CN105320022A - System and method of temperature control - Google Patents
System and method of temperature control Download PDFInfo
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- CN105320022A CN105320022A CN201410374487.XA CN201410374487A CN105320022A CN 105320022 A CN105320022 A CN 105320022A CN 201410374487 A CN201410374487 A CN 201410374487A CN 105320022 A CN105320022 A CN 105320022A
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Abstract
The present invention discloses a system and method of temperature control. The system of temperature control comprises a mobile phone and a device of temperature control. The mobile phone includes: a GPS module configured to obtain position coordinates of the mobile phone; a temperature acquisition module configured to acquire the present temperature; a storage module configured to store position coordinates of the device of temperature control; a calculation module configured to calculate a distance between the mobile phone and the device of temperature control; a first determination module configured to determine whether the distance is smaller than a distance threshold or not, and calling the calculation module to calculate the real-time motion track of the mobile phone if the distance is smaller than a distance threshold; and a second determination module configured to determine whether the mobile phone is close to the device of temperature control or not, and calling a third determination module if the mobile phone is close to the device of temperature control; and the third determination module configured to control the mobile phone to send refrigeration signals when it is determined that the present temperature is larger than a first temperature threshold and configured to send heating signals when it is determined that the present temperature is smaller than a second temperature threshold. The device of temperature control is configured to perform refrigeration based on refrigeration signals and perform heating based on heating signals. According to the invention, intelligent control of the system of temperature control is realized through a GPS positioning system of a mobile phone.
Description
Technical field
The present invention relates to a kind of temperature control system and method, particularly relate to a kind of GPS positioning system based on mobile phone and realize the temperature control system of Intelligent adjustment temperature and a kind of temperature-controlled process utilizing described temperature control system to realize.
Background technology
Along with the development of science and technology, the application of air-conditioning equitemperature control system is more and more general, all air-conditioning is installed in a lot of family and enterprise's office building, and the configuration specific telepilot of the control technology of air-conditioning from carries out controlling to develop into mobile communication terminals such as adopting mobile phone gradually and just can directly control.Particularly, user sends note by mobile phone to air-conditioning, and the control system of air-conditioning can data message in short message reading generate corresponding control signal to freeze or heat, thus makes user just can directly utilize mobile phone to control air-conditioning according to actual needs.But control mode of the prior art is more single, namely be equivalent to utilize mobile phone to instead of air-conditioning remote control, its control still needs user manually to input note, very not intelligent, and adopt the mode of note also likely because the reason of signal cannot be sent to air-conditioning place in time, and then cause cannot timely, convenient, intelligently air-conditioning is controlled.
Application number be CN201310368247.4, name is called in a kind of Chinese patent application of the floor heating central intelligent control system based on wireless network, proposing a kind of user can utilize mobile phone to transmit control signal by wireless network the technical scheme of heating of Long-distance Control ground heating system, but control signal wherein still needs user artificially to set, equally very not intelligent.
Summary of the invention
The technical problem to be solved in the present invention is to overcome the setting and participation that airconditioning control mode in prior art all needs user artificial, not intelligent defect very, the temperature control system providing a kind of GPS positioning system (GPS) based on mobile phone to realize Intelligent adjustment temperature and a kind of temperature-controlled process utilizing described temperature control system to realize.
The present invention solves above-mentioned technical matters by following technical proposals:
The invention provides a kind of temperature control system, its feature is, it comprises at least one mobile phone and and has the temperature control equipment heated with refrigerating function, and described mobile phone comprises:
One GPS module, for the position coordinates of mobile phone described in Real-time Obtaining;
One temperature acquisition module, for the Current Temperatures of mobile phone present position described in Real-time Obtaining;
One memory module, for storing the position coordinates of described temperature control equipment, arrange and store a distance threshold, one first temperature threshold and one second temperature threshold, described first temperature threshold is greater than described second temperature threshold;
One computing module, for calculating the distance between described mobile phone and described temperature control equipment in real time according to position coordinates;
One first judge module, for judging whether described distance is less than described distance threshold, and calls the real time kinematics track that described computing module calculates described mobile phone when being judged as YES;
One second judge module, for judging that according to described real time kinematics track whether described mobile phone is always close to described temperature control equipment, if so, then calls one the 3rd judge module;
Described 3rd judge module is used for judging that described Current Temperatures controls described mobile phone and sends a cooling signals by wireless network to described temperature control equipment when being greater than described first temperature threshold, judging that described Current Temperatures controls described mobile phone and sends one by wireless network to described temperature control equipment and heat signal when being less than described second temperature threshold;
Described temperature control equipment is used for automatically starting to start after receiving described cooling signals and freezing, automatically start start and heat after heating signal described in receiving.
