CN104281084A - State monitoring system - Google Patents
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- CN104281084A CN104281084A CN201310282181.7A CN201310282181A CN104281084A CN 104281084 A CN104281084 A CN 104281084A CN 201310282181 A CN201310282181 A CN 201310282181A CN 104281084 A CN104281084 A CN 104281084A
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
- G05B19/048—Monitoring; Safety
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Abstract
The invention discloses a state monitoring system which comprises a state monitoring device and a state information processing device. The state monitoring device is used for detecting the state of at least one plant or surrounding environment states and outputting a state monitoring result signal including the state or the environment states in a wireless mode. The state information processing device comprises an information data unit, a comparing unit, a receiving and transmitting unit and a state adjusting device, wherein the information data unit includes plant growth state information and environment state information suitable or a plant; the comparing unit compares the state monitoring result signal according to the information in the information data unit; the receiving and transmitting unit receives the state monitoring result signal and transmits a state adjusting signal; the state adjusting device adjusts the environment states according to the state adjusting signal. By means of a state monitoring method and system, a user can conveniently and immediately monitor, detect environment states in a labor-saving and time-saving mode, control relative devices to protect environment properly.
Description
Technical field
The present invention relates to a kind of condition monitoring system, and in particular to a kind of environmental state monitoring system.
Background technology
The mode of traditional environment state sensing is by user by visual inspection or with personal experience, bestows suitable looking after at reasonable time.But because the change of ambient condition time some affects very large for the mark atural object of being looked after, sometimes when ambient condition changes, user is also not easy to discover.And when user discovers the marked change of ambient condition, the time of the first rescue may be missed, cause the mark atural object of being looked after to be endangered.Therefore, how effectively improving this problem is a considerable problem.
Summary of the invention
The object of the present invention is to provide a kind of condition monitoring system, user be convenient to provide, immediately monitoring and the laborsaving ground testing environment state control relevant device and give suitable looking after to environment of saving time.
The present invention proposes a kind of condition monitoring system, comprising: a state monitoring apparatus, and in order to detect the state of at least one plant or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition; One status information treating apparatus, comprising: an information data unit, has this plant growth state information, is suitable for the environmental state information of this plant; One comparing unit, according to this status monitoring consequential signal of information comparison in information data unit; One receives delivery unit, receives this status monitoring consequential signal and transmits a state adjustment signal; And a state adjusting device, adjust this ambient condition according to this state adjustment signal.
The present invention proposes a kind of condition monitoring system, comprising: a state monitoring apparatus, and in order to detect the state of at least one biology or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition; One status information treating apparatus, comprising: an information data unit, has this biological growth status information, is suitable for the environmental state information of this biology; One comparing unit, according to this status monitoring consequential signal of information comparison in information data unit; One receives delivery unit, receives this status monitoring consequential signal and transmits a state adjustment signal; And a state adjusting device, adjust this ambient condition according to this state adjustment signal.
The present invention proposes a kind of condition monitoring system, comprising: a state monitoring apparatus, and in order to detect the state of at least one object or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition; One status information treating apparatus, comprising: an information data unit, has the environmental state information that this object existence information, one is suitable for this object; One comparing unit, according to this status monitoring consequential signal of information comparison in information data unit; One receives delivery unit, receives this status monitoring consequential signal and transmits a state adjustment signal; And a state adjusting device, adjust this ambient condition according to this state adjustment signal.
The present invention proposes a kind of condition monitoring system, comprising: a state monitoring apparatus, and in order to detect the state of at least one object or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition; One status information treating apparatus, receives this status monitoring consequential signal, adjusts signal according to this status monitoring consequential signal of an information comparison and the state that transmits; And a state adjusting device, adjust this ambient condition according to this state adjustment signal.
In sum, beneficial effect of the present invention is, condition monitoring system of the present invention by being located at the state monitoring apparatus of local side and being located at the status information treating apparatus of far-end, to maintain good ambient condition.User is convenient, immediately monitoring and the laborsaving ground testing environment state control relevant device and give suitable looking after to environment of saving time to utilize method for monitoring state of the present invention and system to provide.
For making above and other object of the present invention, feature and advantage can become apparent, cited below particularly go out preferred embodiment, and coordinate institute's accompanying drawings, be described in detail below.
