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CN101976063A - Bi-directional interaction human-computer interface of building environment control system - Google Patents

Bi-directional interaction human-computer interface of building environment control system Download PDF

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Publication number
CN101976063A
CN101976063A CN 201010253940 CN201010253940A CN101976063A CN 101976063 A CN101976063 A CN 101976063A CN 201010253940 CN201010253940 CN 201010253940 CN 201010253940 A CN201010253940 A CN 201010253940A CN 101976063 A CN101976063 A CN 101976063A
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CN
China
Prior art keywords
button
user
control system
viewing area
input field
Prior art date
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Pending
Application number
CN 201010253940
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Chinese (zh)
Inventor
江亿
王福林
姜子炎
侯煜
赵千川
刘奕
张帆
姜漪
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Tsinghua University
RTX Corp
Original Assignee
Tsinghua University
United Technologies Corp
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Publication date
Application filed by Tsinghua University, United Technologies Corp filed Critical Tsinghua University
Priority to CN 201010253940 priority Critical patent/CN101976063A/en
Priority to PCT/CN2010/001582 priority patent/WO2012019328A1/en
Publication of CN101976063A publication Critical patent/CN101976063A/en
Pending legal-status Critical Current

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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/18Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form
    • G05B19/409Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by using manual data input [MDI] or by using control panel, e.g. controlling functions with the panel; characterised by control panel details or by setting parameters

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  • Engineering & Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Manufacturing & Machinery (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Automation & Control Theory (AREA)
  • Air Conditioning Control Device (AREA)

Abstract

The invention relates to a bi-directional interaction human-computer interface of a building environment control system, which is characterized by comprising a frame body. A liquid crystal display touch screen is arranged on the frame body; a power supply and a communication interface are connected with the frame body; and a user subjective feeling input area for inputting various comfortable feeling buttons of a user, a user instruction input area for inputting various indoor environment control equipment instruction sliders, an environment state display area for displaying various environment parameters and a control equipment operation state display area for displaying various control equipment operation states are arranged on the liquid crystal display touch screen. Through the invention, the background control system can quickly provides a comfortable environment for the user according to the subjective feeling input by the user, and the user can acquire the feedback information such as the energy consumption state and the energy cost from the control system, thus the energy saving consciousness of the user can be aroused so as to avoid waste.