Described computing module utilizes the position coordinates of the mobile phone of described GPS module Real-time Obtaining, just can simulate the real time kinematics track of mobile phone, again according to the real-time distance between the mobile phone calculated and temperature control equipment, just can judge that whether mobile phone is always close to temperature control equipment, namely when movement locus points to always or near described temperature control equipment and the distance of the two is more and more nearer time, namely show that mobile phone is always close to temperature control equipment.
Preferably, described second judge module is also for judging that according to described real time kinematics track whether described mobile phone is always away from described temperature control equipment, if, then control described mobile phone and send a shutdown signal by wireless network to described temperature control equipment, described temperature control equipment is used for automatically cutting out after receiving described shutdown signal.
Preferably, described GPS module is also for detecting the translational speed of described mobile phone in real time, and described distance threshold is directly proportional to the translational speed of described mobile phone, and/or described temperature acquisition module is used for obtaining described Current Temperatures by wireless network or temperature sensor.
Described distance threshold is determined by the translational speed of real-time detection of handset, no matter user is just made to drive, by bike or walking etc., based on different translational speeds, the distance threshold adapted can be set, thus different distance comparison others is set for different situations, and then ensure when user utilizes the different vehicles much the same to institute of family elapsed time from the trigger temperatures control device user that starts working, ensure that the temperature under different situations controls balanced.
Preferably, described mobile phone also comprises a logging modle and one the 4th judge module, described logging modle for record described mobile phone send at every turn described cooling signals, described in heat the date and time of signal and shutdown signal; Described 4th judge module be used for according to described date and time judge described mobile phone whether so far N continuous sky send in a time range described cooling signals, described in heat signal or shutdown signal, if, then automatically control in the described time range of next day described mobile phone continue to send with before the identical signal in N continuous sky, wherein N is positive integer.
Described time range can set according to actual needs, such as, choose half an hour, now just represents that described mobile phone N continuous sky sends the time deviation of same signal (cooling signals, heat signal or shutdown signal) within half an hour.
Preferably, described temperature control equipment also comprises a statistical module and a control module, described statistical module for add up every day and receive described cooling signals, described in heat the quantity of signal or described shutdown signal, described control module for judging whether described quantity is greater than an amount threshold, and only just controlling the described temperature control equipment execution refrigeration corresponding with signal, heating or shutoff operation when being judged as YES.
The object of the invention is to additionally provide a kind of temperature-controlled process, its feature is, it utilizes above-mentioned temperature control system to realize, and comprises the following steps:
S
1, mobile phone described in described GPS module Real-time Obtaining position coordinates, the Current Temperatures of mobile phone present position described in described temperature acquisition module Real-time Obtaining, described memory module stores the position coordinates of described temperature control equipment, arrange and store a distance threshold, one first temperature threshold and one second temperature threshold, described first temperature threshold is greater than described second temperature threshold;
S
2, described computing module calculates distance between described mobile phone and described temperature control equipment in real time according to position coordinates;
S
3, described first judge module judges whether described distance is less than described distance threshold, and calls the real time kinematics track that described computing module calculates described mobile phone when being judged as YES;
S
4, according to described real time kinematics track, described second judge module judges that whether described mobile phone is always close to described temperature control equipment, if so, then calls one the 3rd judge module;
S
5, described 3rd judge module judging that described Current Temperatures controls described mobile phone and sends a cooling signals by wireless network to described temperature control equipment when being greater than described first temperature threshold, judging that described Current Temperatures controls described mobile phone and sends one by wireless network to described temperature control equipment and heat signal when being less than described second temperature threshold;
S
6, described temperature control equipment automatically starts to start based on described cooling signals and freezes, automatically starts start and heat based on the described signal that heats.
