CN113744614A - System for demonstrating functions of air conditioner integrated sensor - Google Patents
System for demonstrating functions of air conditioner integrated sensor Download PDFInfo
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- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
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Abstract
The invention provides a system for demonstrating the function of an air conditioner integrated sensor, which comprises: a sensing system having at least two of a temperature sensor, a humidity sensor, a TVOC sensor for sensing a TVOC concentration of the demonstration ambient air, an inhalable particulate matter sensor for sensing an inhalable particulate matter indicator of the demonstration ambient air, and a CO2 sensor for sensing a CO2 concentration of the demonstration ambient air; at least one trigger device, each trigger device configured to change at least one of a demonstration ambient air temperature, humidity, TVOC concentration, inhalable particulate matter indicator, and CO2 concentration; the controller is configured to acquire a sensing value of each sensor and process the sensing value to generate information to be displayed; and the display is configured to display the information to be displayed after the information is processed by the controller. The system provided by the invention not only can better show the function of the air conditioner integrated sensor, but also can attract the attention of a user as fast as possible.
Description
Technical Field
The invention relates to the technical field of air conditioners, in particular to a system for demonstrating functions of an air conditioner integrated sensor.
Background
With the development of society and the improvement of the living standard of people, the attention on the air quality is higher and higher. In recent years, with the increasingly poor air quality, various air detection devices have come into play, people's demand for air conditioners is no longer limited to temperature regulation, and air conditioners with air quality detection functions are gradually introduced by various manufacturers.
In an air conditioning store, sales personnel mostly explain product function points for users. Due to the lack of material object demonstration, the product technology is not only boring, but also difficult to form visual impression in the heart of the user, and the user can not know the air quality detection effect of the air conditioner, so that the user can not only know the product function fully, and the popularization and the sale of the air conditioner are not facilitated.
Disclosure of Invention
It is an object of the present invention to provide a system for demonstrating the function of an air conditioner integrated sensor.
A further object of the present invention is to improve the function demonstration effect of the air conditioner integrated sensor.
It is another further object of the present invention to attract the attention of the user to the demonstration of the function of the air conditioner integrated sensor as much as possible.
In particular, the present invention provides a system for demonstrating air conditioner integrated sensor functionality, comprising:
a sensing system having at least two of a temperature sensor for sensing a temperature of the demonstrated ambient air, a humidity sensor for sensing a humidity of the demonstrated ambient air, a TVOC sensor for sensing a TVOC concentration of the demonstrated ambient air, an inhalable particulate matter sensor for sensing an indicator of the demonstrated ambient air inhalable particulate matter, and a CO2 sensor for sensing a concentration of the demonstrated ambient air CO 2;
at least one trigger device, each said trigger device configured to change at least one of a demonstration ambient air temperature, humidity, TVOC concentration, inhalable particulate matter indicator, and CO2 concentration;
the controller is configured to acquire a sensing value of each sensor and process the sensing value to generate information to be displayed; and
a display configured to display the information to be displayed after the processing by the controller.
Optionally, the controller is configured to determine which of a plurality of predetermined value ranges is the sensed value of each of the sensors, and determine the corresponding parameter level according to the value range in which the sensed value is located, wherein
The parameter level is preset for each value range of the value category sensed by each of the sensors;
the preset value ranges for each sensor are preset to be non-overlapping values but in turn constitute a continuous value range.
Optionally, the information to be displayed generated by the controller for each sensor includes: numerical value information reflecting the magnitude of the sensed value of the corresponding sensor, category information reflecting the category of the sensed value of the corresponding sensor, level information reflecting the parameter level of the sensed value of the corresponding sensor, and range division information reflecting a plurality of preset numerical ranges of the corresponding sensor;
the display is configured to have a display area corresponding to each sensor, and each display area has a numerical value information display area, a category information display area, a grade information display area, and a range division information display area to display the corresponding numerical value information, the category information, the grade information, and the range division information, respectively.
Optionally, the range division information display area is located at the bottom of the display area, and the category information display area and the numerical value information display area, the category information display area, and the grade information display area are located at the upper part of the range division information display area.
Optionally, the numerical information is displayed in a numerical form in the numerical information display area;
the category information is displayed in the category information display area in a form of characters and/or graphics;
the grade information is displayed in the grade information display area in a form of characters and/or graphics;
the range division information is displayed in the range division information display area in a form of strip-shaped color blocks comprising a plurality of intervals and numbers marked on the end points of the intervals in different intervals, and the intervals correspond to a plurality of numerical value ranges.
