CN105091192A - Control device, control system and control method of indoor equipment - Google Patents

Abstract

The invention discloses a control device, a control system and a control method of indoor equipment. The control device comprises a detection module, an HMI (Human Machine Interface) and a wireless transmission module; the control device is used for receiving the setting on the operating mode of at least one indoor electronic device by a manager through the HMI, detecting various sensing numeric values under the environment where the control device is located through the detection module and receiving a sensing numeric value sent back by a slave sensing device in the same control system through the wireless transmission module; a control order is generated by the control device according to a setting parameter value which is set by the manager and the sensing numeric values under the environment where the control device is located, and the control order is sent to the indoor electronic device through the wireless transmission module, therefore, the indoor electronic device can operate according to the received control order, and the indoor environment can meet the demands of the manager.

Description

Indoor equipment control device, control system and control method

Technical field

The present invention relates to control device, control system and control method, particularly the control device of air-conditioning, control system and control method.

Background technology

In general, in order to make indoor environment more comfortable, user can arrange the indoor electronic equipment of one or multiple stage usually in indoor, to improve indoor environment in good time.

As shown in Figure 1, be the indoor electronic equipment remote-control schematic diagram of prior art.User can in indoor installing one air conditioner 11, total-heat exchanger 12 and a circulation fan 13.Wherein, this air conditioner 11 is in order to carry out refrigeration and to heat, to carry out the regulation and control of indoor temperature; This total-heat exchanger 12 in order to carry out indoor, outdoor air circulation regulation and control, with the cross-ventilation inside and outside generating chamber; This circulation fan 13 is in order to carry out the equal property regulation and control of temperature in space.

But, existing indoor electronic equipment is generally closed, respective independently control model, such as person shown in Fig. 1, this air conditioner 11 only manipulates by an air conditioner dedicated remote control 110, this total-heat exchanger 12 only manipulates by a total-heat exchanger dedicated remote control 120, and this circulation fan 13 only manipulates by circulation fan 13 dedicated remote control 130.In other words, user cannot directly manipulate all indoor electronic equipment by single control inerface, quite inconvenience.

Moreover the existing operation for indoor electronic equipment is quite loaded down with trivial details, user with after body-feeling room air, then must regulate and control indoor electronic equipment according to body sense, therefore easily has uncertainty.Moreover such mode of operation needs the function mode (such as adjusting the air quantity etc. of temperature height, total-heat exchanger) manually adjusting indoor electronic equipment at any time according to body sense, under indoor could be made to remain on comfortable state.Therefore, user also may because of operational inconvenience, the factor such as to be unfamiliar with, cause the acute variation of air quality in space, and cause the waste on the energy.

Summary of the invention

Main purpose of the present invention, be to provide a kind of control device of indoor equipment, control system and control method, can according to the control command of gerentocratic setting and environmental aspect automatic generating chamber inner electronic equipment, make indoor electronic equipment operate and meet manager's demand and under state comfortable again.

Another main purpose of the present invention, be to provide a kind of control device of indoor equipment, control system and control method, multiple contextual model can be provided to choose for manager, again according to imposing a condition in chosen contextual model, and the control command of sensing numerical value generating chamber inner electronic equipment at ambient, remove the puzzlement that manager needs the function mode of constantly manually adjustment indoor electronic equipment from.

For reaching above-mentioned purpose, the present invention discloses a kind of control device of indoor equipment, control system and control method, and wherein this control device comprises multiple detection module, a man-machine interface and a wireless transport module.This control device by this man-machine interface accept manager to the setting of the function mode of at least one indoor electronic equipment, by the plurality of detection module detect every sensing numerical value at ambient, and received the sensing numerical value of the subordinate sensing apparatus in same control system by this wireless transport module.This control device according to the setup parameter value set by manager and multinomial sensing numerical value at ambient produce a control instruction, and send this at least one indoor electronic equipment to by this wireless transport module.By this, this at least one indoor electronic equipment can operate according to this received control instruction, reaches gerentocratic demand to make indoor environment.

On the one hand, the invention provides a kind of control device of indoor equipment, comprising:

One detection module, testing environment situation also produces a sensing numerical value;

One man-machine interface, produces multiple setup parameter value;

One memory module, stores multiple contextual model, and described multiple contextual model corresponds to described multiple setup parameter value respectively;

One microprocessor, is electrically connected this detection module, this man-machine interface and this memory module, produces a control command according to described multiple setup parameter value; And

One wireless transport module, is electrically connected this microprocessor, transmits this control command to one electronic equipment and makes to operate;

Wherein, select one of them of described multiple contextual model, and directly adopt the chosen described multiple setup parameter values corresponding to this contextual model to produce this control command, and upgrade this control command according to described multiple setup parameter value and this sensing numerical value.

In an embodiment of the control device of indoor equipment of the present invention, this detection module comprises carbon dioxide (CO ₂) sensor, temperature sensor, humidity sensor, infrared ray sensor (IRsensor), light sensor (Lightingsensor), baroceptor (Airpressuresensor) and pneumatic sensor (Airflowsensor) at least one of them; This sensing numerical value be carbon dioxide value, Temperature numerical, humidity, radiant heat numerical value, illumination numerical value, the dirty number of degrees value of air and air mass flow numerical value at least one of them.

In another embodiment of the control device of indoor equipment of the present invention, this wireless transport module comprise Wi-Fi transport module, bluetooth (Bluetooth) transport module, Zigbee transmission module and radio frequency (RadioFrequency) transport module at least one of them.

In another embodiment of the control device of indoor equipment of the present invention, this chosen contextual model is made up of an elimination run time pattern, a main running time pattern and an autologous peace and quiet pattern, and described multiple setup parameter values that this elimination run time pattern, this main running time pattern and this autologous peace and quiet pattern are corresponding different respectively.

In another embodiment of the control device of indoor equipment of the present invention, the time at the beginning of this contextual model that the setting of this man-machine interface is chosen and an end time, described multiple setup parameter values corresponding to this elimination run time pattern are used in a period of time interval before this time started, described multiple setup parameter values corresponding to this main running time pattern were used between this end time in this time started, and described multiple setup parameter values corresponding to this autologous peace and quiet pattern are used in a period of time interval after this end time.

In another embodiment of the control device of indoor equipment of the present invention, this chosen contextual model is a conference model, this control command that this microprocessor produces according to the described multiple setup parameter values that this conference model is corresponding, comprises the cold air pattern of unlatching one indoor air conditioner and to set that air quantity is low air quantity, to set the ventilation frequency of a total-heat exchanger be low and air quantity is low air quantity, set the air quantity of an indoor circulation fan be low air quantity.

In another embodiment of the control device of indoor equipment of the present invention, this chosen contextual model is a lunch party report pattern, this control command that this microprocessor produces according to the described multiple setup parameter values that this lunch party report pattern is corresponding, comprises the cold air pattern of unlatching one indoor air conditioner and to set that air quantity is high air quantity, to set the ventilation frequency of a total-heat exchanger be high and air quantity is high air quantity, set the air quantity of an indoor circulation fan be high air quantity.