Description

A kind of man-machine interface of architectural environment control system of two-way interactive
Technical field
The present invention relates to a kind of man-machine interface, particularly about a kind of man-machine interface of architectural environment control system of two-way interactive.
Background technology
Man-machine interface is to write running parameter or input operation order by input block (as touch-screen, keyboard, mouse etc.), realizes people and the mutual digital device of machine information.The man-machine interface of traditional indoor environmental condition control system, be that the user is by button, the flat forms such as pass or mechanical knob of pushing aside, input room humiture setting value is carried out Temperature and Humidity Control automatically, manually carries out lighting illumination intensity adjusting, sun-shading louver angular adjustment and start and stop.In recent years, Marc Fountain (Energy and Buildings, Vol.21 (1994), pp.1-13) etc. develop a kind of button that design temperature is not set, only be provided with the man-machine interface of " heat rooms " and " cool room " button, this has solved the problem of cold and hot setting to a certain extent.He Wei's hero discloses a kind of human body comfort induction controller, patent No. CN200610034262.5, being provided with provides the human body of the cold and hot perception information of human body mobile detector, and the microprocessor that the perception information of human body mobile detector output is calculated, judges, according to the operation of the cold and hot perception information intelligent control of human body air conditioner.But it can not provide Based Intelligent Control to all indoor environment equipment just towards the split-type air conditioner device.Bai Xin etc. disclose a kind of utility model patent, " networking liquid crystal touch screen intelligence central air conditioner indoor controller ", patent No. ZL 200420118129.4, by a liquid crystal touch screen, allow the user can check current date, time, room temperature at any time, and can pass through the touch-screen button, change air-conditioning design temperature, blower fan wind speed, operational mode etc.
There are some problems in above-mentioned man-machine interface: because the user controls the operation of air-conditioning by input room temperature setting value, therefore cause the mistake of indoor environment cold or overheated etc. easily, and can cause the waste of the cooling or the heat supply energy.Existing man-machine interface nearly all is a kind of unidirectional man-machine interaction, can only not have the information feedback of too many indoor environment state and equipment running status to give the user by the user to system's input instruction.Because existing man-machine interface does not have enough input mediums, the user can not directly import the subjective feeling to environment, therefore can not effectively regulate unsatisfied environmental parameter to reach comfortable environment.And existing man-machine interface does not provide to the demonstration of the equipment running status in room beyond the air-conditioning with to the demonstration of the indoor environment state beyond the temperature.
Summary of the invention
At the problems referred to above, the purpose of this invention is to provide a kind of man-machine interface that can realize the architectural environment control system of user and environmental control system two-way interactive.
For achieving the above object, the present invention takes following technical scheme: a kind of man-machine interface of architectural environment control system of two-way interactive, comprise framework, described framework is provided with a liquid crystal display touch-screen, linking to each other with described framework is provided with a power supply and communication interface, and described liquid crystal display touch-screen is provided with the various user's subjective feeling input fields of experiencing button of input user, import the user instruction input field of various indoor environmental condition control device directive draw runners, show the ambient condition viewing area of various environmental parameters and the opertaing device running status viewing area of the various opertaing device running statuses of demonstration.
The button of described user's subjective feeling input field comprises too hot button, too cold button, too vexed button, too dried button, too wet button, too tired button, too bright button, too dark button and too noisy button.
The draw runner of described user instruction input field comprises air-conditioning aperture draw runner, illuminating lamp unlatching quantity draw runner, blinds aperture draw runner and exterior window aperture draw runner.
Described indoor environment status display area comprises temperature display watch, humidity display table, illumination indicator gauge, carbon dioxide indicator gauge, air-conditioning power consumption indicator gauge and illumination power consumption indicator gauge.
Described opertaing device running status viewing area comprises air-conditioning aperture viewing area, illuminating lamp unlatching quantity viewing area, blinds aperture viewing area and exterior window aperture viewing area.
The top of described liquid crystal display touch-screen is provided with impression, order and status button; Push describedly when experiencing button, show the content of described subjective feeling input field; When pushing described order button, the content of explicit user instruction input field; During status button shown in pushing, the content of display environment status display area and opertaing device running status viewing area.
Describedly push describedly when experiencing button, show that the content of described subjective feeling input field comprises: be arranged on the heat in left side, cold, wet, dried, dark, dazzling square button; Be arranged on vexed, tired, the round button that wind is big on right side.
Described when pushing described order button, show that the content of described subjective feeling input field comprises: be arranged on the open and close button of the air-conditioning in left side, the open and close button of window, the open and close button of light; Be arranged on the blinds aperture draw runner on right side.
Described when pushing described status button, the content that shows described indoor environment status display area and described opertaing device running status viewing area comprises: be arranged on temperature display watch, humidity display table, illumination indicator gauge and the carbon dioxide content indicator gauge on upper strata, be arranged on air-conditioning aperture viewing area, light aperture viewing area, blinds aperture viewing area and the window aperture viewing area of lower floor.
