CN110534864A - A kind of parabola antenna snow removal system based on incubation cavity - Google Patents
A kind of parabola antenna snow removal system based on incubation cavity Download PDFInfo
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- CN110534864A CN110534864A CN201910922097.4A CN201910922097A CN110534864A CN 110534864 A CN110534864 A CN 110534864A CN 201910922097 A CN201910922097 A CN 201910922097A CN 110534864 A CN110534864 A CN 110534864A
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- incubation cavity
- air
- temperature
- heater
- parabola antenna
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05D—SYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
- G05D23/00—Control of temperature
- G05D23/19—Control of temperature characterised by the use of electric means
- G05D23/20—Control of temperature characterised by the use of electric means with sensing elements having variation of electric or magnetic properties with change of temperature
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/02—Arrangements for de-icing; Arrangements for drying-out ; Arrangements for cooling; Arrangements for preventing corrosion
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q19/00—Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic
- H01Q19/10—Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic using reflecting surfaces
- H01Q19/12—Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic using reflecting surfaces wherein the surfaces are concave
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- General Physics & Mathematics (AREA)
- Engineering & Computer Science (AREA)
- Automation & Control Theory (AREA)
- Details Of Aerials (AREA)
Abstract
The invention discloses a kind of parabola antenna snow removal system based on incubation cavity, including incubation cavity, air-heater, air hose, spray wind part, ventilation opening, solenoid valve, faraday cup, lower ice sensor, the first temperature sensor, second temperature sensor, baroceptor, third temperature sensor, control module, management terminal;The incubation cavity is fixed on the bracket of the parabola antenna back side and is wrapped up, including fixed plate, bottom plate, insulation board, cover board, strip of paper used for sealing, U-bolt, is fixed with U-bolt;The spray wind part, including endless tube and spray public attention;The endless tube, is fixed on inside incubation cavity, coaxial with parabola antenna reflecting surface;Described spray public attention is mounted on the inside of endless tube, and air blasting direction is consistent and all along endless tube tangential direction.The present invention realizes that one kind is safe and reliable, easy to maintain, low energy consumption, the parabola antenna snow removal system of electromagnetic compatibility.
Description
Technical field
The invention belongs to parabola antenna snow-clearing technique fields, are related to a kind of parabola antenna snow removing system based on incubation cavity
System.
Background technique
Some parabola antennas heat snow removal system, are with parabola antenna back side bracket to rely on, by parabola antenna
The back side wraps up, and forms incubation cavity;Air-heater is placed in incubation cavity, air-heater heating and thermal insulation chamber air makes paraboloid
Antenna back temperature increases, and is thermally conducted to parabola antenna front, increases parabola antenna front temperature;Parabola antenna
Positive accumulated snow is heated to be melted, and realizes snow removing.But this method has disadvantage, first is that safety is low, air-heater is generally high-power set
It is standby, it is built in incubation cavity, if accidental electric leakage or short circuit, parabola antenna will be damaged;Second is that maintainability is poor, air-heater is built in
Incubation cavity, repair and maintenance will climb into incubation cavity, and Small Dish incubation cavity is narrow, and maintenance man passes in and out trouble, large-scale
Parabola antenna height is high, and maintenance man's high altitude operation is all inconvenient;Third is that energy consumption is high, since the parabola antenna back side installs additional
Incubation cavity and blower cause parabola antenna load-bearing to increase, and beyond design load-bearing, influence day line traffic control and signal receives, for control
Blower weight is heated, often simplifies air-heater structure, is not equipped with Power auto-adjustment module, causes reduced form air-heater only related
2 kinds of states of machine or Operation at full power, even if heat preservation cavity temperature has reached requirement, to maintain temperature, and in shutdown or Man Gong
Rate switches between running 2 kinds of states, and power curve is stepped ramp type;Fourth is that Electro Magnetic Compatibility is poor, air-heater is fixed on parabola antenna
On bracket, one is installed, and has Hz noise to parabola antenna.This just need it is a kind of it is safe and reliable, easy to maintain, low energy consumption,
The parabola antenna snow removal system of electromagnetic compatibility.
Summary of the invention
The present invention provides a kind of parabola antenna snow removal system based on incubation cavity, including incubation cavity, air-heater, air hose,
Spray wind part, ventilation opening, solenoid valve, faraday cup, lower ice sensor, the first temperature sensor, second temperature sensor, air pressure
Sensor, third temperature sensor, control module, management terminal.