In another embodiment of the control device of indoor equipment of the present invention, this control command comprise the unlatching of this indoor electronic equipment or closedown, running rate adjustment, the operating frequency adjustment of compressor, temperature setting, wind speed setting and pattern setting at least one of them.

On the other hand, the invention provides a kind of control system of indoor equipment, comprising:

Multiple subordinate sensing apparatus, testing environment situation also produces a sensing numerical value;

One control device, respectively this sensing numerical value of multiple subordinate sensing apparatus described in wireless receiving, wherein this control device comprises:

One wireless transport module;

One man-machine interface, produces multiple setup parameter value;

One memory module, stores multiple contextual model, and described multiple contextual model corresponds to described multiple setup parameter value respectively; And

One microprocessor, is electrically connected this wireless transmission module, this man-machine interface and this memory module, produces a control command according to described multiple setup parameter value; And

One wireless transmission control device, is arranged in an indoor electronic equipment, and this control command of wireless receiving also makes this indoor electronic equipment adopt corresponding function mode according to this control command;

Wherein, select one of them of described multiple contextual model, and directly adopt the chosen described multiple setup parameter values corresponding to this contextual model to produce this control command, and upgrade this control command according to described multiple setup parameter value and this sensing numerical value.

In an embodiment of the control system of indoor equipment of the present invention, described multiple subordinate sensing apparatus comprises respectively:

At least one sensor, testing environment situation also produces this sensing numerical value;

One microprocessing unit, is electrically connected this at least one sensor; And

One wireless transmission unit, is electrically connected this microprocessing unit, returns this sensing numerical value with this control device line.

In another embodiment of the control system of indoor equipment of the present invention, this at least one sensor comprise carbon dioxide sensor, temperature sensor, humidity sensor, infrared ray sensor, light sensor, baroceptor and pneumatic sensor at least one of them; This sensing numerical value be carbon dioxide value, Temperature numerical, humidity, radiant heat numerical value, illumination numerical value, the dirty number of degrees value of air and air mass flow numerical value at least one of them.

In another embodiment of the control system of indoor equipment of the present invention, this control command comprise the unlatching of this indoor electronic equipment or closedown, running rate adjustment, the operating frequency adjustment of compressor, temperature setting, wind speed setting and pattern setting at least one of them; This indoor electronic equipment comprise indoor air conditioner, total-heat exchanger, indoor circulation fan and air cleaner at least one of them.

In another embodiment of the control system of indoor equipment of the present invention, this control device has at least one detection module, be electrically connected this microprocessor, testing environment situation also produces this sensing numerical value, and this at least one detection module be carbon dioxide sensor, temperature sensor, humidity sensor, infrared ray sensor, light sensor, baroceptor and pneumatic sensor at least one of them.

In another embodiment of the control system of indoor equipment of the present invention, this chosen contextual model is made up of an elimination run time pattern, a main running time pattern and an autologous peace and quiet pattern, and this elimination run time pattern, this main running time pattern and this autologous peace and quiet pattern correspond to different described multiple setup parameter values respectively.

In another embodiment of the control system of indoor equipment of the present invention, the time at the beginning of this contextual model that the setting of this man-machine interface is chosen and an end time, described multiple setup parameter values corresponding to this elimination run time pattern are used in a period of time interval before this time started, described multiple setup parameter values corresponding to this main running time pattern were used between this end time in this time started, and described multiple setup parameter values corresponding to this autologous peace and quiet pattern are used in a period of time interval after this end time.

Again on the one hand, the invention provides a kind of control method of indoor equipment, apply to a control system, this control system comprises a control device, multiple subordinate sensing apparatus and a wireless transmission control device, this wireless transmission control device is arranged in an indoor electronic equipment, and the control method of this indoor equipment comprises:

A) one of them of multiple contextual model selected by this control device, and wherein said multiple contextual model corresponds to multiple setup parameter value respectively;

B) the multiple sensing numerical value produced after multiple subordinate sensing apparatus testing environment situation described in wireless receiving;

C) the described multiple setup parameter values corresponding to this chosen contextual model are adopted to perform a calculation rule to calculate generation one control command;

D) this control command is transmitted to wireless transmission control device, to start this indoor electronic equipment; And

E) this calculation rule upgrades this control command according to described multiple setup parameter value and described multiple sensing numerical value, and transfers to this wireless transmission control device to adjust the function mode of this indoor electronic equipment.

In an embodiment of the control method of indoor equipment of the present invention, this chosen contextual model is made up of an elimination run time pattern, a main running time pattern and an autologous peace and quiet pattern, and this elimination run time pattern, this main running time pattern and this autologous peace and quiet pattern correspond to different described multiple setup parameter values respectively.

In another embodiment of the control method of indoor equipment of the present invention, this step a also comprises a step a1: the time at the beginning and the end time that set this contextual model; This step c to e specifically performs as following steps:

F) this elimination run time pattern is entered;

G) the secondary described multiple setup parameter values corresponding to pattern of this elimination run are adopted to perform this step c and this steps d;

H) before this time started not yet arrives, the secondary described multiple setup parameter values corresponding to pattern of this elimination run are adopted to continue to perform this step e;

I) this main running time pattern is entered after arriving in this time started;

J) after this step I, before this end time not yet arrives, the secondary described multiple setup parameter values corresponding to pattern of this main running are adopted to continue to perform this step e;

K) this autologous peace and quiet pattern is entered after arriving in this end time;

L) after this step k, before peace and quiet end time arrives, these described multiple setup parameter values corresponding to autologous peace and quiet pattern are adopted to continue to perform this step e; And

M), after arriving in this peace and quiet end time, a standby mode replied by this control device.

In another embodiment of the control method of indoor equipment of the present invention, this control command comprise the unlatching of this indoor electronic equipment or closedown, running rate adjustment, the operating frequency adjustment of compressor, temperature setting, wind speed setting and pattern setting at least one of them; This indoor electronic equipment comprise indoor air conditioner, total-heat exchanger, indoor circulation fan and air cleaner at least one of them.

In another embodiment of the control method of indoor equipment of the present invention, described multiple subordinate sensing apparatus comprise carbon dioxide sensor, temperature sensor, humidity sensor, infrared ray sensor, light sensor, baroceptor and pneumatic sensor at least one of them; This sensing numerical value be carbon dioxide value, Temperature numerical, humidity, radiant heat numerical value, illumination numerical value, the dirty number of degrees value of air and air mass flow numerical value at least one of them.

The present invention contrast effect that prior art can reach for, manager only needs to set single control device, get final product electronic equipments all in control room, as indoor air conditioner, total-heat exchanger and indoor circulation fan etc., solve the problem that traditional remote controller only can use one to one.

Moreover control device of the present invention incorporates multiple detection module, and control system also incorporates this control device and multiple subordinate sensing apparatus, and those detection modules and subordinate sensing apparatus can be used for testing environment situation produce multinomial sensing numerical value.This control device can produce the control command of those indoor electronic equipment, and according to the setup parameter value that manager sets, and multinomial this control command of sensing numerical value continuous updating.Therefore, even if manager's in addition manually adjustment, those indoor electronic equipment still can continued operation under the state meeting manager's demand.