The layout setting of described user's subjective feeling input field and described user instruction input field becomes graphical form, and the content of described user's subjective feeling input field comprises graphic button hot and cold, wet, dried, that wind is little, wind is big, dark, bright; The content of described user instruction input field comprises hot and cold adjusting button, does, wets and regulate button, the large and small adjusting button of air quantity, bright, shadow joint button, the large and small adjusting button of blinds angle and the large and small adjusting button of window aperture.
The present invention is owing to take above technical scheme, it has the following advantages: 1, by the present invention, the user can directly import own subjective feeling to environment, thereby control system can more directly be regulated the unsatisfied environmental parameter of user, for the user provides a home from home of wanting, realize that man-machine close friend is mutual rapidly.2, by the present invention, the user can directly import comfort, thereby has avoided the frequent change of setting value and the fluctuation of the indoor environment that causes, makes environmental control system more stable.3, by the present invention, the user needn't import setting values such as unfamiliar humiture, thereby it is cold or overheated to have avoided the room to cross, and has improved indoor comfort level.4, by the present invention, the user directly imports the impression to environment, thereby more effectively realizes satisfying the integrated control of the indoor environmental condition control system equipment on the comfort requirement basis, realizes optimizing operation, saves operation energy consumption.5, the present invention can arouse user's awareness of saving energy to the power consumption state of the running status of user feedback control system, particularly system and the information that can expend, and puts and ends to waste.
Description of drawings
Fig. 1 is a structural representation of the present invention
Fig. 2 is the demonstration synoptic diagram of subjective feeling input field in the embodiment of the invention 2
Fig. 3 is the demonstration synoptic diagram of instruction input field in the embodiment of the invention 2
Fig. 4 is the demonstration synoptic diagram of status display area in the embodiment of the invention 2
Fig. 5 is an embodiment synoptic diagram again of user's subjective feeling input field of the present invention and user instruction input field
Embodiment
Below in conjunction with drawings and Examples the present invention is described in detail.
As shown in Figure 1, the present invention includes framework 1, framework 1 is provided with liquid crystal display touch-screen 2, linking to each other with framework 1 is respectively arranged with power supply and communication interface 3, and liquid crystal display touch-screen 2 is provided with user's subjective feeling input field 4, user instruction input field 5, indoor environment status display area 6 and opertaing device running status viewing area 7.
Wherein user's subjective feeling input field 4 comprises too hot button 401, too cold button 402, too vexed button 403, too dried button 404, too wet button 405, too tired button 406, too bright button 407, too dark button 408, too noisy button 409; User instruction input field 5 comprises air-conditioning aperture draw runner 501, illuminating lamp unlatching quantity draw runner 502, blinds aperture draw runner 503, exterior window aperture draw runner 504; Indoor environment status display area 6 comprises temperature display watch 61, humidity display table 62, illumination indicator gauge 63, gas concentration lwevel indicator gauge 64, air-conditioning power consumption indicator gauge 65, illumination power consumption indicator gauge 66; Opertaing device running status viewing area 7 comprises air-conditioning aperture viewing area 71, illuminating lamp unlatching quantity viewing area 72, blinds aperture viewing area 73, exterior window aperture viewing area 74.
In the foregoing description, the householder's impression on the liquid crystal display touch-screen 2 can be changed by the content setting of input field 4, user instruction input field 5, indoor environment status display area 6 and opertaing device running status viewing area 7 to some extent, for example:
As shown in Figure 2, be provided with impression, order, status button 8,9,10 in the top of liquid crystal display touch-screen 2.
When button 8 is experienced in startup, the content of explicit user subjective feeling input field 4 on the liquid crystal display touch-screen 2, the left side shows hot, cold, wet, dried, dark, dazzling square button 411,412,413,414,415,416.The right side shows the round button 417,418,419 vexed, tired, that wind is big.
When startup command button 9 (as shown in Figure 3), the content of explicit user instruction input field 5 on the liquid crystal display touch-screen 2, the left side shows the open and close button 511,512 of air-conditioning, the open and close button 513,514 of window, the open and close button 515,516 of light, right side show blinds aperture draw runner 517.
When starting state button 10 (as shown in Figure 4), the content of interior ambient condition viewing area 6 of while display room and opertaing device running status viewing area 7 on the liquid crystal display touch-screen 2, upper strata displays temperature indicator gauge 61, humidity display table 62, illumination indicator gauge 63 and carbon dioxide content indicator gauge 64, lower floor shows air-conditioning aperture viewing area 71, light aperture viewing area 72, blinds aperture viewing area 73 and window aperture viewing area 74.
As shown in Figure 5, graphical form can also be arranged in the interface of user's subjective feeling input field 4 of the present invention and user instruction input field 5.The right side is provided with the content of user's subjective feeling input field 4, and the graphic button hot and cold, wet, dried, that wind is little, wind is big, dark, bright 421,422,423,424,425,426,427,428 is arranged; Left side and below are provided with the content of user instruction input field 5, and the left side is provided with hot and cold adjusting button 521,522, do, wet and regulate button 523,524, large and small adjusting button 525,526 of air quantity and bright, shadow joint button 527,528; The below is provided with the large and small adjusting button 529,530 of blinds angle; The large and small adjusting button 531,532 of window aperture.
When the present invention moves, as shown in Figure 1, the user can be by user's subjective feeling input field 4 input comforts, the open degree of control system equipment perhaps is set by user instruction input field 5, the control system on backstage is according to user's input, come the operation of environmental control equipment in the conditioning chamber, the state that makes indoor environment reach to make the comfortable satisfaction of user.The operation of back bench control system comprises following four level content:
