CN107193058A - A kind of temperature humidity measurement apparatus and its measuring method - Google Patents
A kind of temperature humidity measurement apparatus and its measuring method Download PDFInfo
- Publication number
- CN107193058A CN107193058A CN201710393984.8A CN201710393984A CN107193058A CN 107193058 A CN107193058 A CN 107193058A CN 201710393984 A CN201710393984 A CN 201710393984A CN 107193058 A CN107193058 A CN 107193058A
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- China
- Prior art keywords
- balloon
- motor
- sensor
- overhead gage
- measurement apparatus
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01W—METEOROLOGY
- G01W1/00—Meteorology
- G01W1/08—Adaptations of balloons, missiles, or aircraft for meteorological purposes; Radiosondes
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01W—METEOROLOGY
- G01W1/00—Meteorology
- G01W1/02—Instruments for indicating weather conditions by measuring two or more variables, e.g. humidity, pressure, temperature, cloud cover or wind speed
Abstract
The invention discloses a kind of temperature humidity measurement apparatus and its measuring method.Wherein:The upper end of balloon is provided with supporting plate;The top of supporting plate is provided with thermo-electric generation sheet;The mini-fan being uniformly equally spaced is provided with the outer of supporting plate;The lower end of balloon is connected with sensor stand by rope;Gravity block is provided with rope;Pressure sensor is provided with balloon.The advantage of the invention is that:Intelligence, heat energy transformation efficiency is high.
Description
Technical field
The present invention relates to a kind of temperature humidity measurement apparatus.
Background technology
Traditional atmospheric temperature humidity detector, is typically all disposed within ground or is detected in the air by meteorological balloon,
The related data of earth's surface can only be characterized by being arranged on the data of the detection means detection on ground, and with the detection means of meteorological balloon,
Height and position is easily by ambient influnence, not easy-regulating.
Patent of invention " the balloon altitude adjusted using Auto-regulating System of Density of Heavy Medium and/or volume of Google 2013.06.24 applications
Control " Application No. 201380036079.7, authorizes the method on adjusting balloon height in text:" on daytime, when there is the sun
When, the temperature of the gas in air bag can be by controlling the amount of solar energy that the gas in balloon envelope absorbs to control.In order to control
The amount for the solar energy that gas in balloon envelope processed absorbs, the absorption/reflection performance on the surface of balloon envelope can be by being supplied to
Air bag as balloon is adjusted or changed:The Part I of air bag have it is different from the Part II of air bag on reflection or
Absorb the performance of solar energy.In the exemplary embodiment, the Part I of air bag can be coated with white, or some other bright
Color, it reflects more solar energy to help prevent the gas temperature in air bag to raise compared to dark coloured surface.The of air bag
Two parts can be with painted black, or some other dark colors, and it is compared to the more solar energy of light tone Surface absorption to allow
Gas in air bag absorbs more solar energy so that the temperature rise of the gas in air bag.It can also be such case:It is transparent
Side will allow sunlight enter balloon in, make inside atmosphere temperature rising.In this manner, working as needs to make the atmosphere temperature rising in balloon
When, transparent surface is equal to the dark color or black surface of the part for the air bag towards the sun (relative to light color or other are anti-
Penetrate side).Substitute or the absorption except the part that changes balloon envelope or reflection characteristic control the solar energy into balloon envelope
Amount, it is also possible to provide a kind of balloon of asymmetrical shape so that the Part I of balloon can be orientated towards the sun, with balloon
Part II is compared when being orientated towards the sun, and the Part I makes more solar energy be absorbed by the gas in air bag.Therefore, lead to
The which side for crossing the balloon envelope of selection asymmetrical shape is orientated towards the sun, and different heats can be brought in balloon.Pass through
Rotated relative to the sun or rotate balloon (as long as this sun is just operated on the positive crown), can be by by more or less air bags
Surface alignment the sun and cause it is substantial amounts of be heated or cooled, with the Outboard Sections of balloon used in one or more materials
It is unrelated.Certainly, the balloon of asymmetrical shape can be used together with its whole balloon surface region using the balloon of identical material,
Or can cooperate with and make with the Part I of the balloon of the reflection with the Part II different from balloon, transmission or radiance
With.Therefore, balloon envelope can be engineered with orientable solar thermal energy collection system.When needs are obtained or are received
When collecting more solar thermal energies, it is allowed at most transmission or absorb the balloon parts of solar energy and can be rotated and towards the sun
Orientation.It should also be noted that the material that selection is used for manufacturing the air bag may seem non-in thermal infrared and visible light wave range
Chang Butong.Therefore, with they two wave bands (thermal infrared and visible light wave range) reflectivity, transmissivity and radiance come table
Levy or describe for balloon Part I and balloon Part II material and for every side material be it is useful,
Because performance is probably entirely different.For example, when being observed in thermal infrared, human eye seems that the bag material of white is actual
On be probably very dark (low R (reflectivity), high E (radiance), low T (transmissivity).Similarly, seen in visible light wave range
Seem the material in both sides all very reflective (high R) when examining, may have when being observed in Thermal infrared bands in side and opposite side
Very different performance, such as in metallization side R=0.95E=0.05/Rir=0.9Eir=0.1, in polymer side R
=0.9E=0.1/Rir=0.5Eir=0.5 metallization, which is stepped, draws (Mylar).
