditioner system according to the utility model comprises: first air-conditioner, the temperature that is used to regulate the first area; Second air-conditioner, the temperature that is used to regulate second area, wherein, the first area is between outdoor area and second area; And the control device of any one air-conditioner system that provides according to the utility model.

Through the utility model, adopt to comprise the control device with the air-conditioner system of lower part: detection module is used to detect outdoor environment temperature; Judge module is used to judge the relation between the outdoor environment temperature and first preset temperature range; And first control module; Be used for when outdoor environment temperature is not within first preset temperature range; The control air-conditioner system so that the temperature of first area in second preset temperature range, and the control air-conditioner system is so that the temperature of second area is the temperature of user setting, will be between outdoor area and second area the first area as the user by indoor transitional region to outdoor (or outdoor) to indoor; Control room temperature in this zone in preset temperature range; Guarantee indoor/outdoor temperature-difference, avoided the user to pass in and out suddenly cold and hot when indoor, controlled the temperature that the temperature of second area is set for the user simultaneously; Satisfied user's comfortableness requirement; Thereby having solved existing air-conditioner can't provide the problem of comfortable indoor environment, and then reach the effect that reduces indoor/outdoor temperature-difference when satisfying user's comfortableness when guarantee that indoor/outdoor temperature-difference is less.

Description of drawings

The accompanying drawing that constitutes the application's a part is used to provide the further understanding to the utility model, and illustrative examples of the utility model and explanation thereof are used to explain the utility model, do not constitute the improper qualification to the utility model.In the accompanying drawings:

Fig. 1 is the block diagram according to the air-conditioner system of the utility model first embodiment;

Fig. 2 is the block diagram according to the air-conditioner system of the utility model second embodiment;

Fig. 3 is the block diagram according to the air-conditioner system control device of the utility model first embodiment;

Fig. 4 is the block diagram according to the air-conditioner system control device of the utility model second embodiment;

Fig. 5 is according to the sketch map one that calculates transition temperature in the air-conditioner system control device of the utility model embodiment;

Fig. 6 is the sketch map according to background task in the air-conditioner system control device of the utility model embodiment;

Fig. 7 is a sketch map one of regulating temperature according to the air-conditioner system control device of the utility model embodiment;

Fig. 8 is according to the sketch map two that calculates transition temperature in the air-conditioner system control device of the utility model embodiment;

Fig. 9 is a sketch map two of regulating temperature according to the air-conditioner system control device of the utility model embodiment;

Figure 10 is the flow chart according to the air-conditioner system control method of the utility model first embodiment; And

Figure 11 is the flow chart according to the air-conditioner system control method of the utility model second embodiment.

The specific embodiment

Need to prove that under the situation of not conflicting, embodiment and the characteristic among the embodiment among the application can make up each other.Below with reference to accompanying drawing and combine embodiment to specify the utility model.

At first, introduce the air-conditioner system that this specific embodiment provides.

Fig. 1 is the block diagram according to the air-conditioner system of the utility model first embodiment, and is as shown in Figure 1, and this air-conditioner system comprises: first split air conditioner 10, second split air conditioner 30 and control device 50.

This air-conditioner system is a central air-conditioning, is used to regulate the temperature in a plurality of zones, and a plurality of zones here can be the each several part in the hall; For example each the sales counter zone in the market also can be a plurality of rooms in a building, for example each room in the villa; Wherein, The temperature that first split air conditioner 10 is used to regulate the first area, the temperature that second split air conditioner 30 is used to regulate second area, wherein; First area between outdoor area and second area is that the user passes in and out indoor transitional region, and second area is the long-time movable zone of user.