Preferably, step S
6also comprise afterwards:
S
7, according to described real time kinematics track, described second judge module judges that whether described mobile phone is always away from described temperature control equipment, if so, then controls described mobile phone and sends a shutdown signal by wireless network to described temperature control equipment;
S
8, described temperature control equipment cuts out automatically based on described shutdown signal.
Preferably, step S
1described in GPS module also for detecting the translational speed of described mobile phone in real time, the described distance threshold that described memory module is arranged is directly proportional to the translational speed of described mobile phone, and/or, step S
1described in temperature acquisition module obtain described Current Temperatures by wireless network or temperature sensor.
Preferably, described mobile phone also comprises a logging modle and one the 4th judge module, step S
8also comprise afterwards:
S
9, mobile phone described in described logging modle record send at every turn described cooling signals, described in heat the date and time of signal and shutdown signal;
S
10, described 4th judge module be used for according to described date and time judge described mobile phone whether so far N continuous sky send in a time range described cooling signals, described in heat signal or shutdown signal, if so, then perform step S
11; Wherein N is positive integer;
S
11, automatically control in the described time range of next day described mobile phone continue to send with before the identical signal in N continuous sky.
Preferably, described temperature control equipment also comprises a statistical module and a control module, step S
5and S
6between also comprise:
S
51, the described cooling signals to receive every day of described statistical module counts or described in heat the quantity of signal;
S
52, described control module judges whether described quantity is greater than an amount threshold, if so, then performs step S
6;
Step S
7and S
8between also comprise:
S
71, the quantity of described shutdown signal to receive every day of described statistical module counts;
S
72, described control module judges whether described quantity is greater than an amount threshold, if so, then performs step S
8.
Positive progressive effect of the present invention is: the present invention achieves the Based Intelligent Control to air-conditioning equitemperature control system by the GPS positioning system of mobile phone, thus do not need user to carry out manual operation and artificial setting, the Automated condtrol to temperature control system is just achieved by means of only mobile phone, and then utilize mobile phone to provide more facilitation and more intelligentized life for user, make Smart Home really incorporate the life of user.
Accompanying drawing explanation
Fig. 1 is the module diagram of the temperature control system of embodiments of the invention 1.
Fig. 2 is the process flow diagram of the temperature-controlled process of embodiments of the invention 1.
Fig. 3 is the module diagram of the temperature control system of embodiments of the invention 2.
Fig. 4 is the process flow diagram of the temperature-controlled process of embodiments of the invention 2.
Fig. 5 is the module diagram of the temperature control system of embodiments of the invention 3.
Fig. 6 is the process flow diagram of the temperature-controlled process of embodiments of the invention 3.
Embodiment
Mode below by embodiment further illustrates the present invention, but does not therefore limit the present invention among described scope of embodiments.
Embodiment 1
As shown in Figure 1, the temperature control system of the present embodiment comprises mobile phone 1 and an intelligent air condition 2, described intelligent air condition 2 is fixedly installed in user family, described mobile phone 1 can be transmitted control signal to described intelligent air condition 2 by wireless network, opens to control described intelligent air condition 2 and freezes or heat or control its closedown.And intelligent air condition 2 can receive and resolve the control signal that mobile phone 1 sends, and corresponding operating can be performed based on control signal and belong to that those skilled in the art arrange according to actual needs in advance, just not repeat at this.
In the present embodiment, the mobile phone 1 of user automatically can carry out Based Intelligent Control to described intelligent air condition 2, and wherein said mobile phone 1 comprises GPS module 11, temperature acquisition module 12, memory module 13, computing module 14,1 first judge module 15,1 second judge module 16, the 3rd judge module 17.
Described GPS module 11 can the position coordinates of mobile phone 1 described in Real-time Obtaining, described temperature acquisition module 12 real-time interconnections obtain the Current Temperatures of described mobile phone 1 present position, described memory module 13 stores the position coordinates (being namely equivalent to the position coordinates of the family of user) of described intelligent air condition 2, also arrange simultaneously and store a distance threshold, one first temperature threshold and one second temperature threshold, described first temperature threshold is greater than described second temperature threshold, in the present embodiment, described distance threshold is set to 2Km, described first temperature threshold is set to 25 DEG C, described second temperature threshold is set to 5 DEG C, can certainly according to actual needs by described distance threshold, first temperature threshold and the second temperature threshold are set to other numerical value.