1), directly changes the running status of relevant device according to user's input.
For example, when the user pressed the too noisy button 409 of air-conditioning draught fan by the user's subjective feeling input field 4 in the liquid crystal display touch-screen 2, the control system on backstage directly reduced air quantity by reducing rotation speed of fan; When the user pressed too bright button 407 or too dark button 408, the control system on backstage can be adjusted the angle of blinds and the unlatching quantity of artificial light light fixture; When the user pressed too hot button 401 or too cold button 402, the control system on backstage can be adjusted the rotating speed or the gear of air-conditioning draught fan; When user's too wet button 405 of input or too dried button 406, the control system on backstage can be adjusted the aperture or the break-make of dehumidifying surface cooler water valve or humidifier; When the user pressed too vexed button 403, the control system on backstage can be adjusted the aperture of exterior window or the aperture of new air-valve.
2) according to user input, change the indoor environment setting value, and on the viewing area measured value of display environment parameter.
For example, when the user presses too hot button 401 or too cold button 402, the control system on backstage will be experienced the adjustment setting value according to the user, controller is adjusted the rotating speed of air-conditioning draught fan or the aperture or the break-make of gear and air-conditioning water valve according to setting value, change indoor temperature, humidity, and on temperature display watch 61, humidity display table 62 and air-conditioning aperture viewing area 71, demonstrate current numerical value; When the user presses too bright button 407 or too dark button 408, the control system on backstage will be experienced the adjustment setting value according to the user, controller is adjusted the unlatching quantity and the light modulation degree of sun-shading louver angle or artificial light light fixture according to setting value, change room brightness, and open the current numerical value of demonstration on quantity viewing area 72, the blinds aperture viewing area 73 at illumination indicator gauge 63, illuminating lamp; When the user presses too vexed button 403, the control system on backstage will be experienced adjustment gas concentration lwevel setting value according to the user, controller is adjusted exterior window opening angle or new valve area according to setting value, change indoor carbon dioxide content and change indoor air quality, and on gas concentration lwevel indicator gauge 64 and exterior window aperture viewing area 74, show current numerical value.In addition, back bench control system is according to the indoor environment state value of gathering, the running status of background system, the energy that current indoor environment consumes and energy expenditure etc. are kept in calculating, and these information are shown on the air-conditioning power consumption indicator gauge 65 and illumination power consumption indicator gauge 66 on foreground.
3) import according to the user, identify a kind of comfortable model, go out user's comfortable environment parameter with this model prediction, then according to these environmental parameters, regulate the operation of the equipment of indoor temperature, humidity, sound, illumination, air quality etc., the state that makes indoor environment reach to make the comfortable satisfaction of user.
4) import according to the user, set up the comfortable model of factors such as considering user's physiology, psychology, society by the software in the bench control system of back, go out the user with this model prediction and understand the comfortable environment parameter, then according to these environmental parameters, regulate the operation of the equipment of indoor temperature, humidity, sound, illumination, air quality etc., the state that makes indoor environment reach to make the comfortable satisfaction of user.
The user can also be to various indoor environmental condition control equipment input instructions, directly change the operation of indoor environmental condition control equipment, the state that makes indoor environment reach to make the comfortable satisfaction of user, for example, as user during in air-conditioning open degree draw runner 501 input setting values, opertaing device will directly be adjusted the aperture or the break-make of rotating speed or the gear and the air-conditioning water valve of air-conditioning draught fan according to setting value, change indoor temperature, humidity; When the user when illuminating lamp is opened quantity draw runner 502 input setting values, opertaing device will directly be adjusted the unlatching quantity and the light modulation degree of artificial light light fixture according to setting value, change room brightness; When the user in blinds aperture draw runner 503 input setting values, opertaing device will directly be adjusted the blinds angle according to setting value, change the visibility of natural light light-inletting quantity and outdoor view; When the user in exterior window aperture draw runner 504 input setting values, opertaing device will directly be adjusted exterior window opening angle or new valve area according to setting value, change indoor carbon dioxide content and change indoor air quality.
Before the work of the present invention, need go up the man-machine interface menu is installed human interface devices (can be one is with touch display terminal, the computing machine of communication function or the mobile phone of third party's program can be installed), then human interface devices be linked to each other with automatic building control system by wired or wireless communication interface.During operation, the user issues the controller of automatic building control system with signals such as subjective feeling or equipment operation instructions, the controller control relevant device operation of automatic building control system, and the indoor environment state value that automatic building control system is obtained fed back to the user.
The present invention only describes with the foregoing description; the layout of interface menu, the shape of figure, content displayed all can change to some extent; on the basis of technical solution of the present invention; all improvement and equivalents of individual component being carried out according to the principle of the invention all should not got rid of outside protection scope of the present invention.