By control balloon envelope which partly towards the sun, the temperature of the gas in balloon envelope can be controlled.
In the exemplary embodiment, balloon can equipped with rotating balloon air bag ability so that the Part I of air bag or
The Part II of air bag is oriented to towards the sun.In the case where needing to improve the height of balloon, balloon envelope allows gas
The Part I that gas in capsule absorbs more solar energy can be positioned so that towards the sun to improve the gas temperature in air bag
(and improving the height of balloon).Similarly, in the case where needing reduction balloon altitude, in the permission balloon envelope of air bag
The Part II that gas absorbs less solar energy can be positioned so that towards the sun to reduce the gas temperature in balloon envelope (simultaneously
And the height of reduction balloon).Rely on solar heat be raised and lowered balloon may not be realize balloon position keep target
Most reliable method.However, being that it saves and does not consume many energy very much using the advantage of solar energy.Specifically, phase
Than changing height in some other methods by such as running electric air compressor, (possibility of many rotation balloons is used
Method) the less energy of consumption to be to rotate balloon to the required position relative to the sun.Therefore, it is high compared to control balloon
The other method of degree, less energy can be advantageously employed using solar control balloon altitude.At night, when the sun is fallen,
It is no longer possible to rotate to control balloon altitude using the balloon envelope of direct solar energy.Therefore, be able to should obtain is used at night
Control the alternative of height.Second operator scheme available for control balloon altitude can be by introducing extra lifting gas
Body enters balloon envelope or sack.By this way, gas can be pumped into or leave balloon envelope or sack with night
Between control balloon height.Altimeter or other devices are determined for height and/or fall off rate, and provide from using too
It is positive can the first mode of height control arrive the controlled using balloon envelope or the height of the inflation/deflation of capsule with gas
Two modes or the switching of their some combinations.In addition, pay(useful) load can include one or more solar cells, to store
The energy that height is controlled can be used at night.For example, daytime store solar energy can be used for by pump gas enter or from
Open the air bag or balloon of balloon
Sack controls the height of balloon.Certainly, the solar energy stored, which may also be used for storage, to be used in rotating balloon on daytime
The energy of air bag.As another example, the solar energy stored on daytime can be used for heating the gas in balloon envelope to provide
Increased buoyancy.In the case where hydrogen is used as lift gas, it is possible to use the association of solar battery array and fuel cell
Biconditional operation.The operation of fuel cell produces ballast (water, the accessory substance of fuel cell reaction), and its quality can be by controlling to fire
The operation of material battery is controlled.The fuel of fuel cell can be produced by aoxidizing hydrogen, by the energy from solar cell
Support.Hydrogen can heat pay(useful) load and/or the gas in balloon envelope and/or sack in night burning.”
The color of balloon is set to two kinds in above-mentioned patent, one kind is that light tone one kind is dark-coloured, and this set causes structure
Tend to be complicated, while have ignored the influence of the heat transfer of ambient air temperature and air bag.
The content of the invention
The invention solves the problems that task be to provide a kind of temperature humidity measurement apparatus so that can reach detection air in temperature
While with humidity data, while reaching the purpose for being easily manipulated balloon altitude.