The incubation cavity is fixed on the bracket of the parabola antenna back side and is wrapped up, including fixed plate, bottom plate, heat preservation
Plate, cover board, strip of paper used for sealing sequentially pass through parabola antenna back side bracket item, fixed plate, bottom plate, insulation board, cover board, envelope with U-bolt
Each component is fixed on the bracket of the parabola antenna back side by item, the angle of 2 foot of U-bolt and the adjacent 2 parabola antenna back side
The angle sum of the two of bracket item is 180 °, keeps the every foot of U-bolt vertical with corresponding insulation board.
The fixed plate is mounted on the binding site of adjoining parabolic surface antenna back side bracket item, be 4 valves, adjacent 2 valve at
100 °~175 ° angles, to adapt to the angle of adjacent 2 parabola antenna back side bracket item, every valve at least one screw hole.
The bottom plate, quadrangle are separately fixed in 4 fixed plates.
The insulation board, quadrangle are separately fixed in 4 fixed plates, for heat preservation, fire-retardant, waterproof material.
The cover board, quadrangle are separately fixed in 4 fixed plates.
The strip of paper used for sealing is fixed at least four fixed plate, gap between covering plate, reinforces incubation cavity.
The air-heater, including heating module, blower are located in faraday cup, and air-heater and air hose are with damping and electrically
Hot gas is sent into incubation cavity through air hose, spray wind part, promotes incubation cavity temperature by isolation method connection.
The air hose is made of high-intensitive, material resistant to high temperature, scalable at S type, reserves redundant length, works as paraboloid
Antenna reflective face when changing in from level to vertical angular range Extensible to adapt to and keep secured with incubation cavity
Connection.
The spray wind part, including endless tube and spray public attention.
The endless tube is fixed on inside incubation cavity for cyclic annular high-temperature resistant pipeline, coaxial with parabola antenna reflecting surface.
Described spray public attention, at least three are mounted on the inside of endless tube, and air blasting direction is consistent and all along endless tube tangential direction.
The ventilation opening, at least one are located at incubation cavity bottom, there is strainer, and ventilation parameters keep the temperature cavity temperature and air pressure.
The solenoid valve connects incubation cavity and ventilation opening.
The lower ice sensor measures the state value that snows.
First temperature sensor measures outdoor temperature, only in outdoor temperature less than 0 ° and the sensor states that snow
Value is just to be judged as really to snow when snowing, to prevent from reporting by mistake.
The second temperature sensor measures incubation cavity temperature.
The third temperature sensor measures air-heater outlet temperature.
The control module, from lower ice sensor, the first temperature sensor, second temperature sensor, baroceptor,
Three-temperature sensor acquisition is snowed state, outdoor temperature, incubation cavity temperature, incubation cavity air pressure, air-heater outlet temperature, by whether
Snow control air-heater switching on and shutting down, by incubation cavity insulating value and incubation cavity temperature carry out air-heater PID power regulation and
Solenoid closure angular adjustment is carried out by the air pressure upper limit value of incubation cavity and the atmospheric pressure value control solenoid closure angle of incubation cavity
The air pressure adjustment of incubation cavity detects air-heater failure by on-off state and air-heater Outlet Temperature value and alarms.
The management terminal is one of computer, mobile phone, plate, carries out network communication with control module, communication network is string
One of mouth network, fieldbus networks, IP local area network, internet, 4G network, 5G network, 6G network, are obtained by control module
Snow removal system state, control air-heater, the temperature and air pressure for adjusting incubation cavity.
Remarkable result of the invention is:
The installation of the parabola antenna back side incubation cavity carries out heating snow removing, air-heater is located in faraday cup and through air hose to incubation cavity
Heating, air-heater and air hose are connected in a manner of damping and electrical isolation, the structure, first is that incubation cavity is separated with air-heater, hot wind
Machine is external, reduces parabola antenna weight bearing, does not influence parabola antenna Mechanical course;Second is that air-heater be located in faraday cup and
With incubation cavity electrical isolation, the electrical system of parabola antenna is not influenced, electromagnetic compatibility is good, highly-safe;Third is that air-heater event
It is easy to maintain without being safeguarded in the incubation cavity for entering the parabola antenna back side of climbing when barrier.
