CN101464697B - Intelligent heating room temperature control system - Google Patents
Intelligent heating room temperature control system Download PDFInfo
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- CN101464697B CN101464697B CN2007101448354A CN200710144835A CN101464697B CN 101464697 B CN101464697 B CN 101464697B CN 2007101448354 A CN2007101448354 A CN 2007101448354A CN 200710144835 A CN200710144835 A CN 200710144835A CN 101464697 B CN101464697 B CN 101464697B
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Abstract
The invention discloses a room temperature-control and intelligent-heating system and a method thereof, and aims to provide a system that a main control computer simultaneously controls room temperatures of a plurality of rooms, thereby reducing the cost while saving the resource to the maximum extent. The system can lock the indoor maximum temperature, check the room temperature in each room, and stop and start the heating from the outside of the room; the system comprises a main control computer, a room temperature detecting unit, a heat supply execution unit, and an indoor data-input device, wherein, the main control computer is connected with an indoor and outdoor control conversion and outdoor data-input and output device, a heat supply execution unit is connected with an outdoor display used for displaying the opening and closing state of a heat supply execution mechanism. The invention further comprises a method for controlling the room temperature in an intelligent and energy-saving manner, and is suitable for controlling the indoor temperature control when residential buildings, trade companies, small-scale enterprises, and centralized-control users acquire the heating inthe winter.
Description
Affiliated technical field
The present invention relates to a kind of intelligent heating room temperature control system, belong to heat supply heating system computer autocontrol technique field.
Background technology
At present, known heating temperature control device mostly is the main control computer in every chamber, a temperature sensor and a heat supply topworks, and the intelligent degree of this mode main control computer is not high, has caused the waste of the resource and the energy simultaneously.
In addition, existing heat-supplying mode is the vertical single tube or the two-tube circulation system, each room of user has a water inlet pipe and a rising pipe at least, heating management for Thermal Corp is very inconvenient, Thermal Corp wishes and can carry out heat supply and stop heat control to strengthen management each household, carried out household reconstruction for reaching these purpose some places, making original vertical circulation into horizontal cyclic is water inlet of each household and a water delivering orifice, and intake-outlet is respectively installed a valve.This household reconstruction has caused the very big waste of fund, resource and the energy, and has seriously disturbed user's normal life, and masses' suggestion is very big.
Summary of the invention
In order to overcome above-mentioned deficiency, to the invention provides a kind of intelligent heating room temperature control system, this system utilizes a main control computer to control the indoor temperature in a plurality of rooms simultaneously, finishes when hot heat supply need not be hot the time " closing heat ", and easy and simple to handle; Simultaneously, the heating management personnel out of doors can being controlled and understood with heat the user.
In order to solve the problems of the technologies described above, the present invention is achieved by the following technical solutions:
1, the present invention is a kind of intelligent heating room temperature control system, and this room temperature control system comprises: main control computer, detection unit at room temperature, heat supply performance element and an indoor input data set; Described detection unit at room temperature, heat supply performance element are connected with main control computer respectively, and indoor input data set is connected with main control computer by wired or wireless mode; Described main control computer also connects an indoor outer control conversion and outdoor inputoutput data device, and described heat supply performance element also connects each room heat supply topworks open and-shut mode indicator of an outdoor demonstration.