Accompanying drawing explanation
The block scheme of the condition monitoring system of Fig. 1 display according to one embodiment of the invention.
Fig. 2 display is used for the method flow diagram of condition monitoring according to one embodiment of the invention.
Fig. 3 display is used for the method flow diagram of condition monitoring according to another embodiment of the present invention.
The schematic diagram of the vegetative state supervisory system of Fig. 4 display according to a preferred embodiment of the present invention.
The block scheme of the vegetative state monitoring device of Fig. 5 display according to one embodiment of the invention.
The schematic diagram of the biological aspect supervisory system for aquaculture of Fig. 6 display according to a preferred embodiment of the present invention.
The block scheme of the biological aspect monitoring device of Fig. 7 display according to one embodiment of the invention.
The schematic diagram of the indoor air quality supervisory system of Fig. 8 display according to a preferred embodiment of the present invention.
The block scheme of the indoor air quality sensing apparatus of Fig. 9 display according to one embodiment of the invention.
Wherein, description of reference numerals is as follows:
100 ~ condition monitoring system;
110 ~ state monitoring apparatus;
120 ~ status information treating apparatus;
130 ~ state adjusting device;
111a, 111b, 111c ~ sensor;
112 ~ monitoring unit;
113 ~ storage unit;
114 ~ wireless transmission unit;
120 ~ status information treating apparatus;
121 ~ information data unit;
122 ~ comparing unit;
123 ~ receive delivery unit;
124 ~ alarm unit;
125 ~ timing unit;
126 ~ auto-programming unit;
127 ~ display unit;
128 ~ input block;
130 ~ state adjusting device;
200 ~ method flow diagram;
S202, S204, S206, S208 ~ step;
300 ~ method flow diagram;
S302, S304, S306, S308, S310, S312, S314, S316, S318 ~ step;
400 ~ vegetative state supervisory system;
410 ~ vegetative state monitoring device;
430 ~ status information treating apparatus;
440 ~ container for plants;
441 ~ plant;
442 ~ water sprinkler;
443 ~ solar panels;
444 ~ nutrient supply unit;
445 ~ acid base concentration control module;
446 ~ temperature control unit;
411a ~ luminosity sensor;
411b ~ temperature sensor;
411c ~ soil humidity sensor;
411d ~ acid base concentration sensor;
411e ~ nutrient sensor;
412 ~ storage unit;
413 ~ monitoring unit;
414 ~ wireless transmission unit;
416 ~ power supply unit;
600 ~ aquaculture condition monitoring system;
610 ~ aquaculture state monitoring apparatus;
630 ~ status information treating apparatus;
640 ~ culturing pool;
641 ~ biological;
642 ~ lighting unit;
643 ~ nutrient feed unit;
644 ~ filter element;
645 ~ inflate waterwheel;
611a ~ luminosity sensor;
611b ~ acid base concentration sensor;
611c ~ dissolved oxygen amount sensor;
611d ~ opacity sensor;
612 ~ storage unit;
613 ~ monitoring unit;
614 ~ wireless transmission unit;
800 ~ indoor air quality supervisory system;
810 ~ indoor air quality sensing apparatus;
830 ~ status information treating apparatus;
840 ~ place;
The indoor set of 841 ~ separate cold;
The off-premises station of 842 ~ separate cold;
843 ~ exhaust fan;
811a ~ temperature sensor;
811b ~ gas concentration lwevel sensor;
811c ~ suspended particulates sensor;
811d ~ ozone concentration sensor;
812 ~ storage unit;
813 ~ monitoring unit;
814 ~ wireless transmission unit.
Embodiment
In order to object of the present invention, feature and advantage can be become apparent, preferred embodiment cited below particularly, and coordinate appended pictorial image 1 to Fig. 9, be described in detail.Instructions of the present invention provides different embodiment so that the technical characteristic of the different embodiment of the present invention to be described.Wherein, the use being configured to explanation of each element in embodiment, and be not used to limit the present invention.And in embodiment, the part of reference numerals repeats, and is for the purpose of simplifying the description, not means the relevance between different embodiment.