Fixed plate is mounted on the binding site of adjoining parabolic surface antenna back side bracket item, be 4 valves, adjacent 2 valve at 100 °~
175 ° of angles sequentially pass through the parabola antenna back side with U-bolt to adapt to the angle of adjoining parabolic surface antenna back side bracket item
Each component is fixed on the bracket of the parabola antenna back side by bracket item, fixed plate, bottom plate, insulation board, cover board, strip of paper used for sealing, U-bolt
The angle sum of the two of the angle of 2 feet and adjacent 2 parabola antenna back side bracket item be 180 °, make the every foot of U-bolt with it is right
Answer insulation board vertical;The structure makes entire incubation cavity become an entirety, and securely solid, wind resistance is strong.
It is snowed state value with sensor measurement of snowing, the first temperature sensor measurement outdoor temperature, only in outdoor temperature
Less than 0 ° and the sensor status values that snow are just to be judged as really to snow to prevent from reporting by mistake when snowing;System reliability is high.
Endless tube is cyclic annular high-temperature resistant pipeline, is fixed on inside incubation cavity, coaxial with parabola antenna reflecting surface;Public attention is sprayed,
At least three is mounted on the inside of endless tube, and air blasting direction is consistent and all along endless tube tangential direction;It is formed in this way in incubation cavity cyclic annular
Circulating air, first is that incubation cavity quick heating, second is that the high-pressure hot wind for avoiding spray public attention from spraying directly sprays to parabola antenna reflection
Surface backplate and heat preservation cavity shell, prevent damage parabola antenna reflection surface backplate and heat preservation cavity shell.
High-pressure hot gas is sent into incubation cavity through air hose, spray wind part by air-heater;Air hose, by high-intensitive, material resistant to high temperature
It is made, it is scalable at S type, redundant length is reserved, when parabola antenna reflecting surface is becoming in from level to vertical angular range
Extensible is when change to adapt to and securely connect with incubation cavity holding;Such pipeline configuration retractility is strong, does not influence parabolic
The angle of surface antenna adjusts.
Ventilation opening, at least one are located at incubation cavity bottom, there is strainer, and ventilation parameters keep the temperature cavity temperature and air pressure;Electromagnetism
Valve connects ventilation opening;Solenoid valve gives incubation cavity heat-insulation pressure keeping when closing, heat preservation cavity temperature and air pressure are adjusted when solenoid valve is opened,
The hot gas of discharge wraps up antenna from bottom to top simultaneously, keeps the temperature to antenna and incubation cavity, realizes heat secondary use, energy conservation.
Management terminal is connected to the network and controls control module, and control module is from lower ice sensor, the first temperature sensor,
Two temperature sensors, baroceptor, third temperature sensor obtain snow state, outdoor temperature, incubation cavity temperature, incubation cavity
Air pressure, air-heater outlet temperature, by whether snowing and control the switching on and shutting down of air-heater, by the insulating value and incubation cavity temperature of incubation cavity
Carry out air-heater PID power regulation and solenoid closure angular adjustment, by the air pressure upper limit value of incubation cavity and the gas of incubation cavity
Duty control solenoid valve closure angle is pressed to carry out the air pressure adjustment of incubation cavity, detect by on-off state and air-heater Outlet Temperature value
Air-heater failure is simultaneously alarmed;Realize the efficient control to snow removal system.
Detailed description of the invention
Fig. 1 is structure chart of the invention.
Fig. 2 is circuit structure diagram of the invention.
Fig. 3 is incubation cavity structure top view of the invention.
Fig. 4 is incubation cavity structural side view of the invention.
Specific embodiment
Specific embodiment and working principle of the present invention will be described in further detail with reference to the accompanying drawing.
As Figure 1-Figure 4, a kind of parabola antenna snow removal system based on incubation cavity, including incubation cavity 1, air-heater 2,
Air hose 3, spray wind part 4, ventilation opening 5, solenoid valve 6, faraday cup 7, lower ice sensor 8, first the 9, second temperature of temperature sensor
Spend sensor 10, baroceptor 11, third temperature sensor 12, control module 13, management terminal 14.
