CN102402235A - Intelligent house temperature control method and device applying same - Google Patents
Intelligent house temperature control method and device applying same Download PDFInfo
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- CN102402235A CN102402235A CN2010102748644A CN201010274864A CN102402235A CN 102402235 A CN102402235 A CN 102402235A CN 2010102748644 A CN2010102748644 A CN 2010102748644A CN 201010274864 A CN201010274864 A CN 201010274864A CN 102402235 A CN102402235 A CN 102402235A
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Abstract
The invention relates to an intelligent house temperature control method and a device applying the same. The intelligent house temperature control method is characterized in that in the method, various data acquirers acquire data, after data are compared, relevant operations are carried out according to settings, and accordingly indoor heating or refrigeration is realized. The device is characterized in that an outdoor data acquirer and a water evaporation refrigerator are arranged on an eave, a data output end of the outdoor data acquirer is connected into a server, and a data output end of the server is connected into an intelligent host. An indoor data acquirer is arranged in an indoor environment of a house body, a data output end of the indoor data acquirer is also connected into the server, a control end of the water evaporation refrigerator is connected into the intelligent host, intelligent sun-shading equipment is arranged at an end of the eave, a control end of the intelligent sun-shading equipment is connected into the intelligent host, and a ground source heat pump is disposed at the bottom of the house body. Accordingly, by the aid of matching of temperature acquirers and the server, energy-saving service of an air conditioner is effectively integrated, and furthermore, energy consumption of building heating and refrigeration is reduced by 70% by the aid of an intelligent control system.
Description
Technical field
The present invention relates to a kind of temperature-controlled process and device thereof, relate in particular to intelligent temperature-controlled process in a kind of house and device thereof.
Background technology
Urban civilization has been brought good life to us, and the another side of civilization then is that the energy consumption in city increases greatly, and the energy is exhausted day by day.In Dec, 2009, leader's oligomerisation Copenhagen, Denmark of up to a hundred countries, this climate change conference that is known as the final opportunity of helping planet Earth is being reminded everyone.
Building is the body in city, takes shelter from rain for the mankind becalm.Yet the building of magnificent mansion has consumed on the earth 50% the energy.Steel, aluminium, cement, glass that urbanization process is required all are the products of the lot of consumption energy.The distinctive large public building in city " is engulfed " especially and the energy, and the 10-15 that its each square metre energy consumption is a residential building doubly.If the global urban continuation advances by original mode; To you how bear? The research report of Tsing-Hua University in 2009 shows; In the whole life of building, the building operation energy consumption accounts for 80% of building whole life energy consumption, and therefore building operation energy consumption just becomes the object that we pay close attention to.
Summary of the invention
The object of the invention is exactly the problems referred to above that exist in the prior art in order to solve, and intelligent temperature-controlled process in a kind of house and device thereof are provided.
The object of the invention is realized through following technical scheme:
The intelligent temperature-controlled process in house, it may further comprise the steps: 1. step through the outer weather data of outdoor data collector collecting chamber, comprises wind speed, rainfall degree, terrestrial solar radiation degree, outdoor temperature; Through data in the indoor data acquisition unit collecting chamber, comprise temperature and humidity data; 2. step to server, deposits outdoor weather data, indoor data transmission in the affiliated database of server in; Step 3.; Database compares outdoor weather data, indoor temperature and humidity data, to carrying out relevant treatment current season, when promptly be summer current season; If indoor temperature surpasses upper temperature limit in first summer; At first water evaporation for cooling device operation continues to rise to upper temperature limit in secondary summer like temperature, then starts earth source heat pump and carries out refrigeration work; If indoor temperature is lower than upper temperature limit in first summer, then stop the operation of water evaporation for cooling device and earth source heat pump; If indoor temperature be lower than winter lowest temperature, then start earth source heat pump heat work when being winter current season, if indoor temperature is higher than the winter upper temperature limit, then closes earth source heat pump; Step 4., if the terrestrial solar radiation degree that collects surpasses preset value, then smart host is controlled intelligent sun-shading equipment and is opened, and sunlight is blocked; If the wind speed that collects is greater than 5m/s or rainy, then smart host control sun-shading equipment is packed up; Step 5., and is predefined 30% if the humidity that indoor data acquisition unit collects is lower than, then the operation of smart host control water evaporation for cooling device; When humidity reached 60%, then the water evaporation for cooling device quit work.
The intelligent temperature-controlled process in above-mentioned house, wherein: described indoor data acquisition unit also collects the solar inverter trnamission capacity and the house uses information about power, and described solar inverter trnamission capacity and house use information about power to deposit in the database; Through smart host contrast solar inverter trnamission capacity and house power consumption, draw the use energy consumption.