In order to solve the above problems, the present invention is achieved by the following technical solutions:
A kind of temperature humidity measurement apparatus, including:Lower shoe 1, balloon 2, hood bag 3, the first cord 4, the first motor 5, solar energy
Generating film 6, wireless remote control 7, height sensor 8, the second motor 9, the second cord 10, overhead gage 11, conduit 12, electricity
Heated filament 13, tracheae 14, gas flowmeter 15, air pump 16, temperature sensor 17, humidity sensor 18, magnetic valve 19, fan 20;
Wherein:What the outer surface of cupular part of described balloon 2 was fixed is provided with an overhead gage 11;It is respectively mounted on described overhead gage 11
There are the first motor 5, solar power generation film 6, wireless remote control 7, height sensor 8, the second motor 9;Described balloon 2
Outer surface of cupular part and overhead gage 11 between fixed be provided with a hood bag 3;During described balloon 2 is located inside hood bag 3
Between position;The left side shirt rim at the opening of hood bag 3 is pinioned in one end of first cord 4, and the other end of the first described cord 4 is tied up
On the power output shaft of the first motor 5;The right side shirt rim at the opening of hood bag 3 is pinioned in one end of second cord 10, described
The other end of the second cord 10 tie up on the power output shaft of the second motor 9;
One end of described conduit 12 sequentially passes through the lower surface stationary phase of the internal cavities of balloon 2, hood bag 3 and overhead gage 11
Even;The upper surface of the other end and lower shoe 1 of described conduit 12 is fixedly linked;It is fixed on the lower surface of described lower shoe 1
Temperature sensor 17, humidity sensor 18 are installed;The side of described balloon 2 is connected with one end of a tracheae 14, on
The tracheae 14 stated is connected with the internal cavities of balloon 2, and what the other end of above-mentioned tracheae 14 was fixed is provided with magnetic valve 19, on
A gas flowmeter 15 is also equipped with the tracheae 14 stated;One air pump 16 is installed on the upper surface of described lower shoe 1,
Above-mentioned air pump 16 is connected by a tracheae 14 with the internal cavities of balloon 2, and one is also equipped with above-mentioned tracheae 14
Gas flowmeter 15.
A kind of temperature humidity measurement apparatus, wherein:Install the side of the described conduit 12 being located in the internal cavities of balloon 2
There is a heating wire 13;The inside of balloon 2 is provided with a mini-temperature sensor.
A kind of temperature humidity measurement apparatus, wherein:Described the first motor 5, solar power generation film 6, height sensor
8th, the second motor 9 is connected by wire with wireless remote control 7 respectively;Described gas flowmeter 15, air pump 16, temperature are passed
Sensor 17, humidity sensor 18, magnetic valve 19 are connected by the wire through conduit 12 with wireless remote control 7 respectively;Institute
The heating wire 13 stated is connected by the wire through conduit 12 with wireless remote control 7;Described wireless remote control 7 is also
It is connected with an electrical storage device;Above-mentioned electrical storage device is fixed on the upper surface of overhead gage 11.
A kind of temperature humidity measurement apparatus, wherein:Be provided with the upper surface of described overhead gage 11 4 respectively for
The fan 20 of all directions four direction;4 above-mentioned fans 20 are connected with wireless remote control 7 respectively;
Be also equipped with the upper surface of described overhead gage 11 the gps alignment systems that are connected respectively with wireless remote control 7 with
And direction sensor.
A kind of temperature humidity measurement apparatus, wherein:The outer surface of described balloon 2 is black;The appearance of described hood bag 3
Face is coated with reflecting coating.
A kind of temperature humidity measurement apparatus, wherein:Described hood bag 3 is made up of heat-barrier material.
The advantage of the invention is that:It is simple in construction, by setting temperature sensor and humidity sensor, utilize regulation height
Balloon so that the scope of detection is more extensive;By setting the balloon of black and reflective hood bag, easily realize pair
The control of balloon interior temperature, adds the heating wire of setting, and wireless remote control more to be easily manipulated.
Brief description of the drawings
Fig. 1 is structural representation of the invention.
Fig. 2 is the distribution map of fan of the present invention.
Fig. 3 is the position view of conduit of the present invention.