Separately, control device of the present invention also provides one or more contextual model to select for manager, and wherein various contextual model corresponds to different setup parameter values respectively.This control device can control according to the setup parameter value of selected contextual model and adjust the function mode of those indoor electronic equipment.Thus, manager does not need to carry out complicated setting program, and the function mode of those indoor electronic equipment also can be allowed to meet required sight.

Accompanying drawing explanation

Fig. 1 is the indoor electronic equipment remote-control schematic diagram of prior art.

Fig. 2 is the first control system schematic diagram of the first specific embodiment of the present invention.

Fig. 3 is the second control system schematic diagram of the first specific embodiment of the present invention.

Fig. 4 is the subordinate sensing apparatus block diagram of the first specific embodiment of the present invention.

Fig. 5 is the control device block diagram of the first specific embodiment of the present invention.

Fig. 6 is the wireless transmission control device block diagram of the first specific embodiment of the present invention.

Fig. 7 is the contextual model running schematic diagram of the first specific embodiment of the present invention.

Fig. 8 is the contextual model run chart of the first specific embodiment of the present invention.

Fig. 9 is the contextual model run chart of the second specific embodiment of the present invention.

Figure 10 is the calculation rule calculation schematic diagram of the first specific embodiment of the present invention.

Wherein, description of reference numerals is as follows:

11 ... air conditioner

110 ... air conditioner dedicated remote control

12 ... total-heat exchanger

120 ... total-heat exchanger dedicated remote control

13 ... circulation fan

130 ... circulation fan dedicated remote control

2 ... control device

21 ... microprocessor

22 ... wireless transport module

23 ... power module

24 ... detection module

25 ... input module

26 ... display module

27 ... memory module

271 ... calculation rule

272 ... contextual model

28 ... far-end link module

3 ... subordinate sensing apparatus

31 ... microprocessing unit

32 ... wireless transmission unit

33 ... power unit

34 ... CO ₂sensor

35 ... temperature sensor

36 ... humidity sensor

37 ... infrared ray sensor

38 ... light sensor

39 ... baroceptor

310 ... pneumatic sensor

4 ... indoor electronic equipment

40 ... wireless transmission control device

401 ... main control unit

402 ... communication module

403 ... detection module

404 ... image module

405 ... sequence transmission module

406 ... mixed-media network modules mixed-media

41 ... indoor air conditioner

42 ... total-heat exchanger

43 ... indoor circulation is fanned

44 ... air cleaner

45 ... secure device

51 ... monitoring system

52 ... running gear

520 ... application program

6 ... manager

71 ... stepper motor

72 ... fan motor

73 ... off-premises station

S10 ~ S30 ... commissioning steps

S40 ~ S68 ... commissioning steps

S1 ... setup parameter value

V1 ... Temperature numerical

V2 ... humidity

V3 ... CO ₂numerical value

V4 ... illumination numerical value

V5 ... radiant heat numerical value

V6 ... the dirty number of degrees value of air

V7 ... air mass flow numerical value

F1 ... compressor operation frequency

F2 ... total-heat exchanger running rate

F3 ... indoor circulation fan operation mode

F4 ... air cleaner running rate

S10 ~ S30 ... step

S40 ~ S68 ... step

Detailed description of the invention

A hereby just preferred embodiment of the present invention, coordinates accompanying drawing, is described in detail as follows.

Head refers to Fig. 2 and Fig. 3, is respectively the first control system schematic diagram and the second control system schematic diagram of the first specific embodiment of the present invention.As shown in Figures 2 and 3, the control system (below referred to as this control system) of indoor equipment of the present invention mainly comprises the control device 2 (below referred to as this control device 2) of an indoor equipment, multiple subordinate sensing apparatus 3 and a wireless transmission control device 40.This wireless transmission control device 40 is arranged among an indoor electronic equipment 4, and more specifically, this indoor electronic equipment 4 configures this wireless transmission control device 40.In Fig. 3, this indoor electronic equipment 4 is with indoor air conditioner 41, total-heat exchanger (HeadRecoveryVentilator, HRV) 42, one indoor circulation fan 43, one air cleaner 44 or a secure device 45 illustrate, but are not limited.

This control system mainly applies to a specific region, among Huo Yidong building, a room.The plurality of subordinate sensing apparatus 3 and these control device 2 wireless connections, and the plurality of wireless transmission control device 40 also with these control device 2 wireless connections.The plurality of subordinate sensing apparatus 3 in order to detect environmental aspect at ambient produce every sensing numerical value, and be back to this control device 2.On the other hand, a manager (manager 6 as shown in Figure 5) can operate this control device 2, to set one or many required setup parameter value.This control device 2 can calculate according to this setup parameter value and those sensing numerical value and produce a control command, and wherein this control command is in order to control the function mode of this indoor electronic equipment 4.This control command is transferred to this wireless transmission control device 40 by this control device 2, and this indoor electronic equipment 4 can adopt corresponding function mode according to this control command by this, and running is in the demand meeting this manager 6, is again the state of the most comfortable simultaneously.

It is worth mentioning that, after this indoor electronic equipment 4 comes into operation, its parameters at ambient, as temperature, humidity etc. all can change.Therefore, the plurality of subordinate sensing apparatus 3 continues to detect and provides those sensing numerical value to this control device 2, this this control command of control device 2 sustainable renewal by this, to make this indoor electronic equipment 2 under the prerequisite not violating this manager 6 demand, function mode is finely tuned (such as increase/downgrade the temperature of this indoor air conditioner 41, adjust the air quantity etc. of this total-heat exchanger 42), with the state making environmental aspect can remain on the most comfortable.

This control device 2, also can by this indoor electronic equipment 4 receiving unit information except transmitting this control command to this indoor electronic equipment 4.Such as shown in Fig. 3, this indoor electronic equipment 4 can comprise this secure device 45, and this secure device 45 can be such as an imaging monitoring device or a smoke sensing device etc.Occur when this secure device 45 has found state, such as, when indoor have dense smoke to produce, this control device 2 can be carried the information to.In in the case, this control device 2 can upgrade this control command according to this information, and makes other this indoor electronic equipment 4 operate, such as, control this total-heat exchanger 42 and fan 43 standard-sized sheets with this indoor circulation, and air quantity is high air quantity, so as to getting rid of dense smoke as early as possible.

Consulting Fig. 4, is the subordinate sensing apparatus block diagram of the first specific embodiment of the present invention.The plurality of subordinate sensing apparatus 3 comprises microprocessing unit 31, wireless transmission unit 32, power unit 33 and an at least one sensor respectively, wherein this microprocessing unit 31 is electrically connected this wireless transmission unit 32, this power unit 33 and this at least one sensor, in order to process and to integrate instruction and the signal of this wireless transmission unit 32, this power unit 33 and this at least one sensor.