Further, the intelligent temperature-controlled process in above-mentioned house, wherein: step upper temperature limit in 3. described first summer is 25 degrees centigrade; Described secondary summer, upper temperature limit was 27 degrees centigrade; Described winter lowest temperature is 15 degrees centigrade; Described winter upper temperature limit is 25 degrees centigrade.
The intelligent temperature control equipment in house; Include the house body; The top of said house body is provided with eaves; Wherein: described eaves are provided with outdoor data collector and water evaporation for cooling device, and the data output end of said outdoor data collector is connected into server, and said data in server output terminal is connected into smart host; Said house body indoor is provided with indoor data acquisition unit, and the data output end of indoor data acquisition unit also is connected into server; The control end of said water evaporation for cooling device is connected into smart host; Said eaves end is provided with intelligent sun-shading equipment, and the control end of said intelligent sun-shading equipment is connected into smart host; The bottom of said house body is provided with earth source heat pump, and the control end of said earth source heat pump is connected into smart host; The feeder ear of described outdoor data collector, water evaporation for cooling device, server, indoor data acquisition unit, smart host, intelligent sun-shading equipment, earth source heat pump is connected into the output terminal of consumer jointly.
The intelligent temperature control equipment in above-mentioned house, wherein: described outdoor data collector is arranged on the eaves top.
Further, the intelligent temperature control equipment in above-mentioned house, wherein: described indoor data acquisition unit is distributed in each room under the house body.
Further; The intelligent temperature control equipment in above-mentioned house; Wherein: be equipped with solar panel on the described eaves, the output terminal of said solar panel is connected with solar inverter, and the output terminal of said solar inverter connects the input end of consumer.
The advantage of technical scheme of the present invention is mainly reflected in: can cooperating through each temperature collecting device and server; The energy-conservation use of effective integration air-conditioning and the control system of combined with intelligentization; Realize that building and heating and energy consumption for cooling reduce by 70%, meet existing environment protection requirement.
Description of drawings
The object of the invention, advantage and characteristics will illustrate through the non-limitative illustration of following preferred embodiment and explain.These embodiment only are the prominent examples of using technical scheme of the present invention, and all technical schemes of taking to be equal to replacement or equivalent transformation and forming all drop within the scope of requirement protection of the present invention.In the middle of these accompanying drawings,
Fig. 1 is the organigram of the intelligent temperature control equipment in house.
The implication of each Reference numeral is following among the figure:
1 outdoor data collector, 2 water evaporation for cooling devices
3 servers, 4 smart hosts
5 indoor data acquisition unit 6 intelligent sun-shading equipments
7 earth source heat pumps, 8 consumers
9 solar panels, 10 solar inverters
Embodiment
The intelligent temperature-controlled process in house, its unusual part is may further comprise the steps: at first, through the outer weather data of outdoor data collector 1 collecting chamber, comprise wind speed, rainfall degree, terrestrial solar radiation degree, outdoor temperature; Through data in indoor data acquisition unit 5 collecting chambers, comprise temperature and humidity data.Then, outdoor weather data, indoor data transmission to server 3 are transferred to server 3 through port 232/485 conversion, deposit in the database under the server 3.Then, database compares outdoor weather data, indoor temperature and humidity data, to carrying out relevant treatment current season.
Specifically, if be when summer, both indoor temperature need be lowered the temperature current season, if indoor temperature surpasses first summer upper temperature limit as 25 degrees centigrade, then at first the cooling of the very first time is carried out in 2 operations of water evaporation for cooling device.Continue to rise to secondary summer upper temperature limit as 27 degrees centigrade like temperature, then start earth source heat pump 7 and carry out refrigeration work.Simultaneously, be accompanied by the carrying out of cooling work,, then stop the operation of water evaporation for cooling device 2 and earth source heat pump 7, make indoor temperature reach suitable state if indoor temperature is lower than upper temperature limit in first summer.
Further, if be when winter, both indoor temperature need heat up, if indoor temperature is lower than the winter lowest temperature as 15 degrees centigrade, then starts earth source heat pump 7 and heat work current season, heat up to indoor.Then, along with the carrying out that heats,, then close earth source heat pump 7, in order to avoid cause extra energy dissipation if indoor temperature is higher than the winter upper temperature limit as 25 degrees centigrade.
Again further; In order to play action of temperature in the ancillary chamber; Be convenient to counterglow and effectively block adjusting; If the terrestrial solar radiation degree that collects surpasses preset value, then the intelligent sun-shading equipment 6 of smart host 4 controls is opened, and sunlight is blocked effectively block sunlight directly inject indoor.If the wind speed that collects is greater than 5m/s or rainy, then smart host 4 control sun-shading equipments are packed up.Can play a protective role to intelligent sun-shading equipment 6 like this, avoid its damage by dragging or drenched with rain after corrosion appears.