The block scheme of the condition monitoring system 100 of Fig. 1 display according to one embodiment of the invention.This condition monitoring system 100 comprises state monitoring apparatus 110, status information treating apparatus 120 and a state adjusting device 130.In this embodiment, status information treating apparatus 120 is the webserver, high in the clouds device, PC, notebook computer or mobile device.In addition, this mobile device can be board device, smart mobile phone or other portable communication apparatus.
State monitoring apparatus 110 is in order to detect the state of at least one object or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition to status information treating apparatus 120, and multiple sensor (as sensor 111a, sensor 111b and sensor 111c), monitoring unit 112, storage unit 113, wireless transmission unit 114 and a state adjustment unit 115 can be comprised.Wherein, sensor 111a, sensor 111b and sensor 111c, monitoring unit 112, storage unit 113 and wireless transmission unit 114 are coupled to state sensing device 110 respectively.In this embodiment, the quantity also changeable of multiple sensor, is not limited with three.Sensor 111a, sensor 111b and sensor 111c are in order to sense the state of at least one object or the ambient condition around it to produce a status monitoring consequential signal.The status monitoring consequential signal that monitoring unit 112 receiving sensor 111a, sensor 111b and sensor 111c send, and be stored in storage unit 113.Status monitoring consequential signal is wirelessly sent to status information treating apparatus 120 by radio network netgate by wireless transmission unit 114 with a wireless transmission method by monitoring unit 112.
In another embodiment, wireless transmission method similarly is such as, the transmission mode such as Local Area Network, internet, bluetooth (Bluetooth), Wi-Fi, Wi-Fi Direct, Zigbee.
In this embodiment, status information treating apparatus 120 comprises information data unit 121, comparing unit 122, reception delivery unit 123, alarm unit 124, timing unit 125, auto-programming unit 126, display unit 127 and an input block 128.Information data unit 121 has this object existence information, is suitable for the environmental state information of this object, the environmental state information being wherein suitable for this object is safeguard the standard value of physical environment state, and related data can be the standard environment recommended value data of the various environmental standard data through government notice or the research unit's suggestion prestored.In another embodiment, user also can upload preferably environment empirical data and, in status information treating apparatus 120, other users also with reference to its environment empirical data, and can be adjusted for the environmental state information of this object.
After status monitoring consequential signal is sent to status information treating apparatus 120 by state monitoring apparatus 110, comparing unit 122 is further analyzed, according to this status monitoring consequential signal of information comparison in information data unit 121, and judge whether this status monitoring consequential signal meets the environmental state information being suitable for this object.When comparing unit 122 judges that this status monitoring consequential signal does not meet the environmental state information being suitable for this object, namely ambient condition is in the state needing to safeguard, then alarm unit 124 can send an alarm signal to notify user.In certain embodiments, alarm signal can be an image or acoustic information.
When comparing unit 124 judges that this status monitoring consequential signal meets the environmental state information being suitable for this object, then store the data of this status monitoring consequential signal in information data unit 121.User just has access to this object growth conditions information by information data unit 121 at any time by status information treating apparatus 120, and inputs a state adjustment signal by input block 128.Status information treating apparatus 120 is again by receiving delivery unit 123 by this state adjustment signal by internet or Local Area Network delivery status adjusting gear 130.Finally, state adjusting device 130 adjusts this ambient condition, to take suitable looking after or correcting measure to ambient condition according to the adjustment of this state adjustment signal.In addition, user also transmits the new status monitoring consequential signal detected by status information treating apparatus claimed condition monitoring device according to the time cycle that one presets again.
When alarm unit 124 send alarm signal notify user time, timing unit 124 calculates the warning time sending alarm signal and whether exceeds a specific time limit, and wherein this specific time limit can be 0 or random time.When the above-mentioned warning time exceeds above-mentioned specific time limit, namely represent that user there is no input state adjustment signal in status information treating apparatus 120, then auto-programming unit 126 provides this state to adjust signal to state adjusting device 130 according to the suggestion of aforementioned comparison.When the above-mentioned warning time does not exceed above-mentioned specific time limit, then status information treating apparatus can require that state monitoring apparatus transmits the new status monitoring consequential signal detected again according to the time cycle that one presets.
In another embodiment, when alarm unit 124 send alarm signal notify user time, user can directly be looked after by input block 128 input state of status information treating apparatus 120 adjustment semaphore request auto-programming unit 137.Until after the status monitoring consequential signal that state monitoring apparatus detects meets the environmental state information being suitable for this object, alarm unit 124 removes this alarm signal.