Optionally, the display is configured to have a display area corresponding to each of the sensors on the same display interface.
Optionally, the sensing system comprises all of the temperature sensor, the humidity sensor, the TVOC sensor, the inhalable particulate matter sensor, and the CO2 sensor;
the at least one triggering device comprises:
temperature varying means for operatively varying the temperature at the sensing site of the temperature sensor to cause a change in the sensed value of the temperature sensor;
humidity change means for operatively changing humidity at a sensing site of the humidity sensor to cause a sensed value of the humidity sensor to change;
a TVOC varying device operable to vary an air environment at a sensing site of the TVOC sensor to cause a change in a sensed value of the TVOC sensor;
a multi-parameter compound varying device operable to vary the air environment at the sensing sites of the TVOC sensor, the inhalable particulate sensor, and the CO2 sensor to cause a change in the sensed values of the respective sensors.
Optionally, at least the TVOC sensor of the sensing system is configured to be operable to independently change its position.
Optionally, the temperature changing device is ice blocks which can be taken and placed to change the resting position;
the humidity changing device comprises a watering can and water, wherein the water can be placed in the watering can to generate a spray by pressing the watering can;
the TVOC changing device comprises a watering can and alcohol, wherein the alcohol can be placed in the watering can to generate a spray by pressing the watering can;
the multi-parameter composite changing device comprises a flame-retardant box made of flame-retardant materials and defining a combustion space, and combustible materials, wherein the combustible materials can be placed in the combustion space to be ignited to generate smoke.
Optionally, the sensing location of the temperature sensor is arranged to be exposed to ambient air and is shaped to rest or to rest on ice so that the ice transfers cold directly to the sensing location of the temperature sensor in a thermally conductive manner.
In the invention, at least one trigger device can change at least one of the temperature, the humidity, the TVOC concentration, the inhalable particle index and the CO2 concentration of the demonstration environment air, and the controller can process the sensing value of each sensor to generate information to be displayed and display the information by the display, so that a user can feel the change of the value conveniently, and the function of the integrated sensor is better shown.
Further, the sensed value processing of each sensor by the controller generates information to be displayed and is displayed by the display, so that the attention of the user to the demonstration of the function of the air conditioner integrated sensor can be attracted as quickly as possible.
The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.
Drawings
FIG. 1 shows a schematic block diagram of a system for demonstrating air conditioner integrated sensor functions in accordance with an embodiment of the present invention;
fig. 2 is a schematic block diagram illustrating a triggering device of a system for demonstrating an air conditioner integrated sensor function according to an embodiment of the present invention;
FIG. 3 shows a schematic view of a display area of a display of a system for demonstrating air conditioner integrated sensor functionality according to an embodiment of the present invention;
fig. 4 shows a schematic view of a display area of a display of a system for demonstrating air conditioner integrated sensor function according to an embodiment of the present invention.
Detailed Description
Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.
Fig. 1 shows a schematic block diagram of a system for demonstrating air conditioner integrated sensor function according to an embodiment of the present invention. As shown in fig. 1, a system for demonstrating integrated sensor functions of an air conditioner may include at least a sensing system, at least one triggering device, a controller 120, and a display 110. Wherein the sensing device has at least two of a temperature sensor 130 for sensing the temperature of the demonstrated ambient air, a humidity sensor 140 for sensing the humidity of the demonstrated ambient air, a TVOC sensor 150 for sensing the TVOC concentration of the demonstrated ambient air, an inhalable particulate matter sensor 170 for sensing the indicators of inhalable particulate matter of the demonstrated ambient air, and a CO2 sensor 160 for sensing the concentration of CO2 of the demonstrated ambient air; each trigger device 180 of the at least one trigger device is configured to change at least one of a demonstration ambient air temperature, humidity, TVOC concentration, inhalable particulate matter indicator, and CO2 concentration; the controller 120 is configured to obtain a sensing value of each sensor and process the sensing value to generate information to be displayed; and a display 110 configured to display the information to be displayed processed by the controller 120.
In an embodiment of the present invention, each trigger device 180 of the at least one trigger device 180 may change at least one of the air temperature, humidity, TVOC concentration, inhalable particulate index, and CO2 concentration of the demonstration environment, and the controller 120 may process the sensed value of each sensor to generate the information to be displayed and display the information on the display 110, so that the user may feel the change of the value, and not only the air conditioner integrated sensor function is better displayed, but also the user's attention may be attracted as quickly as possible.