When outdoor environment temperature is extreme; If the temperature operation that each split air conditioner is set according to the user; Indoor/outdoor temperature-difference is bigger, and the user passes in and out indoor suddenly cold and hot, through control device 50; Detect outdoor environment temperature in real time and whether surpass first preset temperature range, for example first preset temperature range is made as subzero 30 degree to 30 degree above freezing.When outdoor environment temperature surpasses first preset temperature range; Explain that outdoor climate is more extreme; This timed unit 50 controls first split air conditioner 10 avoids the user to pass in and out indoor suddenly cold and hot so that the temperature of transitional region in second preset temperature range, has guaranteed indoor/outdoor temperature-difference; Control device 50 controls second split air conditioner 30 runs on the temperature that the user sets, so that the long-time movable zone of user reaches the comfortableness requirement.

Wherein, First preset temperature range is set is used to judge whether outdoor temperature is in extreme climate, when outdoor temperature belongs to extreme climate, adopt the mode of transitional region; The temperature of transitional region is controlled in second preset temperature range, thereby has guaranteed less indoor/outdoor temperature-difference.The number range that first preset temperature and second preset temperature can prestore for air-conditioner; Preferably; Also can be the number range that the user is provided with according to weather conditions, the mode that adopts the user to be provided with makes the control hommization more of air-conditioner, further improves the comfortableness of air-conditioner.

The air-conditioner system that adopts this embodiment to provide avoids on the one hand indoor/outdoor temperature-difference to cause user's (or indoor go out outdoor) suddenly cold and hot in outdoor inlet chamber too greatly, does not influence the user on the other hand and treats for a long time in the indoor comfort requirement.

Fig. 2 is the block diagram according to the air-conditioner system of the utility model second embodiment, and is as shown in Figure 2, and this air-conditioner system comprises: first air-conditioner 10 ', second air-conditioner 30 ' and control device 50.

The temperature that this air-conditioner system is regulated a plurality of zones through different air-conditioners, a plurality of zones here can be the each several part in the hall, for example each the sales counter zone in the market; Also can be a plurality of rooms in a building; Each room in the villa for example, wherein, first air-conditioner 10 ' be used to the regulate temperature of first area; Second air-conditioner 30 ' be used to the regulate temperature of second area; Wherein, the first area between outdoor area and second area is that the user passes in and out indoor transitional region, and second area is the long-time zone of action of user.50 pairs first air-conditioners 10 of control device ' with second air-conditioner 30 ' control and air-conditioner system embodiment illustrated in fig. 1 similar, no longer be repeated in this description here.

The air-conditioner system that adopts this embodiment to provide avoids on the one hand indoor/outdoor temperature-difference to cause user's (or indoor go out outdoor) suddenly cold and hot in outdoor inlet chamber too greatly, does not influence the user on the other hand and treats for a long time in the indoor comfort requirement.

To further describe the specific embodiment of control device in air-conditioner system below.

Fig. 3 is the block diagram according to the air-conditioner system control device of the utility model first embodiment, and is as shown in Figure 3, and this control device 50 comprises: detection module 51 is used to detect outdoor environment temperature; Judge module 53 is used to judge the relation between the outdoor environment temperature and first preset temperature range; And first control module 55; Be used for when outdoor environment temperature is not within first preset temperature range; The control air-conditioner system so that the temperature of first area in second preset temperature range, and the control air-conditioner system is so that the temperature of second area is the temperature of user setting, wherein; The transitional region that first area between outdoor area and second area is indoor for the user comes in and goes out, second area are the long-time movable zone of user.

In this embodiment, first preset temperature range is set and is used to judge whether outdoor temperature is in extreme climate, and the temperature difference that second preset temperature range is used to control first area and outdoor environment temperature is set.The air-conditioner system control device that adopts this embodiment to provide; When weather conditions are relatively more extreme; For example summer high temperature or winter severe cold weather; The temperature of guaranteeing transitional region avoids the user at the indoor suddenly cold and hot of coming in and going out in second preset temperature range, guarantees the comfortableness of the long-time zone of action of user simultaneously.