Described computing module 14 meeting calculates the distance between described mobile phone 1 and described intelligent air condition 2 in real time according to the position coordinates of described mobile phone 1 and the position coordinates of described intelligent air condition 2, and the object that the present invention will realize is exactly carry out intelligent air condition 2 described in Based Intelligent Control based on the distance between described mobile phone 1 and described intelligent air condition 2 to work, to realize carrying out freezing or heat work with regard to opening intelligent air condition 2 in advance when user soon gets home and do not get home, and automatically close intelligent air condition 2 again after user is away from home.
Particularly, described first judge module 15 can judge whether the distance between described mobile phone 1 and described intelligent air condition 2 is less than 2Km, if be less than 2Km, just show that now user leaves home very near, now described first judge module 15 can call the real time kinematics track that described computing module 14 calculates described mobile phone 1.Due to the position coordinates of mobile phone 1 described in described GPS module 11 energy Real-time Obtaining, described computing module 14 utilizes described position coordinates just can simulate the real time kinematics track of described mobile phone 1, distance between the described mobile phone 1 that described second judge module 16 calculates according to described real time kinematics track and described computing module 14 and described intelligent air condition 2, just can judge that whether mobile phone 1 is always close to described intelligent air condition 2, namely when real time kinematics track points to always or near described intelligent air condition 2 and the distance of the two is more and more nearer time, just show mobile phone 1 always close to intelligent air condition 2.
In this case, described second judge module 16 will call described 3rd judge module 17, described 3rd judge module 17 will judge the Current Temperatures of described temperature acquisition module 12 Real-time Obtaining, when judging that described Current Temperatures just controls described mobile phone 1 and sends a cooling signals by wireless network to described intelligent air condition 2 when being greater than 25 DEG C, when judging that described Current Temperatures just controls described smart mobile phone 1 and sends one by wireless network to described intelligent air condition 2 and heat signal when being less than 5 DEG C.
Described intelligent air condition 2 just automatically starts to start and starts refrigeration after receiving described cooling signals, just automatically starts to start and start to heat after heating signal described in receiving.Like this, by the modules of described mobile phone 1, the intelligent air condition 2 of real-time location to user's family just achieved based on GPS carries out the Based Intelligent Control of robotization, facilitates the life of user.
After achieving automatic startup intelligent air condition 2 and carrying out work, if user is in carrying mobile phone 1 is away from home again and go out, the position coordinates of described GPS module 11 same meeting Real-time Obtaining mobile phone 1, described computing module 14 can calculate the real time kinematics track of described mobile phone 1 equally, according to described real time kinematics track, described second judge module 16 also judges that whether described mobile phone is always away from described intelligent air condition 2, with this judge user whether be away from home in and go out, if, then control described mobile phone 1 and send a shutdown signal by wireless network to described intelligent air condition 2, described intelligent air condition 2 is just automatically closed and quits work after receiving described shutdown signal.Thus also achieved by described mobile phone 1 and judging that user's described intelligent air condition 2 of inner rear automatic control that is away from home is closed and quits work, and whole Based Intelligent Control process does not need the manual participation of user, achieves the full intellectualized of control and robotization.
In the present embodiment, described GPS module 11 also detects the translational speed of described mobile phone 1 in real time, and the described distance threshold that described memory module 13 sets can also be directly proportional to the translational speed of described mobile phone, described distance threshold is determined by the translational speed of real-time detection of handset, just make no matter user drives, by bike or walking etc., based on different translational speeds, the distance threshold adapted can be set, thus different distance comparison others is set for different situations, and then ensure when user utilizes the different vehicles much the same to institute of family elapsed time from the described intelligent air condition 2 of the triggering user that starts working, ensure that the temperature under different situations controls balanced.
For the Current Temperatures of described mobile phone 1 present position, described mobile phone 1 can also pass through wireless network Real-time Obtaining from network.
As shown in Figure 2, the temperature-controlled process that the present invention utilizes the temperature control system of the present embodiment to realize comprises the following steps:
The position coordinates of mobile phone described in step 101, described GPS module 11 Real-time Obtaining, described temperature acquisition module 12 real-time interconnection obtains the Current Temperatures of described mobile phone 1 present position, described memory module 13 stores the position coordinates of described intelligent air condition 2, arranges and stores a distance threshold (2Km), one first temperature threshold (25 DEG C) and one second temperature threshold (5 DEG C).