This at least one sensor is in order to detect the environmental aspect of this genus sensing apparatus 3 and to produce those sensing numerical value.The content of those sensing numerical value and quantity, correspond to type and the quantity of this at least one sensor.In the present embodiment, this at least one sensor mainly can comprise a carbon dioxide (CO ₂) sensor 34, temperature sensor 35, humidity sensor 36, infrared ray (IR) sensor 37, light sensor 38, air pressure (Airpressure) sensor 39 and an air-flow (Airflow) sensor 310 at least one of them, those sensing numerical value then can be carbon dioxide value, Temperature numerical, humidity, radiant heat numerical value, illumination numerical value, the dirty number of degrees value of air and air mass flow numerical value at least one of them, be not limited.

This power unit 33 can be power conversion unit or battery, operates required electric power in order to provide this subordinate sensing apparatus 3.This wireless transmission unit 32, in order to set up radio connecting with this control device 2, returns to this control device 2 so as to those sensing numerical value this at least one sensor being detected gained.Wherein, the plurality of subordinate sensing apparatus 3 continues to detect those sensing numerical value, and timing, regularly returns to this control device 2, or, also can trigger in special event, such as at a certain sensing numerical value more than returning to this control device 2 during a threshold value again.

Consulting Fig. 5, is the control device block diagram of the first specific embodiment of the present invention.This control device 2 of the present invention mainly comprises microprocessor 21, wireless transport module 22, power module 23, detection module 24, man-machine interface 25, far-end link module 26 and a memory module 27, and wherein this microprocessor 21 is electrically connected this wireless transport module 22, this power module 23, this detection module 24, this man-machine interface 25, this far-end link module 26 and this memory module 27.

In the present embodiment, this control device 2 can be considered as this subordinate sensing apparatus 3 that has controlling functions.Specifically, this control device 2 can built-in this detection module 24 one or more, and this detection module 24 can detect the environmental aspect of this control device 2 place environment, and produces one or many this sensing numerical value.Thus, this control device 2, when producing this control command, can consider those sensing numerical value that the plurality of subordinate sensing apparatus 3 returns and this sensing numerical value that this detection module 24 produces simultaneously.And identical with the plurality of subordinate sensing apparatus 3, this detection module 24 also can comprise carbon dioxide sensor, temperature sensor, humidity sensor, infrared ray sensor, light sensor, baroceptor and pneumatic sensor at least one of them.This sensing numerical value that this detection module 24 produces, also can be carbon dioxide value, Temperature numerical, humidity, radiant heat numerical value, illumination numerical value, the dirty number of degrees value of air and air mass flow numerical value at least one of them.

This power module 23 can be power switching module or battery, operates required electric energy in order to provide this control device 2.

This man-machine interface 25 is main in order to accept the operation of this manager 6, and produces a setup parameter value according to this operation, and in other words, this setup parameter value corresponds to the demand of this manager 6.For example, this manager 6 can set this indoor air conditioner 41 via this man-machine interface 25 and start, and sets indoor temperature; Again such as, this indoor circulation fan 43 can be set and start, and set air quantity.This control device 2, in time producing this control command, with reference to the content of this setup parameter value, can be able to operate under the state meeting this manager 6 demand to make this indoor electronic equipment 4.

In Fig. 5, this man-machine interface 25 mainly to be arranged in pairs or groups a display module 252 for an input module 251, this manager 6 by the operating state this display module 252 being inquired about those sensing numerical value and this indoor electronic equipment 4, and can operate this control device 2 by this input module 251.This input module 251 can be such as mainly keyboard, slide-mouse, Trackpad, image identification device or speech input device etc., this display module 252 can be light-emittingdiode (LightEmittingDiode, LED) module or liquid crystal display (LiquidCrystalDisplay, LCD) module etc.But in another embodiment, the touch control screen that this man-machine interface 25 can also be single realizes, but is not limited.

This control device 2 sets up radio connecting by this wireless transport module 22 with the plurality of subordinate sensing apparatus 2, so as to receiving those sensing numerical value of the plurality of subordinate sensing apparatus 2 passback.And, this control device 2 also sets up radio connecting by this wireless transport module 22 with this wireless transmission control device 40 in this indoor electronic equipment 4, so as to transmitting this control command to this wireless transmission control device 40, corresponding function mode can be adopted according to this received control command to make this indoor electronic equipment 4.

In the present embodiment, this wireless transport module 22 mainly can comprise Wi-Fi transport module, bluetooth (Bluetooth) transport module, Zigbee transmission module and radio frequency (RadioFrequency) transport module at least one of them, but not to be limited.And depending on the transfer protocol that this control system adopts, this control device 2 can built-in one or this wireless transport module 22 organized more.In other words, this control device 2 sets up line with the plurality of subordinate sensing apparatus 3 and this wireless transmission control device 40 by one group of this wireless transport module 22 simultaneously, or sets up line with the plurality of subordinate sensing apparatus 3 and this wireless transmission control device 40 respectively by organizing this wireless transport module 22 more.

As shown in Figure 3, this indoor electronic equipment 4 can be different types, therefore the content of numerical value is sensed depending on this setup parameter value and those, this control command that this control device 2 produces also can be different contents, such as can be the unlatching of this indoor electronic equipment 4 or closedown, running rate adjustment, the operating frequency adjustment of compressor (figure does not indicate), temperature setting, wind speed setting and pattern setting at least one of them.By this, after this indoor electronic equipment 4 receives this control command, i.e. the function mode of adjustable self, to meet the demand of this manager 6, remains on the state of the most comfortable with seasonal environmental aspect.

Store a calculation rule 271 in this memory module 27, this calculation rule 271 mainly runs the firmware of specific algorithm.This microprocessor 21 mainly senses numerical value to perform this calculation rule 271 according to this setup parameter value received and those, is calculated and produce this control command by this calculation rule 271.This calculation rule 271, when calculating this control command, can consider this setup parameter value and those sensing numerical value, with this control command of optimization simultaneously.

For example, if it is 25 degree that this manager 6 sets indoor temperature, then this control command that this calculation rule 271 produces makes this indoor air conditioner 41 can adjust temperature to 25 degree.But, if those sensing numerical value point out that the humidity in current environment is higher, then easily feel a sense of cold because of the body LC of mankind during humidity height, therefore this calculation rule 271 can sense according to those content that numerical value finely tunes this control command, makes this indoor air conditioner 41 only adjust temperature to 26 degree.And when humidity is higher, even if this manager 6 is in the room temperature of 26 degree, the temperature of about 25 degree still can be experienced.Thus, not only can reach the demand of this manager 6, also can play the usefulness of power saving simultaneously.

This far-end link module 26 mainly can be used to connect this control device 2 and at least one external device (ED), and such as, shown in Fig. 5, this control device 2 by this far-end link module 26 connection network internet, and passes through world-wide web line one monitoring system 51.This manager 6 can operate this monitoring system 51, with watch in far-end this control system information at ambient, and far-end operation is carried out to this control system.Such as, this control system can be arranged in one of them room in a building, and this monitoring system 51 then can be the exchange control system in this building.In the present embodiment, this far-end link module 26 can be such as a RJ-45 connector, and this control device 2 by this far-end link module 26 grafting grid line, and is connected to world-wide web by this grid line.In another embodiment, this far-end link module 26 also can be such as a RS-485 Port, and this control device 2 directly connects this monitoring system 51 in a wired fashion by this far-end link module 26, but is not limited.