The incubation cavity 1 is fixed on the bracket of the parabola antenna back side and is wrapped up, including fixed plate 101, bottom plate
102, insulation board 103, cover board 104, strip of paper used for sealing 105, U-bolt 106 sequentially pass through parabola antenna back side branch with U-bolt 106
Each component is fixed on the parabola antenna back side by frame item, fixed plate 101, bottom plate 102, insulation board 103, cover board 104, strip of paper used for sealing 105
On bracket, the angle sum of the two of the angle of 1062 foot of U-bolt and adjacent 2 parabola antenna back side bracket item is 180 °,
Keep the every foot of U-bolt 106 vertical with corresponding insulation board 103.
The fixed plate 101 is mounted on the binding site of adjoining parabolic surface antenna back side bracket item, is 4 valves, adjacent 2 valve
At 100 °~175 ° angles, to adapt to the angle of adjacent 2 parabola antenna back side bracket item, every valve at least one screw hole.
The bottom plate 102, quadrangle are separately fixed in 4 fixed plates 101.
The insulation board 103, quadrangle are separately fixed in 4 fixed plates 101, for heat preservation, fire-retardant, waterproof material.
The cover board 104, quadrangle are separately fixed in 4 fixed plates 101.
The strip of paper used for sealing 105, is fixed at least four fixed plate 101, gap between covering plate, reinforces incubation cavity 1.
The air-heater 2, including heating module 201, blower 202 are located in faraday cup 7, air-heater 2 and air hose 3 with
Damping is connected with electrical isolation mode, and hot gas is sent into incubation cavity 1 through air hose 3, spray wind part 4, promotes 1 temperature of incubation cavity.
The air hose 3 is made of high-intensitive, material resistant to high temperature, scalable at S type, reserves redundant length, works as parabolic
Surface antenna reflecting surface in from level to vertical angular range change when Extensible with adapt to and with incubation cavity 1 keep jail
It is solidly connected.
The spray wind part 4, including endless tube 401 and spray public attention 402.
The endless tube 401 is fixed on inside incubation cavity 1 for cyclic annular high-temperature resistant pipeline, same with parabola antenna reflecting surface
Axis.
Described spray public attention 402, at least three are mounted on 401 inside of endless tube, and air blasting direction is consistent and all along 401 tangent line of endless tube
Direction.
The ventilation opening 5, at least one are located at 1 bottom of incubation cavity, have strainer, temperature is gentle in ventilation parameters incubation cavity 1
Pressure.
The solenoid valve 6 connects incubation cavity 1 and ventilation opening 5.
The lower ice sensor 8 measures the state value that snows.
First temperature sensor 9 measures outdoor temperature, only in outdoor temperature less than 0 ° and 8 shape of lower ice sensor
State value is just to be judged as really to snow when snowing, to prevent from reporting by mistake.
The second temperature sensor 10 measures 1 temperature of incubation cavity.
The third temperature sensor 12 measures 2 outlet temperature of air-heater.
The control module 13, from lower ice sensor 8, the first temperature sensor 9, second temperature sensor 10, air pressure transmission
Sensor 11, third temperature sensor 12 obtain snow state, outdoor temperature, 1 temperature of incubation cavity, 1 air pressure of incubation cavity, air-heater 2
Outlet temperature, by whether snow control air-heater 2 switching on and shutting down, by incubation cavity 1 insulating value and 1 temperature of incubation cavity carry out hot wind
The PID power regulation and solenoid valve 6 of machine 2 are closed angular adjustment, by the air pressure upper limit value of incubation cavity 1 and the atmospheric pressure value of incubation cavity 1
Solenoid valve 6 is controlled to be closed the air pressure adjustment of angle progress incubation cavity 1, detect by on-off state and 2 Outlet Temperature value of air-heater
2 failure of air-heater is simultaneously alarmed.
The management terminal 14 is one of computer, mobile phone, plate, carries out network communication, communication network with control module 13
For one of serial network, fieldbus networks, local area network, internet, 4G network, 5G network, 6G network, pass through control module 13
Obtain snow removal system state, control air-heater 2, the temperature and air pressure for adjusting incubation cavity 1.