This intelligent heating room temperature control system is carried out following steps::
1), forwards the indoor external conversion switch in indoor outer control conversion and the outdoor inputoutput data device to " open air ", with the maximum temperature of locking in the outdoor input data set input room;
2), forward the indoor external conversion switch in indoor outer control conversion and the outdoor inputoutput data device to " indoor ", date, the time with the interior perpetual calendar of indoor input data set calibration main control computer is current date, the time;
Import weekly working day and off-day with indoor input data set;
Need the zero-time and the stand-by time of heat supply every day with indoor input data set input;
3), by " room " key on the keyboard of indoor input data set, change the room in turn, in the current room that is transformed into, by " room temperature+" key or " room temperature-" key on the indoor input data set keyboard, the room temperature when setting the heat supply in each room;
4), the temperature sensor in each room is input to detected indoor temperature in the main control computer respectively, main control computer (101) compares the design temperature in the detected indoor temperature of temperature sensor and this room, according to comparative result, main control computer sends intensification or cooling is instructed to the heat supply topworks in this room, regulate heating load, room temperature is controlled at the design temperature in this room;
5), when the perpetual calendar in the main control computer runs to date, the time of the need heat supply of setting, main control computer sends " opening heat " instruction to heat supply topworks, main control computer with the temperature thermostatic control in the room at design temperature;
6), when the perpetual calendar in the main control computer runs to the date that does not need heat supply, the time of setting, main control computer sends " closing heat " instruction to heat supply topworks, main control computer with the temperature thermostatic control in the room in antifreeze temperature;
7), by " all opening " key on the keyboard of indoor input data set, main control computer is received instruction back and is given an order to heat supply topworks, the room temperature in all rooms is controlled at the design temperature in this room respectively;
8), by " Close All " key on the keyboard of indoor input data set, main control computer is received the instruction back and is given an order to heat supply topworks, and the room temperature in all rooms is controlled at antifreeze temperature respectively;
9), by " all workings " key on the keyboard of indoor input data set, main control computer is received the instruction back and is given an order to heat supply topworks, the room temperature in all rooms is controlled at step 2 respectively) date of the need heat supply set, time with the temperature thermostatic control in the room at separately design temperature, the date, time that do not need heat supply with the temperature thermostatic control in all rooms in antifreeze temperature;
10), by " room " key on the keyboard of indoor input data set, the conversion room, the current room that is being transformed into, by " opening " key on the indoor input data set keyboard, main control computer is given an order to the heat supply topworks in this room, the room temperature in this room is controlled at always the design temperature in this room;
11), by " room " key on the keyboard of indoor input data set, the conversion room, the current room that is being transformed into, by " closing " key on the indoor input data set keyboard, main control computer is given an order to the heat supply topworks in this room, and the room temperature in this room is controlled at antifreeze temperature always;
12), by " room " key on the keyboard of indoor input data set, the conversion room, the current room that is being transformed into, by " working " key on the indoor input data set keyboard, main control computer is given an order to the heat supply topworks in this room, will be set by step 2) date of the need heat supply set, time be the design temperature of the room temperature thermostatic control in this room in this room, the date, time that do not need heat supply with the temperature thermostatic control in this room in antifreeze temperature;
13), by " room " key on the keyboard of indoor input data set, the conversion room, in the current room that is transformed into, by " newspaper temperature " key on the keyboard of indoor control device, main control computer is reported the current indoor temperature in this room;
14), forward the indoor external conversion switch in indoor outer control conversion and the outdoor inputoutput data device to " open air ", by " locking temperature " key on the outdoor input data set keyboard, locking temperature is set in antifreeze temperature, again by " room " key, be transformed into each room, the room temperature in all rooms all is set at antifreeze temperature, and this step is for stopping to this family heat supply;
15), forward the indoor external conversion switch in indoor outer control conversion and the outdoor inputoutput data device to " open air ", by " room " key, be transformed into a certain room, by " newspaper temperature " key, main control computer is reported the Current Temperatures in this room again;
16), pilot lamp " bright " state that " goes out " of checking each room heat supply topworks open and-shut mode indicator of outdoor demonstration is known the open and close state of the heat supply actuator in indoor each room.
The invention has the beneficial effects as follows:
1, the intelligent degree of main control computer of the present invention is higher, has saved several main control computers, has saved resource, has reduced cost;
2, also saved the energy, because a main control computer is only used in a plurality of room, control system itself is exactly energy-conservation;
3, improved the work efficiency of heating management department, the managerial personnel that do not register one's residence promptly know the indoor temperature in each room of user, and the locking function that heat is stopped in the open air has improved the heat expense rate of recovery of Thermal Corp;
4, import the locking temperature of user's room temperature out of doors, significantly energy savings; Operate simultaneously the not routine work and the life of interference user out of doors; Can operate no matter have or not in the user family per capita, improve efficient, alleviated staff's labour intensity.