Claims (10)

1. the man-machine interface of the architectural environment control system of a two-way interactive, it is characterized in that: it comprises framework, described framework is provided with a liquid crystal display touch-screen, linking to each other with described framework is provided with a power supply and communication interface, described liquid crystal display touch-screen be provided with the various user's subjective feeling input fields of experiencing button of input user, the various indoor environmental condition control device directive draw runners of input the user instruction input field, show the ambient condition viewing area of various environmental parameters and show the opertaing device running status viewing areas of various opertaing device running statuses.
2. the man-machine interface of the architectural environment control system of a kind of two-way interactive as claimed in claim 1 is characterized in that: the button of described user's subjective feeling input field comprises too hot button, too cold button, too vexed button, too dried button, too wet button, too tired button, too bright button, too dark button and too noisy button.
3. the man-machine interface of the architectural environment control system of a kind of two-way interactive as claimed in claim 1 is characterized in that: the draw runner of described user instruction input field comprises that air-conditioning aperture draw runner, illuminating lamp open quantity draw runner, blinds aperture draw runner and exterior window aperture draw runner.
4. the man-machine interface of the architectural environment control system of a kind of two-way interactive as claimed in claim 2 is characterized in that: described indoor environment status display area comprises temperature display watch, humidity display table, illumination indicator gauge, carbon dioxide indicator gauge, air-conditioning power consumption indicator gauge and illumination power consumption indicator gauge.
5. as the man-machine interface of the architectural environment control system of claim 1 or 2 or 3 or 4 described a kind of two-way interactives, it is characterized in that: described opertaing device running status viewing area comprises that air-conditioning aperture viewing area, illuminating lamp open quantity viewing area, blinds aperture viewing area and exterior window aperture viewing area.
6. the man-machine interface of the architectural environment control system of a kind of two-way interactive as claimed in claim 1, it is characterized in that: the top of described liquid crystal display touch-screen is provided with impression, order and status button; Push describedly when experiencing button, show the content of described subjective feeling input field; When pushing described order button, the content of explicit user instruction input field; During status button shown in pushing, the content of display environment status display area and opertaing device running status viewing area.
7. the man-machine interface of the architectural environment control system of a kind of two-way interactive as claimed in claim 6, it is characterized in that: describedly push describedly when experiencing button, show that the content of described subjective feeling input field comprises: be arranged on the heat in left side, cold, wet, dried, dark, dazzling square button; Be arranged on vexed, tired, the round button that wind is big on right side.
8. the man-machine interface of the architectural environment control system of a kind of two-way interactive as claimed in claim 6, it is characterized in that: described when pushing described order button, the content that shows described subjective feeling input field comprises: the open and close button that is arranged on the air-conditioning in left side, the open and close button of window, the open and close button of light; Be arranged on the blinds aperture draw runner on right side.
9. the man-machine interface of the architectural environment control system of a kind of two-way interactive as claimed in claim 7, it is characterized in that: described when pushing described status button, the content that shows described indoor environment status display area and described opertaing device running status viewing area comprises: be arranged on temperature display watch, humidity display table, illumination indicator gauge and the carbon dioxide content indicator gauge on upper strata, be arranged on air-conditioning aperture viewing area, light aperture viewing area, blinds aperture viewing area and the window aperture viewing area of lower floor.
10. the man-machine interface of the architectural environment control system of a kind of two-way interactive as claimed in claim 1, it is characterized in that: the layout setting of described user's subjective feeling input field and described user instruction input field becomes graphical form, and the content of described user's subjective feeling input field comprises graphic button hot and cold, wet, dried, that wind is little, wind is big, dark, bright; The content of described user instruction input field comprises hot and cold adjusting button, does, wets and regulate button, the large and small adjusting button of air quantity, bright, shadow joint button, the large and small adjusting button of blinds angle and the large and small adjusting button of window aperture.
CN 201010253940 2010-08-13 2010-08-13 Bi-directional interaction human-computer interface of building environment control system Pending CN101976063A (en)

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PCT/CN2010/001582 WO2012019328A1 (en) 2010-08-13 2010-10-09 Human-computer interface of two-way interactive architectural environment control system

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CN103048974A (en) * 2012-12-27 2013-04-17 北京唯绿建筑节能科技有限公司 Environment monitoring and controlling device applied to classroom
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US11587673B2 (en) 2012-08-28 2023-02-21 Delos Living Llc Systems, methods and articles for enhancing wellness associated with habitable environments
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