Moreover this manager 6 also can in far-end operation one running gear 52, and the application program 520 performed in this action device 52 is to link to this control device 2.This control system (this control device 2) after the sequence number of the identity or this application program 520 that demonstrate this manager 6, can judge whether this manager 6 possesses setting authority.If this control system confirms that this manager 6 has setting authority, then this manager 6 can directly in this application program 520 of far-end operation, to set to this control system.

In the present invention, this memory module 27 mainly can store multiple contextual models 272 and select for this manager 6, and such as conference model, lunch party report pattern, lunch break pattern etc., be not limited.Respectively this contextual model 272 is set in advance, to correspond to this setup parameter value of one or many respectively.Thus, this manager 6 only needs according to selecting one of them of the plurality of contextual model 272 needed for reality, this calculation rule 271 can be made to adopt corresponding setup parameter value to produce this control command, therefore this manager 6 manually need not set required every setup parameter value, eliminate complicated setting program.

For example, if having selected conference model, then because of meeting carry out in emphatically quiet, the content that therefore this control command gives this indoor air conditioner 41 can such as comprise opens cold air pattern, room temperature 27 degree and the low air quantity of air quantity; It is low air quantity that the content giving this total-heat exchanger 42 such as can comprise the low and air quantity of ventilation frequency; And the content giving this indoor circulation fan 43 such as can comprise the low air quantity of air quantity.Again such as, if having selected a lunch party report pattern, then because of lunch party report carry out in easily have that peculiar smell produces, the more room temperature of number easily rises but do not need too quiet.Therefore, the content that this control command gives this indoor air conditioner 41 can such as comprise opens cold air pattern, room temperature 25 degree and air quantity height air quantity; The content giving this total-heat exchanger 42 such as can comprise the high and air quantity height air quantity of ventilation frequency; And giving the content of this indoor circulation fan 43, such as can to comprise air quantity be high air quantity.But the above is all only preferred embodiments of the present invention, should as limit.

Consulting Fig. 6, is the wireless transmission control device block diagram of the first specific embodiment of the present invention.For this indoor air conditioner 41, this indoor air conditioner 41 mainly can have the independently element such as controller (figure do not indicate), stepper motor (Steppingmotor) 71 and fan motor (BLDCFANmotor) 72, and be connected to an off-premises station 73, this manager 6 can use dedicated remote control as shown in Figure 1 to control this indoor air conditioner 41.Control system of the present invention will be built in this indoor air conditioner 41 in this wireless transmission control device 40, this control command that this control device 2 of wireless receiving transmits, and corresponding control is carried out to this stepper motor 71, this fan motor 72, this off-premises station 73 and other inner members, to make this indoor air conditioner 41 can operate in the demand meeting this manager 6, and under the state of the most comfortable, power saving again.

As shown in Figure 6, this wireless transmission control device 40 mainly comprises main control unit 401, communication module 402, detection module 403, image module 404, sequence transmission module 405 and a mixed-media network modules mixed-media 406, and wherein this main control unit 401 is electrically connected this communication module 402, this detection module 403, this image module 404, this sequence transmission module 405 and this mixed-media network modules mixed-media 406.This communication module 402 sets up wireless connections with this control device 2, and so as to receiving this control command that this control device 2 transmits, and this main control unit 401 can manipulate this indoor air conditioner 41 according to this control command.This mixed-media network modules mixed-media 406 is in order to connection network internet, and this manager 6 can directly manipulate this indoor air conditioner 41 via world-wide web equally, and must not pass through this control device 2.

This detection module 403 and this image module 404 can the place environment of this indoor air conditioner 41 of simple detection, and then perform corresponding adjustment.This sequence transmission module 405 in order to connect this off-premises station 73, and transmits this control command to this off-premises station 73, such as, adjust the operating frequency of compressor.By the setting of this wireless transmission control device 40, this indoor air conditioner 41, also can by this control device 2 except operating by dedicated remote control, and this carried above monitoring system 51 and this action device 52 control.

Consulting Fig. 7, is the contextual model running schematic diagram of the first specific embodiment of the present invention.In the present embodiment, this manager 6 sets this setup parameter value by this man-machine interface 25, or one of them of the plurality of contextual model 272 can directly selecting this control device 2 to provide, directly adopts setup parameter value corresponding to the contextual model 272 selected to produce this control command to make this control device 2.Wherein, this chosen contextual model 272 (such as conference model) mainly can be made up of an elimination run time pattern, a main running time pattern and an autologous peace and quiet pattern, wherein, this elimination run time pattern is used in a period of time interval mainly before the time started of pattern, this main running time pattern is mainly used within the time started of pattern, and is used in this autologous peace and quiet pattern a period of time interval mainly after the end time of pattern.In other embodiments, this contextual model 272 also can only be made up of this main running time pattern and this autologous peace and quiet pattern, or can be made up of four or more pattern, is not limited.

For that shown in Figure 7, if having selected conference model, then namely this control device 2 can enter this elimination run time pattern under this contextual model 272 before a conference begins for N minute, and adopts one or many this setup parameter value of this elimination run time corresponding to pattern.Because now personnel not yet carry out meeting room, CO ₂content is not high, therefore under this elimination run time pattern, only can control this indoor air conditioner 41 and open, and this total-heat exchanger 42 and this indoor circulation fan 43 can be opened, to save electric power.The object entering this elimination run time pattern is to adjust in advance the environment of meeting room, can not feel sultry when the person of making us enters meeting room.

Arrive when the time of meeting, or the plurality of subordinate sensing apparatus 3 senses personnel when entering, namely this control device 2 enters this main running time pattern under this contextual model 272, and adopts one or many this setup parameter value of this main running time corresponding to pattern.This control device 2 can according to this setup parameter value, and those sensing numerical value adjust the temperature of this indoor air conditioner 41.Meanwhile, because personnel enter rear CO ₂content starts to improve, therefore as those sensing numerical value displays CO ₂during too high levels, this control device 2 can control this total-heat exchanger 42 and fan 43 with this indoor circulation and start, and the air exchange of drive indoor and outdoor, to get rid of the CO in meeting room ₂.Meanwhile, the air exchange because of indoor and outdoor makes cold/hot-air enter in meeting room, therefore when the temperature in those sensing numerical value display conference rooms is too low/high, namely this control device 2 finely tunes the temperature of this indoor air conditioner 41 again.It is worth mentioning that, the CO in those sensing numerical value display conference rooms ₂when content has been reduced to certain threshold value, this control device 2 can control this total-heat exchanger 42 and cuts out or reduce running rate, to save electric power.