The present invention is applicable to residential housing, trade company, small-sized unit and needs the indoor temperature control of central controlled user's winter heating.
Description of drawings
The present invention is further described below in conjunction with drawings and Examples:
Fig. 1 is an intelligent heating room temperature control system block diagram;
Fig. 2 is residential housing residents six room intelligent heating room temperature control system block diagram;
Fig. 3 is an intelligent heating room temperature control system program overview flow chart;
Fig. 4 is infrared remote control subroutine 1 process flow diagram;
Fig. 5 is infrared remote control subroutine 2 subroutine flow charts;
Fig. 6 is infrared remote control subroutine 3 subroutine flow charts;
Fig. 7 is that the control room temperature is to antifreeze temperature subroutine flow chart;
Fig. 8 is that the control room temperature is to the design temperature subroutine flow chart.
Embodiment
Before describing the preferred embodiment of the present invention in detail, introduce system architecture of the present invention earlier, see also Fig. 1, Fig. 1 is an intelligent heating room temperature control system block diagram, main control computer 101 comprises an one-chip computer and peripheral hardware thereof, clock circuit; Detection unit at room temperature 102 is made up of a plurality of room temperature sensors; Heat supply performance element 103 comprises the heat supply topworks in each room; Each room temperature sensor, heat supply topworks are connected with main control computer 101 respectively; Indoor outer control conversion with and outdoor inputoutput data device 104 be connected with main control computer 101; Indoor input data set 105 is connected with main control computer 101 by wired or wireless mode, in order to send data or instruction to main control computer 101; Outdoor each room heat supply topworks open and-shut mode indicator 106 of demonstration is connected with the heat supply actuating mechanism circuit.
Knot platform accompanying drawing is described the preferred embodiments of the present invention in detail below.
Present embodiment is residential housing residents six room intelligent heating room temperature control system, see also Fig. 2, Fig. 2 is residential housing residents six room intelligent heating room temperature control system block diagram, and main control computer 201 is by one-chip computer unit 1, perpetual calendar unit 2, have an infrared radiation receiving circuit 3 because data entry mode adopts in all main control computers 201 of infra-red remote control mode; Because adopting in voice output so the main control computer 201, the present embodiment way of output also has a voice-output unit 4; Indoor input data set is a family telepilot 205; Indoor outer control conversion and outdoor inputoutput data device 204 are made up of indoor outer control switch 5, locking temperature dedicated remote control 8, outdoor infrared radiation receiving circuit 6 and outdoor voice output circuit 7; Temperature detecting unit 202 is the digital temperature sensors in six rooms, is installed in respectively on six walls in the room; Heat supply topworks is on the water inlet pipe of six Dian Dong Fa Door heating radiator of being installed in six rooms respectively; Outdoor each room heat supply topworks open and-shut mode indicator 206 of demonstration is made up of six pilot lamp and the six press keys of each room motorized valve open and-shut mode of open air demonstration.The digital temperature sensor in perpetual calendar unit 2, infrared radiation receiving circuit 3, voice-output unit 4, outdoor infrared radiation receiving circuit 6, six rooms is connected with the I/O mouth of one-chip computer respectively; The motorized valve in six rooms all driving circuit by separately is connected with the I/O mouth of one-chip computer; Outdoor voice output circuit 7 is connected with voice-output unit 4 by indoor outer control switch 5; Outdoor each room motorized valve open and-shut mode pilot lamp of demonstration and button are connected with each motorized valve circuit.