Step 102, described computing module 14 calculate the distance between described mobile phone 1 and described intelligent air condition 2 in real time according to position coordinates.
Step 103, described first judge module 15 judge whether described distance is less than described 2Km, if so, then call the real time kinematics track that described computing module 14 calculates described mobile phone 1, if not, then return step 102.
According to described real time kinematics track, step 104, described second judge module 16 judge that whether described mobile phone 1 is always close to described intelligent air condition 2, if so, then calls described 3rd judge module 17, if not, then and process ends.
Step 105, described 3rd judge module 17 judging that described Current Temperatures controls described mobile phone 1 and sends a cooling signals by wireless network to described intelligent air condition 2 when being greater than 25 DEG C, judging that described Current Temperatures controls described mobile phone 1 and sends one by wireless network to described intelligent air condition 2 and heat signal when being less than 5 DEG C.
Step 106, described intelligent air condition 2 automatically start to start based on described cooling signals and freeze, automatically start start and heat based on the described signal that heats.
According to described real time kinematics track, step 107, described second judge module 16 judge that whether described mobile phone 1 is always away from described intelligent air condition 2, if, then control described mobile phone 1 and send a shutdown signal by wireless network to described intelligent air condition 2, if not, then process ends.
Step 108, described intelligent air condition 2 are closed automatically based on described shutdown signal.
Embodiment 2
As shown in Figure 3, the temperature control system of the present embodiment comprises mobile phone 1 and an intelligent air condition 2 equally, the difference of the present embodiment and embodiment 1 is: in the present embodiment, described mobile phone 1 is except comprising each functional module in embodiment 1, also comprise logging modle 18 and one the 4th judge module 19, wherein said logging modle 18 can record described mobile phone 1 and send described cooling signals at every turn, the described date and time heating signal and shutdown signal, according to described date and time, described 4th judge module 19 judges whether so far described mobile phone 1 sends described cooling signals in N continuous sky in a time range, describedly heat signal or shutdown signal, if, then automatically control in the described time range of next day described mobile phone continue to send with before the identical signal in N continuous sky, wherein N is positive integer.
In the present embodiment, such as N value is 4, and described time range is set to half an hour (from 17:50-18:20), supposes that today is on June 17th, 2014, and the information recorded in described logging modle 18 is before as follows:
Date: on June 13rd, 2014; Time: 18:00; Signal: cooling signals;
Date: on June 14th, 2014; Time: 18:05; Signal: cooling signals;
Date: on June 15th, 2014; Time: 17:57; Signal: cooling signals;
Date: on June 16th, 2014; Time: 18:11; Signal: cooling signals;
Namely above-mentioned information show that described mobile phone 1 sends date of signal, time and type in 13-16 every day day in June, 2014 to described intelligent air condition 2, based on this, described 4th judge module 19 can judge that described mobile phone 1 all sends cooling signals to described intelligent air condition 2 in continuous 4 days till today, and the time deviation sent is within half an hour, so, between today (i.e. on June 17th, 2014) 17:50-18:20, described 4th judge module 19 can automatically control described mobile phone 1 and send cooling signals to described intelligent air condition 2.Namely by judgement and the analysis of the information to described logging modle 18 record, as long as described 4th judge module 19 judges that the control signal that described mobile phone 1 sends every day meets certain rule, then even not need the work of described GPS module 11, described computing module 14, described first judge module 15, described second judge module 16 and described 3rd judge module 17 etc. afterwards, directly just controlling described mobile phone 1 according to above-mentioned rule sends specific control signal at special time to described intelligent air condition 2, to realize the Automated condtrol to intelligent air condition 2.
As shown in Figure 4, the temperature-controlled process that the present invention utilizes the temperature control system of the present embodiment to realize comprises the following steps:
The position coordinates of mobile phone described in step 201, described GPS module 11 Real-time Obtaining, described temperature acquisition module 12 real-time interconnection obtains the Current Temperatures of described mobile phone 1 present position, described memory module 13 stores the position coordinates of described intelligent air condition 2, arranges and stores a distance threshold (2Km), one first temperature threshold (25 DEG C) and one second temperature threshold (5 DEG C).