As shown in fig. 2, in an embodiment of the present invention, when the sensing system includes all of the temperature sensor 130, the humidity sensor 140, the TVOC sensor 150, the inhalable particulate sensor 170, and the CO2 sensor 160, the at least one triggering device 180 includes: a temperature varying device 181, a humidity varying device 182, a TVOC varying device 183, and a multi-parameter complex varying device 184. Wherein the temperature varying device 181 is configured to operatively vary the temperature at the sensing site of the temperature sensor 130 to cause the sensed value of the temperature sensor 130 to vary; the humidity altering device 182 is operable to alter the humidity at the sensing site of the humidity sensor 140 to cause a change in the sensed value of the humidity sensor 140; the TVOC varying device 183 is configured to operatively vary an air environment at a sensing site of the TVOC sensor 150 to cause a sensed value of the TVOC sensor 150 to vary; a multi-parameter varying device 184 for operatively varying the air environment at the sensing locations of the TVOC sensor 150, the inhalable particulate sensor 170, and the CO2 sensor 160 to cause the sensed values of the respective sensors to vary.
Wherein at least the TVOC sensor of the sensing system is configured to be operable to independently change its position, thereby more effectively changing the air environment at the sensing site of the TVOC sensor 150.
Specifically, the temperature changing device 181 may be an ice block that can be taken and placed to change the resting position; the humidity changing device 182 may include a watering can and water, wherein the water may be placed in the watering can to generate a spray by pressing the watering can; the TVOC varying device 183 may include a watering can and alcohol, wherein the alcohol may be placed in the watering can to generate a spray by pressing the watering can; the multi-parameter composite changing device 184 may include a flame-retardant box made of a flame-retardant material defining a combustion space, and a combustible material, wherein the combustible material may be placed in the combustion space to be ignited to generate smoke, and the combustible material may be paper, cloth, or the like.
Wherein the sensing location of the temperature sensor 130 is arranged to be exposed to ambient air and is shaped to rest or to bridge on the ice cubes such that the ice cubes conductively transfer cooling energy directly to the sensing location of the temperature sensor 130.
After at least one of the demonstration ambient air temperature, humidity, TVOC concentration, breathable particulate matter indicator, and CO2 concentration is changed by the at least one trigger device 180, the controller 120 may acquire the sensed values of the corresponding sensors and process them to generate information to be displayed for display by the display 110, so that the user experiences the change in the values,
in an embodiment of the present invention, when the sensing system has at least two sensors, the controller 120 is configured to determine which value range of a plurality of value ranges preset for each sensor the sensed value of each sensor is in, and determine the corresponding parameter level according to the value range in which the sensed value is in. The parameter level is preset for each value range of the value types sensed by each sensor, and a plurality of preset value ranges for each sensor are preset to be non-overlapping values and sequentially form a series of value ranges.
For example, for temperature sensor 130, the plurality of numerical ranges corresponding thereto may include (0 ℃, 24 ℃), [24 ℃, 27 ℃. (0 ℃, 24 ℃)],(>27 ℃ C.), wherein the parameter grade corresponding to the numerical range (0 ℃, 24 ℃) is one grade, and the temperature is lower than the temperature of 24 ℃, 27 DEG C]The corresponding parameter level isSecond-level, comfort>27 ℃) is three-level, hot; for the humidity sensor 140, the plurality of value ranges corresponding thereto may include (0%, 40%), [ 40%, 60%],(>60%) wherein the numerical range (0%, 40%) corresponds to a first order parameter rating, dry, [ 40%, 60%]The corresponding parameter level is two-level, comfort, (>60%) was three-level, wet; for the TVOC sensor 150, the plurality of value ranges corresponding thereto may include (0ppb, 220 ppb)]、(220ppb,660ppb],(660ppb,2200ppb],(2200ppb,5500ppb],(>5500ppb), wherein (0ppb, 220 ppb)]The corresponding parameter level is one grade, the air quality is excellent, (660ppb, 2200 ppb)]The corresponding parameter level is two-level, the air quality is good, (660ppb, 2200 ppb)]The corresponding parameter class is three-level, air quality is poor, (2200ppb, 5500ppb)]The corresponding parameter level is four grades, moderate contamination: (A)>5500ppb) is five grades, heavy contamination; for the CO2 sensor 160, the number of value ranges corresponding thereto may include (0ppm, 600 ppm)],(600ppm,800ppm],(800ppm,1000ppm],(1000ppm,5000ppm],(>5500ppm) of (0, 600 ppm) of]The corresponding parameter grade is first grade, and the air quality is excellent, (600ppm, 800 ppm)]The corresponding parameter grade is two grade, the air quality is good, (800ppm, 1000 ppm)]The corresponding parameter grades are three grades, and the air quality is general, (1000ppm, 5000 ppm)]The corresponding parameter grade is four grades, and the air quality is poor; for the inhalable particle sensor 170, the corresponding numerical range may include (0 μ g/m)3,35μg/m3],(35μg/m3,75μg/m3],(75μg/m3,115μg/m3],(115μg/m3,150μg/m3],(150μg/m3,250μg/m3],(>250μg/m3) Wherein (0. mu.g/m)3,35μg/m3]The corresponding parameter grade is first grade, excellent, (75 mug/m)3,115μg/m3]The corresponding parameter grade is two-grade, good, (115-150 mu g/m)3]The corresponding parameter rating was three-level, mild contamination, (150. mu.g/m)3,250μg/m3]The corresponding parameter level is four grades, moderate contamination: (A)>250μg/m3]Corresponding ginsengSeveral grades are five grades, which are seriously polluted.