The intelligent heating room temperature control system of present embodiment is carried out the following step:
1), forwards the indoor external conversion switch 5 in indoor outer control conversion and the outdoor inputoutput data device 204 to " open air ", import the maximum temperature that locks in the rooms by managerial personnel with locking temperature dedicated remote control 8, for example 20 ℃, the setting of user indoor temperature this moment just can be above 20 ℃;
2), forward the indoor external conversion switch 5 in indoor outer control conversion and the outdoor inputoutput data device 204 to " indoor ", the user is current date, the time with date, the time of the interior perpetual calendar of telepilot 205 calibration main control computers 201;
The user imports weekly working day and off-day with telepilot 205;
The user uses work hours and the quitting time of 205 input service days of telepilot;
3), by the family with " room " key on the keyboard of telepilot 205, the conversion room, in the current room that is transformed into, by the family with " room temperature+" key or " room temperature-" key on telepilot 205 keyboards, the indoor temperature when setting the heat supply in this room;
4), the digital temperature sensor in six rooms is input to one-chip computer unit 1 in the main control computer 201 respectively with detected indoor temperature, one-chip computer compares the design temperature in the detected indoor temperature of temperature sensor and this room, according to comparative result, one-chip computer unit 1 sends intensification or cooling is instructed to the heat supply topworks motorized valve in this room, regulate heating load, room temperature is controlled at the design temperature in this room;
5), present embodiment is residential housing, when the perpetual calendar in the main control computer 201 runs to workaday quitting time, off-day and public holiday, the heat supply topworks motorized valves of one-chip computer unit 1 in the main control computer 201 in the room that receives " working " instruction send " opening heat " and instruct, while one-chip computer unit 1 with the temperature thermostatic control in the room at design temperature;
6), when perpetual calendar runs to workaday work hours of setting, the heat supply topworks motorized valve of one-chip computer unit 1 in the room that receives " working " instruction sends " close heat " instruction, while one-chip computer unit 1 with the temperature thermostatic control in the room in antifreeze temperature;
7), by the family with " all opening " key on the keyboard of telepilot 205, one-chip computer unit 1 is received the instruction back and is given an order to heat supply topworks motorized valve, the room temperature in all rooms is controlled at the design temperature in this room respectively;
8), by the family with " Close All " key on the keyboard of telepilot 205, one-chip computer unit 1 is received the instruction back and is given an order to heat supply topworks motorized valve, and the room temperature in all rooms is controlled at antifreeze temperature respectively;
9), by " all workings " key on the usefulness keyboard of telepilot 205 of family, one-chip computer unit 1 is received instruction back and is given an order to heat supply topworks motorized valve, and the room temperature in six rooms is controlled at step 2 respectively) quitting time, off-day and the public holiday set with the temperature thermostatic control in the room at separately design temperature; Work hours with the equal thermostatic control of temperature in six rooms in antifreeze temperature;
10), by " room " key on the usefulness keyboard of telepilot 205 of family, the conversion room, the current room that is being transformed into, by the family with " opening " key on telepilot 205 keyboards, giving an order to the heat supply topworks motorized valve in this room in one-chip computer unit 1, the room temperature in this room is controlled at always the design temperature in this room;
11), by " room " key on the usefulness keyboard of telepilot 205 of family, the conversion room, the current room that is being transformed into, by the family with " closing " key on telepilot 205 keyboards, give an order to the heat supply topworks motorized valve in this room in one-chip computer unit 1, the room temperature in this room is controlled at antifreeze temperature always;
12), by " room " key on the usefulness keyboard of telepilot 205 of family, the conversion room, the current room that is being transformed into, by " working " key on usefulness telepilot 205 keyboards of family, give an order to the heat supply topworks motorized valve in this room in one-chip computer unit 1, will be set by step 2) quitting time, off-day and the public holiday set be the design temperature of the temperature thermostatic control in this room in this room, the work hours with the temperature thermostatic control in this room in antifreeze temperature;
13), by the family with " room " key on the keyboard of telepilot 205, the conversion room, in the current room that is transformed into, with " newspaper temperature " key on the keyboard of telepilot 205, the Current Temperatures in this room reported in voice-output unit 4 voice by the family;
14), forward the indoor external conversion switch 5 in indoor outer control conversion and the outdoor inputoutput data device 204 to " open air ", press " locking temperature " key on locking temperature dedicated remote control 8 keyboards, locking temperature is set in antifreeze temperature, again by " room " key, be transformed into each room, the room temperature in all rooms all is set at antifreeze temperature, and this step is for stopping to this family heat supply;
15), forward the indoor external conversion switch 5 in indoor outer control conversion and the outdoor inputoutput data device 204 to " open air ", by " room " key, be transformed into a certain room, by " newspaper temperature " key, one-chip computer unit 1 is reported the Current Temperatures in this room out of doors by outdoor voice output circuit 7 again;
16), the pilot lamp of open and close status indicator lamp by checking each room motorized valve of outdoor demonstration and button 206 " goes out ", " bright " promptly know the open and close state of indoor each room motorized valve; Adding button herein is for energy savings, the viewing lamp that pushes button, and pilot lamp " bright " valve is a closed condition, and the pilot lamp valve that do not work is an open mode, and pilot lamp is for often going out during not according to button.