Reference:Lower shoe 1, balloon 2, hood bag 3, the first cord 4, the first motor 5, solar power generation film 6, wireless remote
Controller 7, height sensor 8, the second motor 9, the second cord 10, overhead gage 11, conduit 12, heating wire 13, tracheae 14, gas
Flowmeter 15, air pump 16, temperature sensor 17, humidity sensor 18, magnetic valve 19, fan 20.
Embodiment
Embodiment 1, a kind of temperature humidity measurement apparatus, including:Lower shoe 1, balloon 2, hood bag 3, the first cord 4, first
Motor 5, solar power generation film 6, wireless remote control 7, height sensor 8, the second motor 9, the second cord 10, overhead gage
11st, conduit 12, heating wire 13, tracheae 14, gas flowmeter 15, air pump 16, temperature sensor 17, humidity sensor 18, electromagnetism
Valve 19, fan 20;Wherein:What the outer surface of cupular part of described balloon 2 was fixed is provided with an overhead gage 11;Described overhead gage
The first motor 5, solar power generation film 6, wireless remote control 7, height sensor 8, the second motor are separately installed with 11
9;That is fixed between the outer surface of cupular part and overhead gage 11 of described balloon 2 is provided with a hood bag 3;Described balloon 2 is located at
Centre position inside hood bag 3;The left side shirt rim at the opening of hood bag 3 is pinioned in one end of first cord 4, and described first is thin
The other end of rope 4 is tied up on the power output shaft of the first motor 5;Pinion at the opening of hood bag 3 one end of second cord 10
Right side shirt rim, the other end of the second described cord 10 is tied up on the power output shaft of the second motor 9;
One end of described conduit 12 sequentially passes through the lower surface stationary phase of the internal cavities of balloon 2, hood bag 3 and overhead gage 11
Even;The upper surface of the other end and lower shoe 1 of described conduit 12 is fixedly linked;It is fixed on the lower surface of described lower shoe 1
Temperature sensor 17, humidity sensor 18 are installed;The side of described balloon 2 is connected with one end of a tracheae 14, on
The tracheae 14 stated is connected with the internal cavities of balloon 2, and what the other end of above-mentioned tracheae 14 was fixed is provided with magnetic valve 19, on
A gas flowmeter 15 is also equipped with the tracheae 14 stated;One air pump 16 is installed on the upper surface of described lower shoe 1,
Above-mentioned air pump 16 is connected by a tracheae 14 with the internal cavities of balloon 2, and one is also equipped with above-mentioned tracheae 14
Gas flowmeter 15.
Embodiment 2, a kind of temperature humidity measurement apparatus, wherein:The described conduit 12 being located in the internal cavities of balloon 2
Side is provided with a heating wire 13;The inside of balloon 2 is provided with a mini-temperature sensor.Remaining be the same as Example 1.
Embodiment 3, a kind of temperature humidity measurement apparatus, wherein:It is described the first motor 5, solar power generation film 6, high
Degree sensor 8, the second motor 9 are connected by wire with wireless remote control 7 respectively;Described gas flowmeter 15, air pump
16th, temperature sensor 17, humidity sensor 18, magnetic valve 19 pass through the wire and wireless remote control through conduit 12 respectively
7 are connected;Described heating wire 13 is connected by the wire through conduit 12 with wireless remote control 7;Described wireless remote
Controller 7 is also connected with an electrical storage device;Above-mentioned electrical storage device is fixed on the upper surface of overhead gage 11.Remaining is with implementation
Example 1 or 2.
Embodiment 4, a kind of temperature humidity measurement apparatus, wherein:4 are provided with the upper surface of described overhead gage 11
Respectively for the fan 20 of all directions four direction;4 above-mentioned fans 20 are connected with wireless remote control 7 respectively;
Be also equipped with the upper surface of described overhead gage 11 the gps alignment systems that are connected respectively with wireless remote control 7 with
And direction sensor.Remaining be the same as Example 3.
Embodiment 5, a kind of temperature humidity measurement apparatus, wherein:The outer surface of described balloon 2 is black;Described cover
The outer surface of bag 3 is coated with reflecting coating.Remaining be the same as Example 4.
Embodiment 6, a kind of temperature humidity measurement apparatus, wherein:Described hood bag 3 is made up of heat-barrier material.Remaining is with real
Apply example 5.