And the present invention is the interior humidity of conditioning chamber well.Specifically, predefined 30% if the humidity that indoor data acquisition unit 5 collects is lower than, then smart host 4 control water evaporation for cooling devices 2 operations; When humidity reached 60%, then water evaporation for cooling device 2 quit work.Like this, guarantee the indoor humidity livable-in.
Simultaneously, can in time know the energy consumption contrast that the intelligent temperature control in house is brought for the ease of the user, indoor data acquisition unit 5 can also collect solar inverter 10 trnamission capacities and the house uses information about power.Afterwards, use information about power to deposit in the database solar inverter 10 trnamission capacities and house.Then, can draw the use energy consumption through smart host 4 contrast solar inverter 10 trnamission capacities and house power consumptions.
Effective realization for the ease of this method; Existing as shown in Figure 1, provide a kind of house intelligent temperature control equipment, include the house body; The top of body is provided with eaves in the house; Its difference is: eaves are provided with outdoor data collector 1 and water evaporation for cooling device 2, and the data output end of outdoor data collector 1 is connected into server 3, and the data output end of server 3 is connected into smart host 4.Corresponding with it is, body indoor is provided with indoor data acquisition unit 5 in the house, and the data output end of indoor data acquisition unit 5 also is connected into server 3, and the control end of water evaporation for cooling device 2 is connected into smart host 4.Be provided with intelligent sun-shading equipment 6 in the eaves end, the control end of this intelligence sun-shading equipment 6 is connected into smart host 4.
Consider effectively to heat and to freeze auxiliary that the bottom of the present invention's body in the house is provided with earth source heat pump 7, the control end of said earth source heat pump 7 is connected into smart host 4; The feeder ear of described outdoor data collector 1, water evaporation for cooling device 2, server 3, indoor data acquisition unit 5, smart host 4, intelligent sun-shading equipment 6, earth source heat pump 7 is connected into the output terminal of consumer 8 jointly, carries out a same power supply.
In order to promote the levels of precision of collection, outdoor data collector 1 is arranged on the eaves top, and indoor data acquisition unit 5 is distributed in each affiliated room of house body.
Moreover, in order to realize the supply of a green energy resource, being equipped with solar panel 9 on the described eaves, the output terminal of solar panel 9 is connected with solar inverter 10, and the output terminal of this solar inverter 10 connects the input end of consumer 8.
Through above-mentioned character express and combine accompanying drawing to find out; After adopting the present invention; Can cooperating through each temperature collecting device and server; The energy-conservation use of effective integration air-conditioning and the control system of combined with intelligentization realize that building and heating and energy consumption for cooling reduce by 70%, meet existing environment protection requirement.
Claims (7)
1. the intelligent temperature-controlled process in house is characterized in that may further comprise the steps:
1. step through the outer weather data of outdoor data collector collecting chamber, comprises wind speed, rainfall degree, terrestrial solar radiation degree, outdoor temperature; Through data in the indoor data acquisition unit collecting chamber, comprise temperature and humidity data;
2. step to server, deposits outdoor weather data, indoor data transmission in the affiliated database of server in;
Step 3.; Database compares outdoor weather data, indoor temperature and humidity data, to carrying out relevant treatment current season, when promptly be summer current season; If indoor temperature surpasses upper temperature limit in first summer; At first water evaporation for cooling device operation continues to rise to upper temperature limit in secondary summer like temperature, then starts earth source heat pump and carries out refrigeration work; If indoor temperature is lower than upper temperature limit in first summer, then stop the operation of water evaporation for cooling device and earth source heat pump; If indoor temperature be lower than winter lowest temperature, then start earth source heat pump heat work when being winter current season, if indoor temperature is higher than the winter upper temperature limit, then closes earth source heat pump;
Step 4., if the terrestrial solar radiation degree that collects surpasses preset value, then smart host is controlled intelligent sun-shading equipment and is opened, and sunlight is blocked; If the wind speed that collects is greater than 5m/s or rainy, then smart host control sun-shading equipment is packed up;
Step 5., and is predefined 30% if the humidity that indoor data acquisition unit collects is lower than, then the operation of smart host control water evaporation for cooling device; When humidity reached 60%, then the water evaporation for cooling device quit work.
2. the intelligent temperature-controlled process in house according to claim 1; It is characterized in that: described indoor data acquisition unit also collects the solar inverter trnamission capacity and the house uses information about power, and described solar inverter trnamission capacity and house use information about power to deposit in the database; Through smart host contrast solar inverter trnamission capacity and house power consumption, draw the use energy consumption.