The invention will be further described below in conjunction with accompanying drawing:
See also Fig. 3, Fig. 3 is an intelligent heating room temperature control system program overview flow chart; System carries out initialization in step 301, in step 302 room number is put 1 then, judge in step 303 whether open zone bit is 1: be, then carry out the control room temperature to the design temperature subroutine in step 304, carry out infrared remote control in step 305 then and handle subroutine 1,2,3, then in the clear house dog subroutine of step 306, and turn back to step 302 circulation and carry out; If for not, then forward step 307 to and continue to judge whether close zone bit is 1: be, then carry out the control room temperature to antifreeze temperature subroutine, and jump to step 305 and continue to carry out in step 308 in the judged result of step 303; If the judged result in step 303 is not, then forwards step 309 to and continue to judge whether current be the work hours: be then to carry out the control room temperature and arrive antifreeze temperature subroutine in step 310; , then do not carry out the control room temperature to the design temperature subroutine in step 313; Afterwards, execution in step 311 adds 1 with room number, and whether the value of judging room number in step 312 is greater than the room sum: be that then execution in step 305; , then do not return execution in step 309.
See also Fig. 4, Fig. 4 is infrared remote control subroutine 1 process flow diagram; System reads the infrared key assignments that receives in step 401, judge in step 402 whether this key assignments is " design temperature adds 1 key ": be, then step 403 reads set temperature value and adds 1, then judge that in step 404 set temperature value is whether greater than temperature-limited value: be, then set temperature value is changed to 5 in step 405, and, return in step 415 at step 406 preservation set temperature value and room number; If the judged result in step 404 is not, then jumps to step 406 and continue to carry out; If the judged result in step 402 is not, then judge in step 407 whether this infrared key assignments is " design temperature subtracts 1 key ": be, then read set temperature value and subtract 1 in step 408, judge that in step 409 whether this value is less than 5: be, then equal temperature-limited value in step 410 set temperature value, preserve set temperature value and room number in step 406, return in step 415; If the judged result in step 409 is not, then jumps to step 406 and continue to carry out; If the judged result in step 407 is not, then judge in step 411 whether this infrared key assignments is " whether being that locking temperature adds 1 key ": be, then read the locking temperature value and add 1 in step 412, judge that in step 413 whether this value is greater than 35: be, then the locking temperature value is made as 5, and continues execution in step 406 in step 414; If the judged result in step 413 is not, then jumps to step 406 and continue to carry out; If the judged result in step 411 is not, then jumps to step 406 and continue to carry out.
See also Fig. 5, Fig. 5 is infrared remote control subroutine 2 process flow diagrams; System reads the infrared key assignments that receives in step 501, and judge in step 502 whether this key assignments is " working key ": be, then step 503 will be opened, close mark position 0 and be read room number, preserves setting value in step 504, returns in step 505; If the judged result in step 502 is that then jump to step 506 and judge whether this key assignments is " close key ": be, then step 507 will not closed mark position 1 and be read room number, preserve setting value in step 504, return in step 505; If the judged result in step 506 is that then judge in step 508 whether this key assignments is " opening key ": be, then step 509 will not opened mark position 1 and read room number, preserve setting value in step 504, return in step 505; If the judged result in step 508 is not, judge in step 510 whether this key assignments is " the commuter time key is set ": be that then step 511 is waited for user's input, preserves setting value in step 504, returns in step 505; If the judged result in step 510 is not, judge in step 512 whether this key assignments is " calibration perpetual calendar key ": be that then step 513 waits for that the user imports date, time, preserves setting value in step 504, returns in step 505; If the judged result in step 512 is not, judge in step 514 whether this key assignments is " setting the key on off-day ": be that then step 515 waits for that the user imports off-day, preserves setting value in step 504, returns in step 505; If the judged result in step 514 is not, then jumps to step 505 and continue to carry out.