At public area, according to the characteristics of the long-time zone of action of most people, the zone that can transitional region is set to fix.In the individual activity place, for example in the villa or have in the individual resident family in a plurality of rooms, the long-time zone of action of user possibly change; Transitional region is also uncertain thus; Preferably, this control device 50 also comprises: first receiver module, and the zone that is used to receive user's input is provided with order; Wherein, the zone is provided with order and is used for selecting a zone as the first area in a plurality of zones; And determination module, be used for order being set and confirm the first area according to the zone.Through this preferred implementation, it is the first area that the user can set a certain zone freely, i.e. transitional region can further satisfy user's individual demand.

Because some people is relatively more responsive to variations in temperature, when indoor/outdoor temperature-difference is very little, will produce discomfort; Just otherwise some people can produce discomfort when then the temperature difference is very big,, give the user with comfortable experience in order to satisfy the hommization setting; Preferably, this control device 50 also comprises: second receiver module, and the transitional region temperature that is used to receive user's input is provided with order; Wherein, the transitional region temperature is provided with order and is used to be provided with second preset temperature range.Through this preferred implementation, the user can set the temperature of transitional region freely, can further satisfy user's individual demand.

Preferably; First control module 55 comprises: the first control submodule; Be used for when outdoor environment temperature during more than or equal to the maximum temperature in first preset temperature range, the control air-conditioner system is so that the temperature of first area is the maximum temperature in second preset temperature range; And the second control submodule, when being used for the minimum temperature when outdoor environment temperature is less than or equal to preset temperature range in, control air-conditioner system so that the first area temperature is the interior minimum temperature of second preset temperature range.

Adopt this preferred implementation, very hot at weather is that outdoor environment temperature is higher than maximum temperature T _MaxThe time, the control first area is that the temperature of transitional region is T ₁(i.e. maximum temperature in second preset temperature range, this temperature can be provided with in advance or confirmed by the user), extremely cold at weather is that outdoor environment temperature is lower than minimum temperature T _MinThe time, the control first area is that the temperature of transitional region is T ₂(i.e. minimum temperature in second preset temperature range, this temperature also can be provided with in advance or confirmed by the user) can guarantee transitional region in second preset temperature range, thereby guarantee the outdoor temperature difference that control mode is simple and reliable.

When outdoor environment temperature is within first preset temperature range; Can adopt existing control mode control air-conditioner system; Preferably, the control air-conditioner system is so that the temperature of first area changes with outdoor environment temperature, and this control device 50 also comprises: computing module; Be used for when outdoor environment temperature is within first preset temperature range, calculate transition temperature; And second control module, be used to control air-conditioner system so that the temperature of first area is a transition temperature, wherein, transition temperature adopts following formula calculating:

T=(T _Inspection-T _Min) * (T ₁-T ₂)/(T _Max-T _Min)+T ₂

Wherein, T is a transition temperature, T _InspectionBe outdoor environment temperature.

Adopt this preferred implementation, can make the first area is that the temperature of transitional region changes with outdoor environment temperature, regulates indoor temperature automatically, under any weather conditions, all reaches to keep the less requirement of indoor/outdoor temperature-difference.

Fig. 4 is the block diagram according to the air-conditioner system control device of the utility model second embodiment, and is as shown in Figure 4, and this control device comprises: temperature sensor module; Transitional region thermal module and task module.

When air-conditioner temperature was regulated automatically, temperature sensor module was obtained outdoor temperature in real time, so that as the foundation of regulating air-conditioner temperature.The outdoor temperature that the transitional region thermal module obtains according to the mandatory parameter and the temperature sensor module of user's setting calculates the temperature in the transitional region.Task module receives the temperature that calculates in the transitional region thermal module, and the running temperature as a running background task is managed air-conditioning automatically to reduce the frequent management of user, improves the efficiency of management.