Fig. 2 display is used for method flow Figure 200 of condition monitoring according to one embodiment of the invention.In step S202, state monitoring apparatus detects the state of at least one object or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition.In step S204, status information treating apparatus passes through a comparing unit, according to this status monitoring consequential signal of information comparison in information data unit.Then, in step S206, status information treating apparatus receives delivery unit by one and receives this status monitoring consequential signal and transmit state adjustment signal to state adjusting device.Finally, in step S208, state adjusting device adjusts this ambient condition to optimum condition according to this state adjustment signal.
Fig. 3 display is used for the method flow diagram 300 of condition monitoring according to another embodiment of the present invention.In step s 302, state monitoring apparatus detects the state of at least one object or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition.In step s 304, state monitoring apparatus is by this status monitoring consequential signal of information comparison in a comparing unit foundation information data unit.In step S306, comparing unit judges whether this status monitoring consequential signal meets the environmental state information being suitable for this object.When comparing unit judges that this status monitoring consequential signal meets the environmental state information ("Yes" namely in step S306) being suitable for this object, in step S308, comparing unit then stores these data in information data unit.When comparing unit judges that this status monitoring consequential signal does not meet the environmental state information ("No" namely in step S306) being suitable for this object, in step S310, alarm unit sends an alarm signal to notify user.Next, in step S312, timing unit starts to calculate the warning time that alarm unit sends above-mentioned alarm signal and whether exceeds a specific time limit.When the warning time does not exceed this specific time limit, ("No" namely in step S312), in step S314, status information treating apparatus claimed condition monitoring device transmits the new status monitoring consequential signal detected again according to the time cycle that one presets.When the warning time exceeds this specific time limit, ("Yes" namely in step S312), in step S316, auto-programming unit provides this state to adjust signal to state adjusting device according to the suggestion of aforementioned comparison.Finally, in step S318, state adjusting device adjusts this ambient condition to optimum condition according to this state adjustment signal.
Condition monitoring system can be one in order to sense the vegetative state supervisory system of a plant environment.The schematic diagram of the vegetative state supervisory system 400 of Fig. 4 display according to a preferred embodiment of the present invention.Vegetative state supervisory system 400 comprises vegetative state monitoring device 410, status information treating apparatus 430 and a state adjusting device (figure does not indicate).
Vegetative state monitoring device 410 is installed on a vicinity of plants.This plant 441 can be each Plants, flower, grass etc.Vegetative state supervisory system 400 also comprises water sprinkler 442, solar panels 443, linkage unit 440, nutrient supply unit 444, acid base concentration control module 445 and a temperature control unit 446.
The block scheme of the vegetative state monitoring device 410 of Fig. 5 display according to one embodiment of the invention, and please refer to Fig. 4.Vegetative state monitoring device 410 is in order to detect the state of at least one plant or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition, it comprises multiple sensor (a luminosity sensor 411a, a temperature sensor 411b, a soil humidity sensor 411c, an acid base concentration sensor 411d and a nutrient sensor 411e), storage unit 412, monitoring unit 413, wireless transmission unit 414 and a power supply unit 416.Wherein luminosity sensor 411a, temperature sensor 411b, soil humidity sensor 411c, acid base concentration sensor 411d and nutrient sensor 411e are installed on vicinity of plants respectively, and are coupled to monitoring unit 413.It should be noted that, the kind of sensor and quantity depend on the required vegetative state detected, and not limited by Fig. 5.
In this embodiment, sensed luminosity sensing value, temperature sensing value, humidity value, acid base concentration sensing value and nutrient sensing value are sent in monitoring unit 413 by luminosity sensor 411a, temperature sensor 411b, soil humidity sensor 411c, acid base concentration sensor 411d and nutrient sensor 411e.Above-mentioned sensing value is stored in the middle of the storage unit 412 in vegetative state monitoring device 410 by monitoring unit 413.All status monitoring consequential signals are then sent in status information treating apparatus 430 by wireless transmission unit 414 by monitoring unit 413.
As shown in Figure 1, status information treating apparatus 430 comprises an information data unit, reception delivery unit, a comparing unit, an alarm unit, a timing unit, an auto-programming unit, a display unit and an input block.With the element of same names in previous embodiment, its function also as previously mentioned, does not repeat them here.