3. the intelligent temperature-controlled process in house according to claim 1 is characterized in that: step upper temperature limit in 3. described first summer is 25 degrees centigrade; Described secondary summer, upper temperature limit was 27 degrees centigrade; Described winter lowest temperature is 15 degrees centigrade; Described winter upper temperature limit is 25 degrees centigrade.
4. the intelligent temperature control equipment in house; Include the house body; The top of said house body is provided with eaves; It is characterized in that: described eaves are provided with outdoor data collector and water evaporation for cooling device, and the data output end of said outdoor data collector is connected into server, and said data in server output terminal is connected into smart host; Said house body indoor is provided with indoor data acquisition unit, and the data output end of indoor data acquisition unit also is connected into server; The control end of said water evaporation for cooling device is connected into smart host; Said eaves end is provided with intelligent sun-shading equipment, and the control end of said intelligent sun-shading equipment is connected into smart host; The bottom of said house body is provided with earth source heat pump, and the control end of said earth source heat pump is connected into smart host; The feeder ear of described outdoor data collector, water evaporation for cooling device, server, indoor data acquisition unit, smart host, intelligent sun-shading equipment, earth source heat pump is connected into the output terminal of consumer jointly.
5. the intelligent temperature control equipment in house according to claim 4, it is characterized in that: described outdoor data collector is arranged on the eaves top.
6. the intelligent temperature control equipment in house according to claim 4, it is characterized in that: described indoor data acquisition unit is distributed in each room under the house body.
7. the intelligent temperature control equipment in house according to claim 4; It is characterized in that: be equipped with solar panel on the described eaves; The output terminal of said solar panel is connected with solar inverter, and the output terminal of said solar inverter connects the input end of consumer.
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CN2010102748644A CN102402235A (en) | 2010-09-07 | 2010-09-07 | Intelligent house temperature control method and device applying same |
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CN2010102748644A CN102402235A (en) | 2010-09-07 | 2010-09-07 | Intelligent house temperature control method and device applying same |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105425735A (en) * | 2014-09-17 | 2016-03-23 | 珠海格力电器股份有限公司 | Intelligent household system and control method thereof |
CN109358663A (en) * | 2018-11-02 | 2019-02-19 | 温州锦瑞建设有限公司 | A kind of building intelligence roof |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2402755Y (en) * | 1999-01-13 | 2000-10-25 | 临海市正泰工艺品有限公司 | Eaves awning |
US20040108388A1 (en) * | 2002-12-09 | 2004-06-10 | Honeywell International Inc. | Humidity controller |
CN101581490A (en) * | 2009-06-22 | 2009-11-18 | 段一维 | Method for adjusting indoor temperature and system |
CN101587356A (en) * | 2008-05-23 | 2009-11-25 | 华为技术有限公司 | Temperature control system, temperature control device and temperature control method |
CN201555394U (en) * | 2009-09-24 | 2010-08-18 | 上海现代建筑设计(集团)有限公司现代都市建筑设计院 | Solar energy-ground source heat pump integration system for residential buildings |
CN201788432U (en) * | 2010-09-07 | 2011-04-06 | 苏州皇家整体住宅系统股份有限公司 | Intelligent temperature control device for houses |
-
2010
- 2010-09-07 CN CN2010102748644A patent/CN102402235A/en active Pending
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2402755Y (en) * | 1999-01-13 | 2000-10-25 | 临海市正泰工艺品有限公司 | Eaves awning |
US20040108388A1 (en) * | 2002-12-09 | 2004-06-10 | Honeywell International Inc. | Humidity controller |
CN101587356A (en) * | 2008-05-23 | 2009-11-25 | 华为技术有限公司 | Temperature control system, temperature control device and temperature control method |
CN101581490A (en) * | 2009-06-22 | 2009-11-18 | 段一维 | Method for adjusting indoor temperature and system |
CN201555394U (en) * | 2009-09-24 | 2010-08-18 | 上海现代建筑设计(集团)有限公司现代都市建筑设计院 | Solar energy-ground source heat pump integration system for residential buildings |
CN201788432U (en) * | 2010-09-07 | 2011-04-06 | 苏州皇家整体住宅系统股份有限公司 | Intelligent temperature control device for houses |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105425735A (en) * | 2014-09-17 | 2016-03-23 | 珠海格力电器股份有限公司 | Intelligent household system and control method thereof |
CN105425735B (en) * | 2014-09-17 | 2019-03-05 | 珠海格力电器股份有限公司 | Smart home system and its control method |
CN109358663A (en) * | 2018-11-02 | 2019-02-19 | 温州锦瑞建设有限公司 | A kind of building intelligence roof |
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Application publication date: 20120404 |