Finally, terminate when the time of meeting, or the plurality of subordinate sensing apparatus 3 senses after personnel leave totally, this control device 2 can enter this autologous peace and quiet the pattern under this contextual model 272.Now, this indoor circulation fan 43 is closed by this control device 2, and under continuing to make this indoor air conditioner 41 and this total-heat exchanger 42 to operate the pattern of foul atmosphere in applicable removing meeting room and peculiar smell.Until after fulfiling assignment, this control device 2 controls whole system shutdown or returns back to holding state.

The foregoing is only a preferred embodiments of the present invention, this control device 2 of the present invention is real can provide multiple this different contextual model 272 to select for this manager 6, different contextual models 272 can correspond to different setup parameter values, and be made up of the secondary pattern of varying number, and need the type of this indoor electronic equipment 4 of On/Off/adjustment and quantity may be all different, depending on actual required, should not be limited with above-mentioned person.

Consulting Fig. 8, is the contextual model run chart of the first specific embodiment of the present invention.First, this manager 6 need operate this man-machine interface 25, this monitoring system 51 or this action device 52, to select the plurality of contextual model 272 one of them (step S10).Then, time at the beginning and an end time (step S12) of this contextual model 272 (such as conference model) is set further.

Before this time started not yet arrives, this control system is mainly shut down or is operated on a standby mode (step S14).Then, this control device 2 judges whether to arrive N minute (step S16) before this time started, if so, enters this elimination run time pattern (step S18) in this selected contextual model 272; If not, then this standby mode is remained on.This step S16 depends on this setup parameter value corresponding to this contextual model 272 of selecting, such as this contextual model 272 can be set to not comprise this elimination run time pattern, or being set to arrive in this time started enters this elimination run time pattern for first 15 minutes or 30 minutes, be not limited.After entering this elimination run time pattern, namely this control device 2 adopts secondary one or many this setup parameter value corresponding to pattern of this elimination run, coordinates those sensing numerical value to calculate and produces this control command.

The object entering this elimination run time pattern to allow place environment enter situation ahead of time, when this time started arrives, can directly enter the state that this manager 6 wants to make place environment.This control device 2 continues to judge whether this time started arrives (step S20), if not, remains on this elimination run time pattern; If so, this main running time pattern (step S22) in this selected contextual model 272 is then entered.After entering this main running time pattern, namely this control device 2 changes into and adopts secondary one or many this setup parameter value corresponding to pattern of this main running, coordinates those sensing numerical value to calculate and produces this control command.

The object entering this main running time pattern is will in the time range of this manager 6 setting, allows place environment maintain this state needed for manager 6.For example, need to keep quite with comfortable under conference model simultaneously; Need to strengthen cross-ventilation to get rid of foreign flavor indoors rapidly under lunch party report pattern; Under lunch break pattern, temperature slowly need be heightened etc. by low temperature.And when entering this main running time pattern, this control device 2 continues to judge whether this end time arrives (step S24), if not, the secondary pattern of this main running is remained on; If so, this autologous peace and quiet the pattern (step S26) in this selected contextual model 272 is then entered.After entering this autologous peace and quiet pattern, namely this control device 2 changes one or many this setup parameter value adopting this corresponding to autologous peace and quiet pattern into, coordinates those sensing numerical value to calculate and produces this control command.

The object entering this autologous peace and quiet pattern is the state before place environment restoration will be allowed to use, such as, recover normal room temperature, remove foreign flavor indoors etc. completely.This control device 2 then judges whether a stand-by time arrives, or whether this end time is more than M minute (step S28), if so, the then shutdown of this control system or reply standby mode (step S30); If not, then this autologous peace and quiet pattern is remained on.

Consulting Fig. 9, is the contextual model run chart of the second specific embodiment of the present invention.Fig. 9 is Fig. 8 further detailed process.First, this control device 2 accepts the operation (step S40) of this manager 6, to set this setup parameter value.Specifically, this control device 2 can judge whether this manager 6 have selected the plurality of contextual model 272 one of them (step S42).If not, represent that this manager 6 is for manual setting, therefore this control device 2 provides corresponding setting menu (figure does not indicate) by this man-machine interface 25, and receives this setup parameter value (step S44) of the manual input of this manager 6.If this manager 6 directly selects the plurality of contextual model 272 one of them, then this control device 2 is according to by this contextual model 272 selected, and directly adopts one or many corresponding this setup parameter value.

It is worth mentioning that, this detection module 24 in this control device 2 detects at any time, and the plurality of subordinate sensing apparatus 3 also can detect at any time, and keeps the line with this control device 2.Therefore real can the putting in any time of this control device 2 receives those sensing numerical value.

In the present embodiment, this control device 2 mainly can first according to this setup parameter value corresponding to this contextual model 272 of selecting to perform this calculation rule 271, produce this control command to calculate, and this control command is transferred to this wireless transmission control device 40 to start this indoor electronic equipment 4.Along with the process of time, those sensing numerical value of the sustainable reception of this control device 2, and then this calculation rule 271 can upgrade this control command according to this setup parameter value and those sensing numerical value, and transfer to this wireless transmission control device 40 to adjust the function mode of this indoor electronic equipment.

It is worth mentioning that, this calculation rule 271, after calculating, may draw more than one control command that can reach same effect, therefore, this calculation rule 271 can select the scheme of power saving the most from multiple control command, or the scheme concerning this manager 6 body sense the best.For example, to make room temperature downgrade 25 degree, then when only possessing this indoor circulation fan 43, except need opening this indoor circulation fan 43, the operating frequency of the compressor significantly promoting air-conditioning is also needed just can to achieve the goal; But, when having five this indoor circulation fans 43, if opened by five this indoor circulation fans 43 totally, then do not need the operating frequency of the compressor significantly promoting air-conditioning also can achieve the goal.In this embodiment, this calculation rule 271 will select the scheme of comparatively power saving to produce this control command, adopts corresponding function mode to make this indoor electronic equipment 4.By control method of the present invention, can reach simultaneously meet this manager 6 demand, make place environment remain on the most comfortable state and three advantages such as power saving the most.Moreover, by the selection of this contextual model 272, the additional advantage making manager 6 manually set also can be reached.

Get back to Fig. 9, after this manager 6 have selected this contextual model 272, this control device 2 can accept this manager 6 further and set this time started and this end time (step S46).When a special time before this time started arrives, this control device 2 enters by time pattern (step S48) of this elimination run in this contextual model 272 of selecting.

After entering this elimination run time pattern, this control device 2 can produce this control command, to start this indoor electronic equipment 4 (step S50) according to one or many this setup parameter value corresponding to this elimination run time pattern.Such as: 1. control this indoor air conditioner 41 start, enter cold air pattern, design temperature 27 degree, setting air quantity be high air quantity, open peace and quiet function; 2. this total-heat exchanger 42 of control starts, setting it need according to CO ₂change in concentration determines operation mode, setting ventilation air quantity is weak; 3. controlling this indoor circulation fan 43 startup, setting air quantity is high air quantity; 4. this air cleaner 44 of control starts, sets its running rate is moderate grade etc.