It should be noted that, when comparing unit judges that this status monitoring consequential signal does not meet the environmental state information being suitable for this plant, and user one warning the time specific time limit in do not input one state adjustment signal time, auto-programming unit then can analyze this status monitoring consequential signal, and provide this state to adjust signal according to the suggestion of aforementioned comparison, be sent to state adjustment unit.State adjustment unit adjusts this ambient condition according to this state adjustment signal.For example, if when comparing unit judges that the sunshine amount that luminosity sensor 411a senses does not meet the sunshine environment status information being suitable for this plant, then auto-programming unit can provide a luminosity state adjustment signal to state adjustment unit.State adjustment unit then controls the angle of solar panels 443, using the sunshine amount that solar panels 443 shine upon in plant 441 as shadow shield with minimizing after receiving luminosity state adjustment signal.In certain embodiments, the luminous energy that solar panels 443 are collected also can be changed into the electric energy of power supply unit 416 by monitoring unit 410.In further embodiments, when power supply unit 416 generated energy is not enough, then monitoring unit 410 is by changing the angle of solar panels 443 to find the angle that can receive the more quantity of illumination.It is noted that the control of above-mentioned sunshine amount also can not change shadow shield into reach by solar panels 443.In addition, if provided by artificial light sources the sunshine of plant 441, then the control of sunshine amount is also reached by the control of the artificial light sourcess such as light.
Illustrate for an example, if comparing unit judges that the soil moisture amount that soil humidity sensor 411c senses does not meet the soil environment status information being suitable for this plant, then auto-programming unit can transmit a moisture condition adjustment signal to state adjustment unit again.State adjustment unit, after reception moisture condition adjustment signal, will control the water yield of water sprinkler 442 to reduce or to increase the soil moisture of plant 441.Again such as, if when comparing unit judges that the nutrient value that nutrient sensor 411e senses does not meet the Nutrient Environment status information being suitable for this plant, then auto-programming unit can transmit a nutrient adjustment signal to state adjustment unit.State adjustment unit, after reception nutrient adjustment signal, will control nutrient supply unit 444 and discharge fertilizer to reach the nutrient controlling plant 441.
In another is implemented, condition monitoring system can be one in order to sense the biological aspect supervisory system of a culture environment of aquatic products.The schematic diagram of the biological aspect supervisory system 600 for aquaculture of Fig. 6 display according to a preferred embodiment of the present invention.Biological aspect supervisory system 600 comprises biological state monitoring apparatus 610, status information treating apparatus 630 and a state adjusting device (figure does not indicate).
Biological aspect monitoring device 610 is installed in a culturing pool 640.Various fish, shrimp, shellfish, algae, hydrophyte etc. biological 641 can be cultivated in this culturing pool 640.Culturing pool 640 more can install lighting unit 642, nutrient feed unit 643, filter element 644 and a dozen air water cars 645.
The block scheme of the biological aspect monitoring device 610 of Fig. 7 system display according to one embodiment of the invention, and please refer to Fig. 6.Biological aspect monitoring device 610 is in order to detect the state of at least one biology or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition, it comprises multiple sensor (a luminosity sensor 611a, an acid base concentration sensor 611b, a dissolved oxygen amount sensor 611c and an opacity sensor 611d), storage unit 612, monitoring unit 613, wireless transmission unit 614 and a power supply unit 616.Wherein luminosity sensor 611a, acid base concentration sensor 611b, dissolved oxygen amount sensor 611c and opacity sensor 611d are installed in culturing pool 640 respectively, and are coupled to monitoring unit 613.It should be noted that, the kind of sensor and quantity depend on the required aquaculture state detected, and not limited by Fig. 7.
In this embodiment, sensed luminosity sensing value, acid base concentration sensing value, dissolved oxygen amount sensing value and transparency sensing value are sent in monitoring unit 613 by luminosity sensor 611a, acid base concentration sensor 611b, dissolved oxygen amount sensor 611c and opacity sensor 611d.Above-mentioned sensing value is stored in the middle of the storage unit 612 in aquaculture state monitoring apparatus 610 by monitoring unit 613.Monitoring unit 613 then passes through wireless transmission unit 614 by all status monitoring consequential signal transferring status data treating apparatus 630.