Wherein, the adjustment mandatory parameter is set and comprises following parameter:

A. outdoor ceiling temperature: the outdoor maximum temperature that is provided with according to weather conditions, i.e. maximum temperature in first preset temperature range;

B. ceiling temperature between starter home: maximum temperature between the starter home that is provided with to outdoor ceiling temperature, should the zone when outdoor temperature that corresponding is reaches ceiling temperature in the temperature of air-conditioning setting, the i.e. maximum temperature of second preset temperature range;

C. outdoor lower limit temperature: according to the outdoor minimum temperature of weather conditions setting, the i.e. minimum temperature of first preset temperature range;

B. lower limit temperature between starter home: minimum temperature between the starter home that is provided with to the outdoor temperature lower limit, should the zone when outdoor temperature that corresponding is reaches lower limit temperature in the temperature of air-conditioning setting, the i.e. minimum temperature of second preset temperature range;

E. between starter home: can also can be divided into some air-conditioning equipments in certain room in the logic transitional region a room as a transitional region, so that centralized management is provided with according to self daily routines characteristic by the user.

In the transitional region thermal module, adopt following algorithm to obtain the transitional region temperature, and the control air-conditioner system is so that this transitional region temperature is the temperature that calculates:

A. during outdoor temperature＞=outdoor ceiling temperature, transitional region temperature=transitional region ceiling temperature;

B. during outdoor temperature＜=outdoor lower limit temperature, the temperature of transitional region=transitional region lower limit temperature;

During c. outdoor lower limit temperature＜outdoor temperature＜outdoor ceiling temperature:

(outdoor ceiling temperature-outdoor lower limit temperature)/(transitional region ceiling temperature-transitional region lower limit temperature)=(outdoor temperature-outdoor lower limit temperature)/(temperature of transitional region-transitional region lower limit temperature) is set,

That is: the temperature of transitional region=(outdoor temperature-outdoor lower limit temperature) * (transitional region ceiling temperature-transitional region lower limit temperature)/(outdoor ceiling temperature-outdoor lower limit temperature)+transitional region lower limit temperature

In this embodiment; Temperature sensor module is obtained outdoor temperature and together pass to the transitional region thermal module with mandatory parameter that the user is provided with in system; Mandatory parameter is as the indispensable parameter of transitional region thermal module; So that in this module, calculate the transitional region temperature; The transitional region temperature that the transitional region thermal module calculates passes to task module with user-selected transitional region equipment, and the task module backstage generates temperature and regulates task automatically, and the automatic control equipment temperature is provided with.

Particularly, the control device course of work that provides of this embodiment is exemplified below:

1. mandatory parameter is set:

Outdoor bound temperature is set: Tmin=32 ℃, Tmax=35 ℃,

Be provided with transitional region temperature: tmin=26 ℃, tmax=29 ℃;

2. selection transitional region: select a certain room as transitional region;

3. transitional region thermal module: according to the calculation of parameter transitional region temperature that is provided with; Fig. 5 is according to the sketch map that calculates transition temperature in the air-conditioner system control device of the utility model second embodiment, the transitional region example that the transitional region thermal module calculates:

A. when outdoor temperature is 33 ℃, transitional region is automatically made 27 ℃,

B. when outdoor temperature is 35 ℃, transitional region is automatically made 29 ℃,

C. when outdoor temperature is 34 ℃, transitional region is automatically made 28 ℃;

4. the transitional region temperature and the transitional region that calculate to the transitional region thermal module, the background task as shown in Figure 6 that task module generates, the user can select whether to activate this task.

5. when the user activation background task; Air-conditioning or split air conditioner that air-conditioner system can be regulated transitional region automatically are provided with temperature; So that the transitional region temperature is controlled, as shown in Figure 7, the doorway temperature is 34 ℃; The temperature that transitional region is set is 28 ℃, 25 ℃ of operations of target temperature that the user still sets according to the user in long-time movable zone.

Alternatively, according to the performance of air-conditioner and the actual working conditions of operation, when air-conditioner system heats and freeze, also mandatory parameter as shown in Figure 8 can be set:

Outdoor bound temperature is set: Tmin=-10 ℃, Tmax=30 ℃; Be provided with transitional region temperature: tmin=2 ℃, tmax=26 ℃, when heating, when outdoor temperature is time-5 ℃; Between outdoor bound temperature, transitional region is automatically made 5 ℃, during refrigeration; When outdoor temperature is 25 ℃, between outdoor bound temperature, transitional region is automatically made 23 ℃;

Outdoor bound temperature is set: Tmin=-12 ℃, Tmax=32 ℃; Be provided with transitional region temperature: tmin=3 ℃, tmax=28 ℃, when heating; When outdoor temperature is time-15 ℃, outside outdoor bound temperature, transitional region is automatically made 3 ℃; During refrigeration; When outdoor temperature is 35 ℃, outside outdoor bound temperature, transitional region is automatically made 28 ℃;

Introduce the control method of the air-conditioner system that this specific embodiment provides at last.