In the implementation of this elimination run time pattern, those sensing numerical value of this control device 2 continuous reception, and according to one or many this setup parameter value corresponding to this elimination run time pattern, this control command is upgraded, to adjust the function mode (step S52) of this indoor electronic equipment 4 in conjunction with those sensing numerical value.Such as: 1. according to the operating frequency of this setup parameter value, humidity, Temperature numerical, carbon dioxide value, the dirty number of degrees value of air and air mass flow value revision compressor; 2. according to operation mode and the air quantity of this setup parameter value, humidity, Temperature numerical and this total-heat exchanger 42 of carbon dioxide value correction; 3. according to the rotating speed of this setup parameter value, humidity, Temperature numerical and this indoor circulation of air mass flow value revision fan 43; 4. according to the running rate etc. of this setup parameter value and this air cleaner 44 of air dirt degree value revision.

Meanwhile, this control device 2 continues to judge whether this time started arrives (step S54), if this time started not yet arrives, then gets back to this step S52, this control command of continuous updating; If this time started arrives, then enter this main running time pattern (step S56).

In the implementation of this main running time pattern, this control device 2 continues according to one or many this setup parameter value corresponding to this main running time pattern, this control command is upgraded, to adjust the function mode (step S58) of this indoor electronic equipment 4 in conjunction with those sensing numerical value.Such as, the air quantity that can control this indoor electronic equipment 4 be low air quantity with noise-decreasing, or estimate personnel activity's pattern of the interior space according to illumination numerical value, radiant heat numerical value etc., and then the operating frequency of compressor finely tuned etc.

This control device 2 continues to judge whether this end time arrives (step S60), if this end time not yet arrives, then gets back to this step S58, this control command of continuous updating; If this end time arrives, then enter this autologous peace and quiet pattern (step S62).

In the implementation of this autologous peace and quiet pattern, this control device 2 continues according to one or many this setup parameter value corresponding to this autologous peace and quiet pattern, this control command is upgraded, to adjust the function mode (step S64) of this indoor electronic equipment 4 in conjunction with those sensing numerical value.Such as, switch the operating mode of this total-heat exchanger 42, and improve air quantity to remove foreign flavor indoors fast.Meanwhile, this control device 2 continues to judge whether this stand-by time arrives (step S66), if this stand-by time not yet arrives, then gets back to this step S64, this control command of continuous updating; If this stand-by time arrives, then return back to this standby mode (step S68).

Consulting Figure 10, is the calculation rule calculation schematic diagram of the first specific embodiment of the present invention.This manager 6 is mainly by manually inputting or selecting one group of this contextual model 272, to set a setup parameter value S1.The plurality of subordinate sensing apparatus 3 and this detecting pattern 24 mainly can provide multinomial environment numerical value, such as Temperature numerical V1, humidity V2, carbon dioxide value V3, illumination numerical value V4, radiant heat numerical value V5, air dirty number of degrees value V6 and air mass flow numerical value V7 etc.And it is different from kind according to the quantity of this indoor electronic equipment 4, this calculation rule 271 produces this control command, mainly may correspond to a compressor operation frequency F1, a total-heat exchanger running rate F2, indoor circulation fan operation mode F3 and an air cleaner running rate F4 etc., but be not limited.

As shown in Figure 10, this calculation rule 271, when calculating this compressor operation frequency F1, mainly need consider this setup parameter value S1, this Temperature numerical V1, this humidity V2, this carbon dioxide value V3, this illumination numerical value V4, this radiant heat numerical value V5, the dirty number of degrees value V6 and this air mass flow numerical value V7 of this air; When calculating this total-heat exchanger running rate, then need to consider the dirty number of degrees value V6 of this setup parameter value S1, this Temperature numerical V1, this humidity V2 and this air; When calculating this indoor circulation fan operation mode F3, this setup parameter value S1, this Temperature numerical V1, this humidity V2, this carbon dioxide value V3 and this air mass flow numerical value V7 need be considered; And when calculating this air cleaner running rate F4, then need to consider the dirty number of degrees value V6 of this setup parameter value S1, this illumination numerical value V4, this radiant heat numerical value V5 and this air etc.But above be only preferred embodiments of the present invention, should as limit.

Pass through the present invention, this control device 2 can under the specification of this manager 6 setting, content according to sensing numerical value carries out optimized adjustment to this indoor electronic equipment 4, make this indoor electronic equipment 4 can when not violating the demand of this manager 6, place environment is made to reach the state of the most comfortable, with the function mode power saving the most of this indoor electronic equipment 4 in season, for this manager 6, reality is when convenient.

The foregoing is only preferred embodiments of the present invention, non-ly therefore namely limit to the scope of the claims of the present invention, therefore the equivalence change of such as using content of the present invention to do, be all in like manner all included within the scope of the present invention, close and give Chen Ming.

Claims (20)

1. a control device for indoor equipment, comprising:

One detection module, testing environment situation also produces a sensing numerical value;

One man-machine interface, produces multiple setup parameter value;

One memory module, stores multiple contextual model, and described multiple contextual model corresponds to described multiple setup parameter value respectively;

One microprocessor, is electrically connected this detection module, this man-machine interface and this memory module, produces a control command according to described multiple setup parameter value; And

One wireless transport module, is electrically connected this microprocessor, transmits this control command to one electronic equipment and makes to operate;

Wherein, select one of them of described multiple contextual model, and directly adopt the chosen described multiple setup parameter values corresponding to this contextual model to produce this control command, and upgrade this control command according to described multiple setup parameter value and this sensing numerical value.

2. the control device of indoor equipment according to claim 1, wherein this detection module comprise carbon dioxide sensor, temperature sensor, humidity sensor, infrared ray sensor, light sensor, baroceptor and pneumatic sensor at least one of them; This sensing numerical value be carbon dioxide value, Temperature numerical, humidity, radiant heat numerical value, illumination numerical value, the dirty number of degrees value of air and air mass flow numerical value at least one of them.

3. the control device of indoor equipment according to claim 1, wherein this wireless transport module comprise Wi-Fi transport module, Bluetooth communication modules, Zigbee transmission module and radio frequency transmission module at least one of them.

4. the control device of indoor equipment according to claim 1, this wherein chosen contextual model is made up of an elimination run time pattern, a main running time pattern and an autologous peace and quiet pattern, and described multiple setup parameter values that this elimination run time pattern, this main running time pattern and this autologous peace and quiet pattern are corresponding different respectively.

5. the control device of indoor equipment according to claim 4, wherein this man-machine interface sets time at the beginning and an end time of this chosen contextual model, described multiple setup parameter values corresponding to this elimination run time pattern are used in a period of time interval before this time started, described multiple setup parameter values corresponding to this main running time pattern were used between this end time in this time started, and described multiple setup parameter values corresponding to this autologous peace and quiet pattern are used in a period of time interval after this end time.

6. the control device of indoor equipment according to claim 1, this wherein chosen contextual model is a conference model, this control command that this microprocessor produces according to the described multiple setup parameter values that this conference model is corresponding, comprises the cold air pattern of unlatching one indoor air conditioner and to set that air quantity is low air quantity, to set the ventilation frequency of a total-heat exchanger be low and air quantity is low air quantity, set the air quantity of an indoor circulation fan be low air quantity.