Operation principle:
It is less than the gas of air in balloon 2 filled with density, balloon 2 is hanging, and the height of balloon is detected by height sensor 8,
Solar power generation film 6 absorbs solar power generation, and temperature sensor 17, humidity sensor 18 detect the humidity and temperature of environment,
Above-mentioned data are by wireless remote control 7 from passing to remote control terminal;When daytime, external temperature is higher, gas
Ball 2 is heated, and begins to ramp up, and now wireless remote control 7 passes the altitude information by balloon 2 that height sensor 8 is detected
Pass remote terminal,
Remote terminal is by by controlling the first motor 5, the second motor 9 to rotate, putting down hood bag 3, hood bag 3 being covered into balloon completely
2, because hood bag 3 is heat-insulated, and reflection sunlight so that balloon 2 can not absorb heat energy, while controlling magnetic valve 19 to open, exclude one
Determine the gas of volume so that balloon 2 maintains certain height, when the highly desirable rise of balloon 2, now control
One motor 5, the second motor 9 rotation pull-up hood bag 3, because balloon 2 is black so that the temperature of balloon 2 is quickly raised, and balloon 2 is opened
Begin to rise,
When night, hood bag 3 is put down, the gas inside balloon 2 is heated by remote control heating wire 13, while by small
Type temperature sensor detects the temperature of internal gas, because hood bag 3 is heat-insulated so that the constant temperature of balloon 2 is stable to be risen, balloon
Highly raise;When needing to adjust the position of horizontal direction of balloon, remote controllers combination gps alignment systems and side
To sensor, the fan 20 of control specific direction works, while controlling its rotating speed, is acted on using reverse wind-force, promotes the water of balloon 2
Translation is dynamic.
Claims (6)
1. a kind of temperature humidity measurement apparatus, including:Lower shoe 1, balloon 2, hood bag 3, the first cord 4, the first motor 5, the sun
Can generate electricity film 6, wireless remote control 7, height sensor 8, the second motor 9, the second cord 10, overhead gage 11, conduit 12,
Heating wire 13, tracheae 14, gas flowmeter 15, air pump 16, temperature sensor 17, humidity sensor 18, magnetic valve 19, fan
20;Wherein:What the outer surface of cupular part of described balloon 2 was fixed is provided with an overhead gage 11;On described overhead gage 11 respectively
First motor 5, solar power generation film 6, wireless remote control 7, height sensor 8, the second motor 9 are installed;Described
That is fixed between the outer surface of cupular part and overhead gage 11 of balloon 2 is provided with a hood bag 3;Described balloon 2 is located inside hood bag 3
Centre position;The left side shirt rim at the opening of hood bag 3 is pinioned in one end of first cord 4, described the first cord 4 it is another
Tie up on the power output shaft of the first motor 5 at end;The right side shirt rim at the opening of hood bag 3 is pinioned in one end of second cord 10,
The other end of the second described cord 10 is tied up on the power output shaft of the second motor 9;
One end of described conduit 12 sequentially passes through the lower surface stationary phase of the internal cavities of balloon 2, hood bag 3 and overhead gage 11
Even;The upper surface of the other end and lower shoe 1 of described conduit 12 is fixedly linked;It is fixed on the lower surface of described lower shoe 1
Temperature sensor 17, humidity sensor 18 are installed;The side of described balloon 2 is connected with one end of a tracheae 14, on
The tracheae 14 stated is connected with the internal cavities of balloon 2, and what the other end of above-mentioned tracheae 14 was fixed is provided with magnetic valve 19, on
A gas flowmeter 15 is also equipped with the tracheae 14 stated;One air pump 16 is installed on the upper surface of described lower shoe 1,
Above-mentioned air pump 16 is connected by a tracheae 14 with the internal cavities of balloon 2, and one is also equipped with above-mentioned tracheae 14
Gas flowmeter 15.
2. a kind of temperature humidity measurement apparatus according to claim 1, wherein:Described is located in the internal cavities of balloon 2
The side of conduit 12 one heating wire 13 is installed;The inside of balloon 2 is provided with a mini-temperature sensor.