Figure 10 is the flow chart according to the air-conditioner system control method of the utility model first embodiment, and this air-conditioner system can be central air-conditioning, comprises a plurality of split air conditioners; Also can be used to regulate the temperature of first area and second area for comprising the system of a plurality of independent air-conditioners, the first area is between outdoor area and second area.Shown in figure 10, this control method comprises the steps that S102 is to step S106:

Step S102: detect outdoor environment temperature.

Step S104: judge that outdoor environment temperature is whether within first preset temperature range; Wherein, When outdoor environment temperature is not within first preset temperature range; Execution in step S106 continue to detect otherwise return step S102, correspondingly heats according to control method each air-conditioner of control of prior art or each split air conditioner simultaneously or freezes.

Step S106: the control air-conditioner system so that the temperature of first area in second preset temperature range, and the control air-conditioner system is so that the temperature of second area is the temperature of user setting.

In this embodiment, first preset temperature range is set and is used to judge whether outdoor temperature is in extreme climate, and the temperature difference that second preset temperature range is used to control first area and outdoor environment temperature is set.The air-conditioner system control method that adopts this embodiment to provide; Detect in real time outdoor environment temperature, when weather conditions are relatively more extreme, for example summer high temperature or winter severe cold weather; Outdoor environment temperature is outside first preset temperature range; The temperature of guaranteeing transitional region through step S106 avoids the user at the indoor suddenly cold and hot of coming in and going out in second preset temperature range, guarantees the comfortableness of the long-time zone of action of user simultaneously.

Figure 11 is the flow chart according to the air-conditioner system control method of the utility model second embodiment, and is shown in figure 11, and this control method comprises the steps that S201 is to step S209:

Step S201: detect outdoor environment temperature.

Step S203: compare outdoor environment temperature T _InspectionWith the first preset temperature range (T _Max～T _Min) between relation.

Step S205:T _Inspection＞(or=) T _MaxThe time, the control air-conditioner system is so that the temperature of first area is T ₁, and make the temperature of the temperature of second area for user's setting.

Step S207:T _Inspection＜(or=) T _MinThe time, the control air-conditioner system is so that the temperature of first area is T ₂, and make the temperature of the temperature of second area for user's setting.

Step S209:T _Min＜T _Inspection＜T _MaxThe time, calculate transition temperature, control air-conditioner system so that the temperature of first area is a transition temperature, and make the temperature of the temperature of second area for user's setting, wherein, adopt following formula to calculate:

T=(T _Inspection-T _Min) * (T ₁-T ₂)/(T _Max-T _Min)+T ₂

Wherein, T is a transition temperature, T _InspectionBe outdoor environment temperature.

Adopt this embodiment, the temperature of transitional region is associated with outdoor environment temperature, change, under any weather conditions, all can guarantee the temperature difference between transitional region and the outdoor environment temperature, do not influence user's comfortableness requirement simultaneously with outdoor temperature.

Need to prove that step S205 can be random order to step S209.

Preferably, this control method also comprises: the zone that receives user's input is provided with order, and wherein, the zone is provided with order and is used for selecting a zone as the first area in a plurality of zones; And according to the zone order is set and confirms the first area.Through this preferred implementation, it is the first area that the user can set a certain zone freely, i.e. transitional region can further satisfy user's individual demand.