Step 202, described computing module 14 calculate the distance between described mobile phone 1 and described intelligent air condition 2 in real time according to position coordinates.
Step 203, described first judge module 15 judge whether described distance is less than described 2Km, if so, then call the real time kinematics track that described computing module 14 calculates described mobile phone 1, if not, then return step 202.
According to described real time kinematics track, step 204, described second judge module 16 judge that whether described mobile phone 1 is always close to described intelligent air condition 2, if so, then calls described 3rd judge module 17, if not, then and process ends.
Step 205, described 3rd judge module 17 judging that described Current Temperatures controls described mobile phone 1 and sends a cooling signals by wireless network to described intelligent air condition 2 when being greater than 25 DEG C, judging that described Current Temperatures controls described mobile phone 1 and sends one by wireless network to described intelligent air condition 2 and heat signal when being less than 5 DEG C.
Step 206, described intelligent air condition 2 automatically start to start based on described cooling signals and freeze, automatically start start and heat based on the described signal that heats.
According to described real time kinematics track, step 207, described second judge module 16 judge that whether described mobile phone 1 is always away from described intelligent air condition 2, if, then control described mobile phone 1 and send a shutdown signal by wireless network to described intelligent air condition 2, if not, then process ends.
Step 208, described intelligent air condition 2 are closed automatically based on described shutdown signal.
Step 209, described logging modle 18 record described mobile phone 1 send at every turn described cooling signals, described in heat the date and time of signal and shutdown signal.
Step 210, described 4th judge module 19 according to described date and time judge described mobile phone 1 whether so far continuous 4 days in a time range (17:50-18:20) send described cooling signals, described in heat signal or shutdown signal, if, then perform step 211, if not, then process ends.
Step 211, automatically control in the described time range of next day described mobile phone 1 continue to send with before continuous 4 days identical control signals.
Embodiment 3:
As shown in Figure 5, the temperature control system of the present embodiment comprises multiple mobile phone 1 and an intelligent air condition 2, the difference of the present embodiment and embodiment 1 is: can realize in the present embodiment utilizing the control signal of multiple mobile phone 1 automatically to control intelligent air condition 2, each mobile phone 1 in the present embodiment all has identical functional module with the mobile phone in embodiment 1, and the intelligent air condition 2 of the present embodiment also comprises statistical module 21 and a control module 22.
Wherein, the cooling signals that described statistical module 21 can be added up every day and receives, the quantity heating signal or shutdown signal, described control module 22 judges whether the quantity of adding up is greater than an amount threshold, and only just controlling the described intelligent air condition execution refrigeration corresponding with signal when being judged as YES, heating or shutoff operation.
The temperature control system of the present embodiment is applicable in enterprise's office building, particularly, described intelligent air condition 2 can be set in this office building, clerical workforce in described office building all carries the mobile phone 1 of the present embodiment, like this, when working every morning, clerical workforce all close to office building until enter in office building, and when the distance of clerical workforce and office building is less than 2Km, by the collaborative work (see embodiment 1) of each functional module in mobile phone 1, as long as Current Temperatures meets and corresponding to require (be greater than 25 DEG C or be less than 5 DEG C), the mobile phone 1 of clerical workforce can send cooling signals respectively to the intelligent air condition 2 in office building or heat signal, now described statistical module 21 can add up the quantity of the control signal received, the quantity of described control module 22 to statistics judges, only being greater than an amount threshold, (such as value is 20, indicate that 20 staff are close to also soon entering office building, certain amount threshold can set according to actual needs) time, just control described intelligent air condition 2 open and carry out freezing or heating work.
And when next staff leaves office building, controlling described intelligent air condition 2 closes and quit work and also adopt same principle, just do not repeating at this.
As shown in Figure 6, the temperature-controlled process that the present invention utilizes the temperature control system of the present embodiment to realize comprises the following steps:
The position coordinates of mobile phone described in the equal Real-time Obtaining of described GPS module 11 in the described mobile phone 1 of step 301, each staff, described temperature acquisition module 12 real-time interconnection obtains the Current Temperatures of described mobile phone 1 present position, described memory module 13 stores the position coordinates of described intelligent air condition 2, arranges and stores a distance threshold (2Km), one first temperature threshold (25 DEG C) and one second temperature threshold (5 DEG C).