The controller 120 may determine the parameter level corresponding to the sensing value of each sensor according to a plurality of value ranges established in advance for the sensing value of each sensor and the parameter levels corresponding to the plurality of value ranges.
After the controller 120 determines the parameter level corresponding to the sensing value of each sensor, the controller 120 generates information to be displayed for each sensor, specifically, the generated information to be displayed includes: the range division information includes numerical value information reflecting the magnitude of the sensed value of the corresponding sensor, category information reflecting the category of the sensed value of the corresponding sensor, level information reflecting the parameter level of the sensed value of the corresponding sensor, and range division information reflecting a plurality of preset numerical ranges of the corresponding sensor. The display 110 is further configured to have a display area 111 corresponding to each sensor, and each display area 111 has a numerical value information display area 112, a category information display area 113, a grade information display area 114, and a range division information display area 115 for displaying corresponding numerical value information, category information, grade information, and range division information, respectively. The value information may be equal to or different from the sensing value.
In an embodiment of the present invention, the range-dividing information display area 115 is located at the bottom of the display area 111, and the category information display area 113 and the numerical information display area 112, the category information display and the grade information display area 114 are located at the upper part of the range-dividing information display area 115.
Specifically, as shown in fig. 3, in the display area 111 corresponding to the temperature sensor 130 and the humidity sensor 140, the range division information display area 115 is located at the bottom of the display area 111, the rank information display area 114 is located at the upper center position of the range division display area, the numerical value information display area 112 is located at the upper portion of the range division display area 115 and at one side of the rank information display area 114, and the category information display area 113 is located at the upper portion of the rank information display area 114. As shown in fig. 4, in the display regions corresponding to the TVOC sensor 150, the inhalable particulate matter sensor 170, and the CO2 sensor 160, the range division information display region 115 is located at the bottom of the display region 111, the species information display region 113 is located at the upper center position of the range division display region, and the numerical value information display region 112 and the rank information display region 114 are located at the upper portion of the range division information display region 115 and are respectively located at both sides of the species information display region 113.
In the present embodiment, the numerical value information display area 112, the grade information display area 114 and the category information display area 113 are all located above the range division information display area 115, so that the user can more intuitively know the information that the user wants to know.
In one embodiment of the present invention, the numerical information is displayed in numerical form in the numerical information display area 112; the genre information is displayed in the genre information display area 113 in the form of characters and/or graphics; the grade information is displayed in the grade information display area 114 in the form of text and/or graphics; the range division information is displayed in the range division information display area 115 in the form of a long-strip-shaped color block including a plurality of intervals corresponding to a plurality of numerical value ranges and numbers marked on the end points of the intervals in different intervals.
Specifically, for the temperature sensor 130 and the humidity sensor 140, the category information thereof may be displayed in the form of characters in the category information display area 113 thereof, and the grade information thereof may be displayed in the form of characters and graphics in the grade information display area 114 thereof; for the TVOC sensor 150, the category information thereof may be displayed in a graphic form in the category information display area 113 thereof, and the grade information thereof may be displayed in a text form; for the inhalable particle sensor 170 and the CO2 sensor 160, the type information thereof may be displayed in the form of text and graphics in the type information display area 113 thereof, and the grade information thereof may be displayed in the form of text in the grade information display area 114 thereof; for either sensor, the numerical information may be displayed in numerical form in the numerical information display area 112.