3. a kind of temperature humidity measurement apparatus according to claim 1 or 2, wherein:Described the first motor 5, solar energy
Generating film 6, height sensor 8, the second motor 9 are connected by wire with wireless remote control 7 respectively;Described gas stream
Gauge 15, air pump 16, temperature sensor 17, humidity sensor 18, magnetic valve 19 pass through the wire and nothing through conduit 12 respectively
Line remote controllers 7 are connected;Described heating wire 13 is connected by the wire through conduit 12 with wireless remote control 7;Institute
The wireless remote control 7 stated also is connected with an electrical storage device;Above-mentioned electrical storage device is fixed on the upper surface of overhead gage 11
On.
4. a kind of temperature humidity measurement apparatus according to claim 3, wherein:On the upper surface of described overhead gage 11
4 fans 20 respectively for all directions four direction are installed;4 above-mentioned fans 20 respectively with wireless remote control
7 are connected;
Be also equipped with the upper surface of described overhead gage 11 the gps alignment systems that are connected respectively with wireless remote control 7 with
And direction sensor.
5. a kind of temperature humidity measurement apparatus according to claim 4, wherein:The outer surface of described balloon 2 is black;
The outer surface of described hood bag 3 is coated with reflecting coating.
6. a kind of temperature humidity measurement apparatus according to claim 5, wherein:Described hood bag 3 is made up of heat-barrier material.
Priority Applications (1)
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CN201710393984.8A CN107193058A (en) | 2017-05-28 | 2017-05-28 | A kind of temperature humidity measurement apparatus and its measuring method |
Applications Claiming Priority (1)
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CN201710393984.8A CN107193058A (en) | 2017-05-28 | 2017-05-28 | A kind of temperature humidity measurement apparatus and its measuring method |
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CN107193058A true CN107193058A (en) | 2017-09-22 |
Family
ID=59874794
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CN201710393984.8A Pending CN107193058A (en) | 2017-05-28 | 2017-05-28 | A kind of temperature humidity measurement apparatus and its measuring method |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107628221A (en) * | 2017-10-31 | 2018-01-26 | 南京际华三五二特种装备有限公司 | A kind of warship puts ball device special tent |
CN109406009A (en) * | 2018-11-13 | 2019-03-01 | 中国科学院大气物理研究所 | Multichannel atmospheric temperature measurement device based on high altitude balloon flight platform |
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JPH10148680A (en) * | 1996-09-20 | 1998-06-02 | Fujitsu Ltd | Measuring method and system for the gases |
CN103661915A (en) * | 2013-11-18 | 2014-03-26 | 中国空间技术研究院 | Natural heat and sail driven aerostat system with controllable track |
CN103776102A (en) * | 2014-01-27 | 2014-05-07 | 无锡同春新能源科技有限公司 | Lift-off balloon used for collecting particulate matters in air |
CN106371154A (en) * | 2016-11-24 | 2017-02-01 | 苏州热工研究院有限公司 | Sonde |
CN106526707A (en) * | 2016-10-26 | 2017-03-22 | 中国气象局气象探测中心 | Automatic sounding system |
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Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
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DE2613556A1 (en) * | 1975-06-17 | 1977-01-13 | Fruengel Frank Dr Ing | Water-vapour detector for weather balloons - has photoelectric elements in air tube for modulating radiosonde transmitter |
JPH10148680A (en) * | 1996-09-20 | 1998-06-02 | Fujitsu Ltd | Measuring method and system for the gases |
CN103661915A (en) * | 2013-11-18 | 2014-03-26 | 中国空间技术研究院 | Natural heat and sail driven aerostat system with controllable track |
CN103776102A (en) * | 2014-01-27 | 2014-05-07 | 无锡同春新能源科技有限公司 | Lift-off balloon used for collecting particulate matters in air |
CN106526707A (en) * | 2016-10-26 | 2017-03-22 | 中国气象局气象探测中心 | Automatic sounding system |
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CN107628221A (en) * | 2017-10-31 | 2018-01-26 | 南京际华三五二特种装备有限公司 | A kind of warship puts ball device special tent |
CN109406009A (en) * | 2018-11-13 | 2019-03-01 | 中国科学院大气物理研究所 | Multichannel atmospheric temperature measurement device based on high altitude balloon flight platform |
CN109406009B (en) * | 2018-11-13 | 2023-08-25 | 中国科学院大气物理研究所 | Multipath atmospheric temperature measuring device based on high altitude balloon flight platform |
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Application publication date: 20170922 |