Step 302, described computing module 14 calculate the distance between described mobile phone 1 and described intelligent air condition 2 in real time according to position coordinates.
Step 303, described first judge module 15 judge whether described distance is less than described 2Km, if so, then call the real time kinematics track that described computing module 14 calculates described mobile phone 1, if not, then return step 302.
According to described real time kinematics track, step 304, described second judge module 16 judge that whether described mobile phone 1 is always close to described intelligent air condition 2, if so, then calls described 3rd judge module 17, if not, then and process ends.
Step 305, described 3rd judge module 17 judging that described Current Temperatures controls described mobile phone 1 and sends a cooling signals by wireless network to described intelligent air condition 2 when being greater than 25 DEG C, judging that described Current Temperatures controls described mobile phone 1 and sends one by wireless network to described intelligent air condition 2 and heat signal when being less than 5 DEG C.
The described cooling signals that step 306, described statistical module 21 are added up every day and received or described in heat the quantity of signal.
Step 307, described control module 22 judge whether described quantity is greater than an amount threshold, if so, then perform step 308, if not, then and process ends.
Step 308, described intelligent air condition 2 automatically start to start based on described cooling signals and freeze, automatically start start and heat based on the described signal that heats.
According to described real time kinematics track, step 309, described second judge module 16 judge that whether described mobile phone 1 is always away from described intelligent air condition 2, if, then control described mobile phone 1 and send a shutdown signal by wireless network to described intelligent air condition 2, if not, then process ends.
The quantity of the described shutdown signal that step 310, described statistical module 21 are added up every day and received.
Step 311, described control module 22 judge whether described quantity is greater than an amount threshold, if so, then perform step 312, if not, then and process ends.
Step 312, described intelligent air condition 2 are closed automatically based on described shutdown signal.
Although the foregoing describe the specific embodiment of the present invention, it will be understood by those of skill in the art that these only illustrate, protection scope of the present invention is defined by the appended claims.Those skilled in the art, under the prerequisite not deviating from principle of the present invention and essence, can make various changes or modifications to these embodiments, but these change and amendment all falls into protection scope of the present invention.
Claims (10)
1. a temperature control system, is characterized in that, it comprises at least one mobile phone and and has the temperature control equipment heated with refrigerating function, and described mobile phone comprises:
One GPS module, for the position coordinates of mobile phone described in Real-time Obtaining;
One temperature acquisition module, for the Current Temperatures of mobile phone present position described in Real-time Obtaining;
One memory module, for storing the position coordinates of described temperature control equipment, arrange and store a distance threshold, one first temperature threshold and one second temperature threshold, described first temperature threshold is greater than described second temperature threshold;
One computing module, for calculating the distance between described mobile phone and described temperature control equipment in real time according to position coordinates;
One first judge module, for judging whether described distance is less than described distance threshold, and calls the real time kinematics track that described computing module calculates described mobile phone when being judged as YES;
One second judge module, for judging that according to described real time kinematics track whether described mobile phone is always close to described temperature control equipment, if so, then calls one the 3rd judge module;
Described 3rd judge module is used for judging that described Current Temperatures controls described mobile phone and sends a cooling signals by wireless network to described temperature control equipment when being greater than described first temperature threshold, judging that described Current Temperatures controls described mobile phone and sends one by wireless network to described temperature control equipment and heat signal when being less than described second temperature threshold;
Described temperature control equipment is used for automatically starting to start after receiving described cooling signals and freezing, automatically start start and heat after heating signal described in receiving.
2. temperature control system as claimed in claim 1, it is characterized in that, described second judge module is also for judging that according to described real time kinematics track whether described mobile phone is always away from described temperature control equipment, if, then control described mobile phone and send a shutdown signal by wireless network to described temperature control equipment, described temperature control equipment is used for automatically cutting out after receiving described shutdown signal.
3. temperature control system as claimed in claim 1, it is characterized in that, described GPS module is also for detecting the translational speed of described mobile phone in real time, described distance threshold is directly proportional to the translational speed of described mobile phone, and/or described temperature acquisition module is used for obtaining described Current Temperatures by wireless network or temperature sensor.