As shown in Figure 1, status information treating apparatus 630 comprises an information data unit, reception delivery unit, a comparing unit, an alarm unit, a timing unit, an auto-programming unit, a display unit and an input block.With the element of same names in previous embodiment, its function also as previously mentioned, does not repeat them here.
It should be noted that, when comparing unit judges that this status monitoring consequential signal does not meet the environmental state information being suitable for this biology, and user one warning the time a specific time limit in do not input one state adjustment signal time, auto-programming unit then can analyze this status monitoring consequential signal, and provide this state to adjust signal according to the suggestion of aforementioned comparison, be sent to state adjustment unit.State adjustment unit adjusts this ambient condition according to this state adjustment signal.For example, if when comparing unit judges that the dissolved oxygen amount that dissolved oxygen amount sensor 611c senses does not meet the dissolved oxygen amount environmental state information being suitable for this biology, then auto-programming unit can provide a dissolved oxygen amount adjustment signal to state adjustment unit.State adjustment unit, after reception dissolved oxygen amount adjustment signal, will control to inflate the dissolved oxygen amount that waterwheel 645 carries out inflating to increase Chi Shui in culturing pool 640, and increase pond water flow effect.
Illustrate for an example, if when comparing unit judges that the transparency that opacity sensor 611d senses does not meet the transparency environmental state information being suitable for this biology, then auto-programming unit can provide a transparency adjustment signal to state adjustment unit again.State adjustment unit, after reception transparency adjustment signal, will carry out filtration operation by controlled filter unit 644.
In another is implemented, condition monitoring system can be one in order to sense the indoor air quality supervisory system of indoor air quality (Indoor Air Quality, IAQ).The schematic diagram of the indoor air quality supervisory system 800 of Fig. 8 display according to a preferred embodiment of the present invention.Indoor air quality supervisory system 800 comprises indoor air quality sensing apparatus 810, status information treating apparatus 830 and a state adjusting device (figure does not indicate).
Indoor air quality sensing apparatus 810 is installed in a place 840.Off-premises station 842 and an exhaust fan 843 of indoor set 841, separate cold of a separate cold can be installed in this place 840.
The block scheme of the indoor air quality sensing apparatus 810 of Fig. 9 display according to one embodiment of the invention, and please refer to Fig. 8.Indoor air quality sensing apparatus 810 comprises multiple sensor (a temperature sensor 811a, a gas concentration lwevel sensor 811b, a suspended particulates sensor 811c and an ozone concentration sensor 811d), storage unit 812, monitoring unit 813, wireless transmission unit 814 and a power supply unit 816.Wherein temperature sensor 811a, gas concentration lwevel sensor 811b, suspended particulates sensor 811c and ozone concentration sensor 811d are installed on (figure does not show) in place 840 respectively, and are coupled to monitoring unit 813.It should be noted that, the kind of sensor and quantity depend on the required air quality project detected, and not limited by Fig. 9.
In this embodiment, sensed temperature sensing value, gas concentration lwevel sensing value, suspended particulates sensing value and ozone concentration sensing value are sent in monitoring unit 813 by temperature sensor 811a, gas concentration lwevel sensor 811b, suspended particulates sensor 811c and ozone concentration sensor 811d.Above-mentioned sensing value is stored in the middle of the storage unit 812 in indoor air quality sensing apparatus 810 by monitoring unit 813.All status monitoring consequential signals are then sent in status information treating apparatus 830 by wireless transmission unit 814 by monitoring unit 813.
As shown in Figure 1, status information treating apparatus 830 comprises an information data unit, reception delivery unit, a comparing unit, an alarm unit, a timing unit, an auto-programming unit, a display unit and an input block.With the element of same names in previous embodiment, its function also as previously mentioned, does not repeat them here.
It should be noted that, this environmental state information is suitable for when comparing unit judges that this status monitoring consequential signal does not meet, and user one warning the time a specific time limit in do not input one state adjustment signal time, auto-programming unit then can this status monitoring consequential signal, and provide this state to adjust signal according to the suggestion of aforementioned comparison, be sent to state adjustment unit.State adjustment unit adjusts this ambient condition according to this state adjustment signal.For example, if when comparing unit judges that the suspended particulates amount that suspended particulates sensor 811c senses does not meet a suitable suspended particulates environmental state information, then auto-programming unit can provide a suspended particulates adjustment signal to state adjustment unit.State adjustment unit, after receiving suspended particulates adjustment signal, will control the quantity that exhaust fan 843 is exhausted to reduce air-borne particulates.