The graph corresponding to the category information of the TVOC sensor 150 may be a leaf. The graph and the text corresponding to the type information of the CO2 sensor 160 may be cloud, which is marked with CO 2; the corresponding graph and text of the type information of the inhalable particle sensor 170 may be a curve, and the PM2.5 is marked above the curve. The graphics and text corresponding to the grade information of the temperature sensor 130 may specifically include: one leaf is comfortable; one snowflake and cold; one sun, hot. The graphics and text corresponding to the level information of the humidity sensor 140 may specifically include: one leaf is comfortable; a group of bending lines and drying; some water drop, moisture. The level information and the category information are presented in a form of graphics plus characters, so that the attention of the user can be attracted even quickly.
For any sensor, the range division information in the range division display area is displayed in the form of strip-shaped color blocks containing a plurality of intervals and numbers marked on the end points of the intervals in different intervals, and the intervals correspond to a plurality of numerical value ranges. The intervals can be different colors, and the color of the interval in one interval is darker and darker along with the increase of the numerical value. For example, the color corresponding to (0 ℃, 24 ℃) may be blue, the color corresponding to [24 ℃, 27 ℃) may be green, and the color corresponding to (>27 ℃) may be red for the temperature sensor 130. The blue color is cold in appearance, the green color is comfortable in appearance, and the red color is hot in appearance. The type information and the grade information may be associated with the color of the section to which the numerical value information belongs, and if the numerical value information belongs to [24 ℃, 27 ℃), and the associated color is green, the type information and the grade information are also displayed in green, using the temperature sensor 130 as an example. This can further quickly attract the attention of the user.
In an embodiment of the present invention, the display 110 is configured to have a display area 111 corresponding to each sensor on the same display interface, so that the information to be displayed of each sensor can be displayed simultaneously.
In the scheme provided by the invention, each trigger device 180 in at least one trigger device 180 is configured to change at least one of the demonstration ambient air temperature, humidity, TVOC concentration, inhalable particulate index and CO2 concentration, and the sensed value of each sensor can be processed by the controller 120 to generate information to be displayed and displayed by the display 110, so that a user can conveniently feel the change of the value, the function of the air conditioner integrated sensor can be better shown, and the attention of the user can be attracted as quickly as possible. Further, the display 110 is configured to have a display area 111 corresponding to each sensor, and each display area 111 has a numerical value information display area 112, a category information display area 113, a grade information display area 114, and a range division information display area 115 for displaying corresponding numerical value information, category information, grade information, and range division information, respectively, so that not only the function of the air-conditioning integrated sensor can be better exhibited, but also the user's attention can be more quickly attracted.
Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.
Claims (10)
1. A system for demonstrating air conditioner integrated sensor functionality, comprising:
a sensing system having at least two of a temperature sensor for sensing a temperature of the demonstrated ambient air, a humidity sensor for sensing a humidity of the demonstrated ambient air, a TVOC sensor for sensing a TVOC concentration of the demonstrated ambient air, an inhalable particulate matter sensor for sensing an indicator of the demonstrated ambient air inhalable particulate matter, and a CO2 sensor for sensing a concentration of the demonstrated ambient air CO 2;
at least one trigger device, each said trigger device configured to change at least one of a demonstration ambient air temperature, humidity, TVOC concentration, inhalable particulate matter indicator, and CO2 concentration;
the controller is configured to acquire a sensing value of each sensor and process the sensing value to generate information to be displayed; and
a display configured to display the information to be displayed after the processing by the controller.
2. The system of claim 1, wherein,
the controller is configured to determine which value range of a plurality of value ranges preset for each sensor the sensed value of each sensor is in, and determine the corresponding parameter level according to the value range in which the sensed value is in, wherein
The parameter level is preset for each value range of the value category sensed by each of the sensors;
the preset value ranges for each sensor are preset to be non-overlapping values but in turn constitute a continuous value range.
3. The system of claim 2, wherein,
the information to be displayed generated by the controller for each sensor comprises: numerical value information reflecting the magnitude of the sensed value of the corresponding sensor, category information reflecting the category of the sensed value of the corresponding sensor, level information reflecting the parameter level of the sensed value of the corresponding sensor, and range division information reflecting a plurality of preset numerical ranges of the corresponding sensor;
the display is configured to have a display area corresponding to each sensor, and each display area has a numerical value information display area, a category information display area, a grade information display area, and a range division information display area to display the corresponding numerical value information, the category information, the grade information, and the range division information, respectively.