See also Fig. 6, Fig. 6 is infrared remote control subroutine 3 process flow diagrams; System reads the infrared key assignments that receives in step 601, judges in step 602 whether this key assignments is " reporting Wen Jian ": be, the current indoor temperature value of step 603 voice broadcast then, and return in step 604; If the judged result in step 602 is not, then jumps to step 605 and judge whether this key assignments is " key gives the correct time ": be then step 606 voice broadcast current date, time, to return in step 604; If the judged result in step 605 is that then judge in step 607 whether this key assignments is " room switch key ": be, then step 608 does not read room number and adds 1, returns in step 604; If for not, judge in step 609 whether this key assignments is " all opening key " in the judged result of step 607: be, then step 610 with all rooms open mark position 1, return in step 604; If for not, judge in step 611 whether this key assignments is " Close All key " in the judged result of step 609: be, then step 612 with all rooms close mark position 1, return in step 604; If the judged result in step 611 is that judge in step 613 whether this key assignments is " key of all going to work ": be, then step 614 does not all put 0 with the zone bit of opening, close in all rooms, returns in step 604; If the judged result in step 613 is not, then jumps to step 604 and continue to carry out.
See also Fig. 7, Fig. 7 is that the control room temperature is to antifreeze temperature subroutine flow chart; System reads current room temperature and antifreeze temperature value in step 701, judges in step 702 whether Current Temperatures subtracts 1 less than antifreeze temperature: be, then send out out order in step 703 to topworks, return in step 706; Not, then judge in step 704 whether Current Temperatures adds 1 greater than antifreeze temperature: be, then send out to topworks and close order, return in step 706 in step 705; If the judged result in step 704 is not, then return in step 706.
See also Fig. 8, Fig. 8 is that the control room temperature is to the design temperature subroutine flow chart; System reads current room temperature and set temperature value in step 801, judges in step 802 whether Current Temperatures adds 1 more than or equal to the temperature of setting: be, then send out to topworks in step 803 and close order, return in step 806; , then do not judge in step 804 whether Current Temperatures subtracts 1 smaller or equal to the temperature of setting: be, then send out out order to topworks, return in step 806 in step 805; If the judged result in step 804 is not, then return in step 806.
Claims (1)
1. intelligent heating room temperature control system, this room temperature control system comprises: a main control computer (101), detection unit at room temperature (102), heat supply performance element (103) and indoor input data set (105), described detection unit at room temperature (102), heat supply performance element (103) is connected with main control computer (101) respectively, indoor input data set (105) is connected with main control computer (101) by wired or wireless mode, described main control computer (101) also connects an indoor outer control conversion and outdoor inputoutput data device (104), described heat supply performance element (103) also connects each room heat supply topworks open and-shut mode indicator (106) of an outdoor demonstration, it is characterized in that this intelligent heating room temperature control system is carried out following steps:
1), forwards the indoor external conversion switch in indoor outer control conversion and the outdoor inputoutput data device (104) to " open air ", with the maximum temperature of locking in the outdoor input data set input room;
2), forward the indoor external conversion switch in indoor outer control conversion and the outdoor inputoutput data device (104) to " indoor ", date, the time with the interior perpetual calendar of indoor input data set (105) calibration main control computer is current date, the time;
Import weekly working day and off-day with indoor input data set (105);
Need the zero-time and the stand-by time of heat supply every day with indoor input data set (105) input;
3), by " room " key on the keyboard of indoor input data set (105), change the room in turn, in the current room that is transformed into, by " room temperature+" key or " room temperature-" key on indoor input data set (105) keyboard, the room temperature when setting the heat supply in each room;
4), the temperature sensor in each room is input to detected indoor temperature respectively in the main control computer (101), main control computer (101) compares the design temperature in the detected indoor temperature of temperature sensor and this room, according to comparative result, main control computer (101) sends intensification or cooling is instructed to the heat supply topworks in this room, regulate heating load, room temperature is controlled at the design temperature in this room;