From above description; Can find out; The utility model has been realized following technique effect: will be between outdoor area and second area the first area as the user by indoor transitional region to outdoor (or outdoor) to indoor; Control this regional temperature in preset temperature range,, avoid the user to pass in and out suddenly cold and hot when indoor so that indoor/outdoor temperature-difference is less; The zone of controlling the long-time activity of user simultaneously is the temperature of the temperature of second area for user's setting, has satisfied user's comfortableness requirement.

Need to prove; Can in computer system, carry out in the step shown in the flow chart of accompanying drawing such as a set of computer-executable instructions; And; Though logical order has been shown in flow chart, in some cases, can have carried out step shown or that describe with the order that is different from here.

Obviously, it is apparent to those skilled in the art that each module of above-mentioned the utility model or each step can realize with the general calculation device; They can concentrate on the single calculation element; Perhaps be distributed on the network that a plurality of calculation element forms, alternatively, they can be realized with the executable program code of calculation element; Thereby; Can they be stored in the storage device and carry out, perhaps they are made into each integrated circuit modules respectively, perhaps a plurality of modules in them or step are made into the single integrated circuit module and realize by calculation element.Like this, the utility model is not restricted to any specific hardware and software combination.

The preferred embodiment that the above is merely the utility model is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within the spirit and principle of the utility model, any modification of being done, be equal to replacement, improvement etc., all be included within the utility model protection domain.

Claims (6)

1. the control device of an air-conditioner system, wherein, said air-conditioner system is used to regulate the temperature of first area and second area, and said first area is characterized in that between outdoor area and said second area said device comprises:

Detection module is used to detect outdoor environment temperature;

Judge module is used to judge the relation between the said outdoor environment temperature and first preset temperature range; And

First control module; Be used for when said outdoor environment temperature is not within said first preset temperature range; Control said air-conditioner system so that the temperature of said first area in second preset temperature range, and is controlled said air-conditioner system so that the temperature that the temperature of said second area is set for the user.

2. the control device of air-conditioner system according to claim 1 is characterized in that, said first control module comprises:

The first control submodule is used for controlling said air-conditioner system so that the temperature of said first area is the interior maximum temperature of said second preset temperature range when said outdoor environment temperature during more than or equal to the maximum temperature in said first preset temperature range; And

The second control submodule when being used for the minimum temperature in said outdoor environment temperature is less than or equal to said first preset temperature range, is controlled said air-conditioner system so that the temperature of said first area is the minimum temperature in said second preset temperature range.

3. the control device of air-conditioner system according to claim 2 is characterized in that, also comprises:

Second control module is used for when said outdoor environment temperature is within said first preset temperature range, controlling said air-conditioner system so that the temperature of said first area is a transition temperature, and wherein, said transition temperature adopts following formula to calculate: T=(T _Inspection-T _Min) * (T ₁-T ₂)/(T _Max-T _Min)+T ₂, wherein, T is said transition temperature, T _InspectionBe said outdoor environment temperature, T ₁Be the maximum temperature in said second preset temperature range, T ₂Be the minimum temperature in said second preset temperature range, T _MaxBe the maximum temperature in said first preset temperature range, T _MinBe the minimum temperature in said first preset temperature range.

4. according to the control device of each described air-conditioner system in the claim 1 to 3, it is characterized in that said air-conditioner system is used to regulate the temperature in a plurality of zones, said device also comprises:

Receiver module, the zone that is used to receive user's input is provided with order to confirm said first area, and wherein, said zone is provided with order and is used for selecting a zone as said first area in said a plurality of zones.

5. air-conditioner system, wherein, said air-conditioner system is a central air-conditioning, it is characterized in that, comprising:

First split air conditioner, the temperature that is used to regulate the first area;

Second split air conditioner, the temperature that is used to regulate second area, wherein, said first area is between outdoor area and said second area; And

The control device of each described air-conditioner system in the claim 1 to 4.

6. an air-conditioner system is characterized in that, comprising:

First air-conditioner, the temperature that is used to regulate the first area;

Second air-conditioner, the temperature that is used to regulate second area, wherein, said first area is between outdoor area and said second area; And

The control device of each described air-conditioner system in the claim 1 to 4.

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