4. The system of claim 3, wherein,
the range division information display area is positioned at the bottom of the display area, and the category information display area and the numerical value information display area, the category information display area and the grade information display area are positioned at the upper part of the range division information display area.
5. The system of claim 3, wherein,
the numerical value information is displayed in a numerical value information display area in a numerical form;
the category information is displayed in the category information display area in a form of characters and/or graphics;
the grade information is displayed in the grade information display area in a form of characters and/or graphics;
the range division information is displayed in the range division information display area in a form of strip-shaped color blocks comprising a plurality of intervals and numbers marked on the end points of the intervals in different intervals, and the intervals correspond to a plurality of numerical value ranges.
6. The system of claim 1, wherein,
the display is configured to have a display area corresponding to each of the sensors on the same display interface.
7. The system of claim 1, wherein,
the sensing system comprises all of the temperature sensor, the humidity sensor, the TVOC sensor, the inhalable particulate matter sensor, and the CO2 sensor;
the at least one triggering device comprises:
temperature varying means for operatively varying the temperature at the sensing site of the temperature sensor to cause a change in the sensed value of the temperature sensor;
humidity change means for operatively changing humidity at a sensing site of the humidity sensor to cause a sensed value of the humidity sensor to change;
a TVOC varying device operable to vary an air environment at a sensing site of the TVOC sensor to cause a change in a sensed value of the TVOC sensor;
a multi-parameter compound varying device operable to vary the air environment at the sensing sites of the TVOC sensor, the inhalable particulate sensor, and the CO2 sensor to cause a change in the sensed values of the respective sensors.
8. The system of claim 7, wherein,
at least the TVOC sensor of the sensing system is configured to be operable to independently change its position.
9. The system of claim 7, wherein,
the temperature changing device is an ice block which can be taken and placed to change the placement position;
the humidity changing device comprises a watering can and water, wherein the water can be placed in the watering can to generate a spray by pressing the watering can;
the TVOC changing device comprises a watering can and alcohol, wherein the alcohol can be placed in the watering can to generate a spray by pressing the watering can;
the multi-parameter composite changing device comprises a flame-retardant box made of flame-retardant materials and defining a combustion space, and combustible materials, wherein the combustible materials can be placed in the combustion space to be ignited to generate smoke.
10. The system of claim 9, wherein,
the sensing location of the temperature sensor is arranged to be exposed to ambient air and is shaped to rest or to rest on ice so that the ice transfers cold directly to the sensing location of the temperature sensor in a thermally conductive manner.
Priority Applications (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202010477218.1A CN113744614A (en) | 2020-05-29 | 2020-05-29 | System for demonstrating functions of air conditioner integrated sensor |
| PCT/CN2021/084113 WO2021238393A1 (en) | 2020-05-29 | 2021-03-30 | System for demonstrating function of air conditioner integrated sensor |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202010477218.1A CN113744614A (en) | 2020-05-29 | 2020-05-29 | System for demonstrating functions of air conditioner integrated sensor |
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| CN212256702U (en) * | 2020-05-29 | 2020-12-29 | 青岛海尔空调器有限总公司 | System for demonstrating functions of air conditioner integrated sensor |
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| US11306937B2 (en) * | 2018-08-24 | 2022-04-19 | Pixart Imaging Inc. | Temperature detecting device and air conditioner |
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| CN2519356Y (en) * | 2001-11-06 | 2002-10-30 | 海尔集团公司 | Environment simulation demonstration apparatus for air conditioner |
| CN101470991A (en) * | 2007-12-29 | 2009-07-01 | 海尔集团公司 | Teaching model apparatus of air conditioner system |
| CN203907882U (en) * | 2013-12-09 | 2014-10-29 | 美的集团股份有限公司 | Comfort level display circuit of air conditioner and air conditioner |
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| CN110738914A (en) * | 2018-07-18 | 2020-01-31 | 青岛海尔空调器有限总公司 | air conditioner purification demonstration device |
| CN212256702U (en) * | 2020-05-29 | 2020-12-29 | 青岛海尔空调器有限总公司 | System for demonstrating functions of air conditioner integrated sensor |
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| WO2021238393A1 (en) | 2021-12-02 |
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