5), when the perpetual calendar in the main control computer (101) runs to date, the time of the need heat supply of setting, main control computer (101) sends " opening heat " instruction to heat supply topworks, main control computer (101) with the temperature thermostatic control in the room at design temperature;
6), when the perpetual calendar in the main control computer (101) runs to the date that does not need heat supply, the time of setting, main control computer (101) sends " closing heat " instruction to heat supply topworks, main control computer (101) with the temperature thermostatic control in the room in antifreeze temperature;
7), by " all opening " key on the keyboard of indoor input data set (105), main control computer (101) is received instruction back and is given an order to heat supply topworks, the room temperature in all rooms is controlled at the design temperature in this room respectively;
8), by " Close All " key on the keyboard of indoor input data set (105), main control computer (101) is received the instruction back and is given an order to heat supply topworks, and the room temperature in all rooms is controlled at antifreeze temperature respectively;
9), by " all workings " key on the keyboard of indoor input data set (105), main control computer (101) is received the instruction back and is given an order to heat supply topworks, the room temperature in all rooms is controlled at step 2 respectively) date of the need heat supply set, time with the temperature thermostatic control in the room at separately design temperature, the date, time that do not need heat supply with the temperature thermostatic control in all rooms in antifreeze temperature;
10), by " room " key on the keyboard of indoor input data set (105), the conversion room, the current room that is being transformed into, by " opening " key on indoor input data set (105) keyboard, main control computer (101) is given an order to the heat supply topworks in this room, the room temperature in this room is controlled at always the design temperature in this room;
11), by " room " key on the keyboard of indoor input data set (105), the conversion room, the current room that is being transformed into, by " closing " key on indoor input data set (105) keyboard, main control computer (101) is given an order to the heat supply topworks in this room, and the room temperature in this room is controlled at antifreeze temperature always;
12), by " room " key on the keyboard of indoor input data set (105), the conversion room, the current room that is being transformed into, by " working " key on indoor input data set (105) keyboard, main control computer (101) is given an order to the heat supply topworks in this room, will be set by step 2) date of the need heat supply set, time be the design temperature of the room temperature thermostatic control in this room in this room, the date, time that do not need heat supply with the temperature thermostatic control in this room in antifreeze temperature;
13), by " room " key on the keyboard of indoor input data set (105), the conversion room, in the current room that is transformed into, by " newspaper temperature " key on the keyboard of indoor control device (105), main control computer (101) is reported the current indoor temperature in this room;
14), forward the indoor external conversion switch in indoor outer control conversion and the outdoor inputoutput data device (104) to " open air ", by " locking temperature " key on the outdoor input data set keyboard, locking temperature is set in antifreeze temperature, again by " room " key, be transformed into each room, the room temperature in all rooms all is set at antifreeze temperature, and this step is this family heat supply of Ting Zhi Give;
15), forward the indoor external conversion switch in indoor outer control conversion and the outdoor inputoutput data device (104) to " open air ", by " room " key, be transformed into a certain room, by " newspaper temperature " key, main control computer is reported the Current Temperatures in this room again;
16), check the open and close state that pilot lamp " goes out ", " bright " state is known the heat supply actuator in indoor each room of each room heat supply topworks open and-shut mode indicator (106) of outdoor demonstration.
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| CN2007101448354A CN101464697B (en) | 2007-12-17 | 2007-12-17 | Intelligent heating room temperature control system |
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| US8428782B2 (en) * | 2009-07-20 | 2013-04-23 | Allure Energy, Inc. | Energy management system and method |
| CN101876824B (en) * | 2010-05-21 | 2012-04-25 | 刘树伟 | Computer control system for urban electric power central heating and control method thereof |
| HK1139829A2 (en) * | 2010-05-25 | 2010-09-24 | Cheuk Ting Ling | Methods for energy saving on electrical systems using habit oriented control |
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