7. the control device of indoor equipment according to claim 1, this wherein chosen contextual model is a lunch party report pattern, this control command that this microprocessor produces according to the described multiple setup parameter values that this lunch party report pattern is corresponding, comprises the cold air pattern of unlatching one indoor air conditioner and to set that air quantity is high air quantity, to set the ventilation frequency of a total-heat exchanger be high and air quantity is high air quantity, set the air quantity of an indoor circulation fan be high air quantity.

8. the control device of indoor equipment according to claim 1, wherein this control command comprise the unlatching of this indoor electronic equipment or closedown, running rate adjustment, the operating frequency adjustment of compressor, temperature setting, wind speed setting and pattern setting at least one of them.

9. a control system for indoor equipment, comprising:

Multiple subordinate sensing apparatus, testing environment situation also produces a sensing numerical value;

One control device, respectively this sensing numerical value of multiple subordinate sensing apparatus described in wireless receiving, wherein this control device comprises:

One wireless transport module;

One man-machine interface, produces multiple setup parameter value;

One memory module, stores multiple contextual model, and described multiple contextual model corresponds to described multiple setup parameter value respectively; And

One microprocessor, is electrically connected this wireless transmission module, this man-machine interface and this memory module, produces a control command according to described multiple setup parameter value; And

One wireless transmission control device, is arranged in an indoor electronic equipment, and this control command of wireless receiving also makes this indoor electronic equipment adopt corresponding function mode according to this control command;

Wherein, select one of them of described multiple contextual model, and directly adopt the chosen described multiple setup parameter values corresponding to this contextual model to produce this control command, and upgrade this control command according to described multiple setup parameter value and this sensing numerical value.

10. the control system of indoor equipment according to claim 9, wherein said multiple subordinate sensing apparatus comprises respectively:

At least one sensor, testing environment situation also produces this sensing numerical value;

One microprocessing unit, is electrically connected this at least one sensor; And

One wireless transmission unit, is electrically connected this microprocessing unit, returns this sensing numerical value with this control device line.

The control system of 11. indoor equipmenies according to claim 10, wherein this at least one sensor comprise carbon dioxide sensor, temperature sensor, humidity sensor, infrared ray sensor, light sensor, baroceptor and pneumatic sensor at least one of them; This sensing numerical value be carbon dioxide value, Temperature numerical, humidity, radiant heat numerical value, illumination numerical value, the dirty number of degrees value of air and air mass flow numerical value at least one of them.

The control system of 12. indoor equipmenies according to claim 9, wherein this control command comprise the unlatching of this indoor electronic equipment or closedown, running rate adjustment, the operating frequency adjustment of compressor, temperature setting, wind speed setting and pattern setting at least one of them; This indoor electronic equipment comprise indoor air conditioner, total-heat exchanger, indoor circulation fan and air cleaner at least one of them.

The control system of 13. indoor equipmenies according to claim 9, wherein this control device has at least one detection module, be electrically connected this microprocessor, testing environment situation also produces this sensing numerical value, and this at least one detection module be carbon dioxide sensor, temperature sensor, humidity sensor, infrared ray sensor, light sensor, baroceptor and pneumatic sensor at least one of them.

The control system of 14. indoor equipmenies according to claim 9, this wherein chosen contextual model is made up of an elimination run time pattern, a main running time pattern and an autologous peace and quiet pattern, and this elimination run time pattern, this main running time pattern and this autologous peace and quiet pattern correspond to different described multiple setup parameter values respectively.

The control system of 15. indoor equipmenies according to claim 14, wherein this man-machine interface sets time at the beginning and an end time of this chosen contextual model, described multiple setup parameter values corresponding to this elimination run time pattern are used in a period of time interval before this time started, described multiple setup parameter values corresponding to this main running time pattern were used between this end time in this time started, and described multiple setup parameter values corresponding to this autologous peace and quiet pattern are used in a period of time interval after this end time.

The control method of 16. 1 kinds of indoor equipmenies, apply to a control system, this control system comprises a control device, multiple subordinate sensing apparatus and a wireless transmission control device, and this wireless transmission control device is arranged in an indoor electronic equipment, and the control method of this indoor equipment comprises:

A) one of them of multiple contextual model selected by this control device, and wherein said multiple contextual model corresponds to multiple setup parameter value respectively;

B) the multiple sensing numerical value produced after multiple subordinate sensing apparatus testing environment situation described in wireless receiving;

C) the described multiple setup parameter values corresponding to this chosen contextual model are adopted to perform a calculation rule to calculate generation one control command;

D) this control command is transmitted to wireless transmission control device, to start this indoor electronic equipment; And

E) this calculation rule upgrades this control command according to described multiple setup parameter value and described multiple sensing numerical value, and transfers to this wireless transmission control device to adjust the function mode of this indoor electronic equipment.

The control method of 17. indoor equipmenies according to claim 16, this wherein chosen contextual model is made up of an elimination run time pattern, a main running time pattern and an autologous peace and quiet pattern, and this elimination run time pattern, this main running time pattern and this autologous peace and quiet pattern correspond to different described multiple setup parameter values respectively.

The control method of 18. indoor equipmenies according to claim 17, wherein this step a also comprises a step a1: the time at the beginning and the end time that set this contextual model; This step c to e specifically performs as following steps:

F) this elimination run time pattern is entered;

G) the secondary described multiple setup parameter values corresponding to pattern of this elimination run are adopted to perform this step c and this steps d;

H) before this time started not yet arrives, the secondary described multiple setup parameter values corresponding to pattern of this elimination run are adopted to continue to perform this step e;

I) this main running time pattern is entered after arriving in this time started;

J) after this step I, before this end time not yet arrives, the secondary described multiple setup parameter values corresponding to pattern of this main running are adopted to continue to perform this step e;

K) this autologous peace and quiet pattern is entered after arriving in this end time;

L) after this step k, before peace and quiet end time arrives, these described multiple setup parameter values corresponding to autologous peace and quiet pattern are adopted to continue to perform this step e; And

M), after arriving in this peace and quiet end time, a standby mode replied by this control device.

The control method of 19. indoor equipmenies according to claim 16, wherein this control command comprise the unlatching of this indoor electronic equipment or closedown, running rate adjustment, the operating frequency adjustment of compressor, temperature setting, wind speed setting and pattern setting at least one of them; This indoor electronic equipment comprise indoor air conditioner, total-heat exchanger, indoor circulation fan and air cleaner at least one of them.

The control method of 20. indoor equipmenies according to claim 16, wherein said multiple subordinate sensing apparatus comprise carbon dioxide sensor, temperature sensor, humidity sensor, infrared ray sensor, light sensor, baroceptor and pneumatic sensor at least one of them; This sensing numerical value be carbon dioxide value, Temperature numerical, humidity, radiant heat numerical value, illumination numerical value, the dirty number of degrees value of air and air mass flow numerical value at least one of them.