4. temperature control system as claimed in claim 2, it is characterized in that, described mobile phone also comprises a logging modle and one the 4th judge module, described logging modle for record described mobile phone send at every turn described cooling signals, described in heat the date and time of signal and shutdown signal; Described 4th judge module be used for according to described date and time judge described mobile phone whether so far N continuous sky send in a time range described cooling signals, described in heat signal or shutdown signal, if, then automatically control in the described time range of next day described mobile phone continue to send with before the identical signal in N continuous sky, wherein N is positive integer.
5. temperature control system as claimed in claim 2, it is characterized in that, described temperature control equipment also comprises a statistical module and a control module, described statistical module for add up every day and receive described cooling signals, described in heat the quantity of signal or described shutdown signal, described control module for judging whether described quantity is greater than an amount threshold, and only just controlling the described temperature control equipment execution refrigeration corresponding with signal, heating or shutoff operation when being judged as YES.
6. a temperature-controlled process, is characterized in that, it utilizes temperature control system as claimed in claim 1 to realize, and comprises the following steps:
S
1, mobile phone described in described GPS module Real-time Obtaining position coordinates, the Current Temperatures of mobile phone present position described in described temperature acquisition module Real-time Obtaining, described memory module stores the position coordinates of described temperature control equipment, arrange and store a distance threshold, one first temperature threshold and one second temperature threshold, described first temperature threshold is greater than described second temperature threshold;
S
2, described computing module calculates distance between described mobile phone and described temperature control equipment in real time according to position coordinates;
S
3, described first judge module judges whether described distance is less than described distance threshold, and calls the real time kinematics track that described computing module calculates described mobile phone when being judged as YES;
S
4, according to described real time kinematics track, described second judge module judges that whether described mobile phone is always close to described temperature control equipment, if so, then calls one the 3rd judge module;
S
5, described 3rd judge module judging that described Current Temperatures controls described mobile phone and sends a cooling signals by wireless network to described temperature control equipment when being greater than described first temperature threshold, judging that described Current Temperatures controls described mobile phone and sends one by wireless network to described temperature control equipment and heat signal when being less than described second temperature threshold;
S
6, described temperature control equipment automatically starts to start based on described cooling signals and freezes, automatically starts start and heat based on the described signal that heats.
7. temperature-controlled process as claimed in claim 6, is characterized in that, step S
6also comprise afterwards:
S
7, according to described real time kinematics track, described second judge module judges that whether described mobile phone is always away from described temperature control equipment, if so, then controls described mobile phone and sends a shutdown signal by wireless network to described temperature control equipment;
S
8, described temperature control equipment cuts out automatically based on described shutdown signal.
8. temperature-controlled process as claimed in claim 6, is characterized in that, step S
1described in GPS module also for detecting the translational speed of described mobile phone in real time, the described distance threshold that described memory module is arranged is directly proportional to the translational speed of described mobile phone, and/or, step S
1described in temperature acquisition module obtain described Current Temperatures by wireless network or temperature sensor.
9. temperature-controlled process as claimed in claim 7, it is characterized in that, described mobile phone also comprises a logging modle and one the 4th judge module, step S
8also comprise afterwards:
S
9, mobile phone described in described logging modle record send at every turn described cooling signals, described in heat the date and time of signal and shutdown signal;
S
10, described 4th judge module be used for according to described date and time judge described mobile phone whether so far N continuous sky send in a time range described cooling signals, described in heat signal or shutdown signal, if so, then perform step S
11; Wherein N is positive integer;
S
11, automatically control in the described time range of next day described mobile phone continue to send with before the identical signal in N continuous sky.
10. temperature-controlled process as claimed in claim 7, it is characterized in that, described temperature control equipment also comprises a statistical module and a control module, step S
5and S
6between also comprise:
S
51, the described cooling signals to receive every day of described statistical module counts or described in heat the quantity of signal;
S
52, described control module judges whether described quantity is greater than an amount threshold, if so, then performs step S
6;
Step S
7and S
8between also comprise:
S
71, the quantity of described shutdown signal to receive every day of described statistical module counts;
S
72, described control module judges whether described quantity is greater than an amount threshold, if so, then performs step S
8.
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| CN201410374487.XA CN105320022A (en) | 2014-07-31 | 2014-07-31 | System and method of temperature control |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410374487.XA CN105320022A (en) | 2014-07-31 | 2014-07-31 | System and method of temperature control |
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| CN105320022A true CN105320022A (en) | 2016-02-10 |
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