Illustrate for an example, if when comparing unit judges that the temperature that temperature sensor 811a senses does not meet a suitable temperature environment status information, then auto-programming unit can transmit a temperature adjustment signal condition adjustment unit again.State adjustment unit is after reception temperature adjustment signal, and the indoor set 841 that will control a separate cold carries out temperature adjustment.
In sum, condition monitoring system system of the present invention by being located at the state monitoring apparatus of local side and being located at the status information treating apparatus of far-end, to maintain good ambient condition.User is convenient, immediately monitoring and the laborsaving ground testing environment state control relevant device and give suitable looking after to environment of saving time to utilize method for monitoring state of the present invention and system to provide.
Although the present invention discloses as above with preferred embodiment; so itself and be not used to limit the present invention, any those who are familiar with this art, without departing from the spirit and scope of the present invention; when doing a little change and retouching, therefore protection scope of the present invention is when being as the criterion depending on the accompanying claim person of defining.
Claims (9)
1. a condition monitoring system, comprising:
One state monitoring apparatus, in order to detect the state of at least one plant or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition;
One status information treating apparatus, comprising:
One information data unit, has this plant growth state information, is suitable for the environmental state information of this plant;
One comparing unit, according to this status monitoring consequential signal of information comparison in information data unit;
One receives delivery unit, receives this status monitoring consequential signal and transmits a state adjustment signal; And
One state adjusting device, adjusts this ambient condition according to this state adjustment signal.
2. a condition monitoring system, comprising:
One state monitoring apparatus, in order to detect the state of at least one biology or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition;
One status information treating apparatus, comprising:
One information data unit, has this biological growth status information, is suitable for the environmental state information of this biology;
One comparing unit, according to this status monitoring consequential signal of information comparison in information data unit;
One receives delivery unit, receives this status monitoring consequential signal and transmits a state adjustment signal; And
One state adjusting device, adjusts this ambient condition according to this state adjustment signal.
3. a condition monitoring system, comprising:
One state monitoring apparatus, in order to detect the state of at least one object or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition;
One status information treating apparatus, comprising:
One information data unit, has the environmental state information that this object existence information, one is suitable for this object;
One comparing unit, according to this status monitoring consequential signal of information comparison in information data unit;
One receives delivery unit, receives this status monitoring consequential signal and transmits a state adjustment signal; And
One state adjusting device, adjusts this ambient condition according to this state adjustment signal.
4. a condition monitoring system, comprising:
One state monitoring apparatus, in order to detect the state of at least one object or the ambient condition around it, and wireless output packet draws together a status monitoring consequential signal of this state or this ambient condition;
One status information treating apparatus, receives this status monitoring consequential signal, adjusts signal according to this status monitoring consequential signal of an information comparison and the state that transmits; And
One state adjusting device, adjusts this ambient condition according to this state adjustment signal.
5. the condition monitoring system as described in as arbitrary in claim 1-4, wherein this status information treating apparatus is the webserver, high in the clouds device, PC, notebook computer or mobile device.
6. condition monitoring system as claimed in claim 5, wherein this mobile device is board device, smart mobile phone or other portable communication appts.
7. the condition monitoring system as described in as arbitrary in claim 1-4, wherein this status information treating apparatus also comprises a display unit, shows this state, this ambient condition, described status information, the result of aforementioned comparison or the suggestion of aforementioned comparison.
8. the condition monitoring system as described in as arbitrary in claim 1-4, wherein this status information treating apparatus also comprises an auto-programming unit, when this status information treating apparatus receives after this status monitoring consequential signal after a specific time limit, the suggestion according to aforementioned comparison provides this state to adjust signal.
9. the condition monitoring system as described in as arbitrary in claim 1-4, wherein this status information treating apparatus also comprises an input block, adjusts this state adjustment signal for a user.
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Cited By (19)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105676806A (en) * | 2015-07-17 | 2016-06-15 | 山东正晨科技股份有限公司 | Environment control system and method thereof |
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