In the embodiment of the present invention:
The installation of the parabola antenna back side incubation cavity 1 carries out heating snow removing, air-heater 2 is located in faraday cup 7 and through air hose 3 to guarantor
The warm heating of chamber 1, air-heater 2 are connect in a manner of damping and electrical isolation with air hose 3, the structure, first is that incubation cavity 1 and air-heater 2
Separation, air-heater 2 is external, reduces parabola antenna weight bearing, does not influence parabola antenna Mechanical course;Second is that air-heater 2 is located at
In faraday cup 7 and with 1 electrical isolation of incubation cavity, do not influence the electrical system of parabola antenna, electromagnetic compatibility is good, safety
It is high;Third is that without being safeguarded in the incubation cavity 1 for entering the parabola antenna back side of climbing when 2 failure of air-heater, it is easy to maintain.
Fixed plate 101 is mounted on the binding site of adjoining parabolic surface antenna back side bracket item, be 4 valves, adjacent 2 valve at
100 °~175 ° angles sequentially pass through parabolic with U-bolt 106 to adapt to the angle of adjoining parabolic surface antenna back side bracket item
Each component is fixed on throwing by surface antenna back side bracket item, fixed plate 101, bottom plate 102, insulation board 103, cover board 104, strip of paper used for sealing 105
On the bracket of the object plane antenna back side, 2 foot angles of U-bolt 106 and both angles of adjacent 2 parabola antenna back side bracket item
The sum of be 180 °, keep the every foot of U-bolt 106 vertical with corresponding insulation board 103.The structure keeps entire incubation cavity 1 whole as one
Body, securely solid, wind resistance is strong.
The state value that snows is measured with lower ice sensor 8, the first temperature sensor 9 measures outdoor temperature, only in outdoor temp
Degree is less than 0 ° and 8 state value of lower ice sensor is just to be judged as really to snow to prevent from reporting by mistake when snowing.System reliability is high.
Endless tube 401 is cyclic annular high-temperature resistant pipeline, is fixed on inside incubation cavity 1, coaxial with parabola antenna reflecting surface.Spray wind
First 402, at least three is mounted on 401 inside of endless tube, and air blasting direction is consistent and all along 401 tangential direction of endless tube.It is keeping the temperature in this way
Cyclic annular circulating air is formed in chamber 1, first is that 1 quick heating of incubation cavity, second is that the high-pressure hot wind for avoiding spray public attention 402 from spraying directly sprays
Surface backplate and 1 shell of incubation cavity are reflected to parabola antenna, prevents damage parabola antenna reflection surface backplate and 1 shell of incubation cavity
Body.
High-pressure hot gas is sent into incubation cavity 1 through air hose 3, spray wind part 4 by air-heater 2.Air hose 3, by high-intensitive, resistant to high temperature
Material is made, scalable at S type, redundant length is reserved, when parabola antenna reflecting surface is from level to vertical angular range
Extensible is when interior variation to adapt to and keep securely connecting with incubation cavity 1.Such pipeline configuration retractility is strong, does not influence
The angle of parabola antenna adjusts.
Ventilation opening 5, at least one are located at 1 bottom of incubation cavity, have strainer, temperature and air pressure in ventilation parameters incubation cavity 1.Electricity
Magnet valve 6 connects ventilation opening 5.Solenoid valve 6 gives incubation cavity 1 heat-insulation pressure keeping when closing, and temperature in incubation cavity 1 is adjusted when solenoid valve 6 is opened
Degree and air pressure, while the hot gas being discharged wraps up antenna from bottom to top, keeps the temperature to antenna and incubation cavity 1, realizes heat secondary use,
Energy conservation.
Management terminal 14 is connected to the network and controls control module 13, and control module 13 is passed from lower ice sensor 8, the first temperature
Sensor 9, second temperature sensor 10, baroceptor 11, third temperature sensor 12 obtain snow state, outdoor temperature, guarantor
Warm 1 temperature of chamber, 1 air pressure of incubation cavity, 2 outlet temperature of air-heater, by whether snowing and control the switching on and shutting down of air-heater 2, by incubation cavity 1
Insulating value and 1 temperature of incubation cavity carry out air-heater 2 PID power regulation and solenoid valve 6 be closed angular adjustment, press incubation cavity 1
Air pressure upper limit value and incubation cavity 1 air pressure duty control solenoid valve 6 be closed angle carry out incubation cavity 1 air pressure adjustment, by switch
Machine state and 2 Outlet Temperature value of air-heater detection 2 failure of air-heater are simultaneously alarmed.Realize the efficient control to snow removal system.
The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations.Although with reference to the foregoing embodiments
Invention is explained in detail, those skilled in the art should understand that: it still can be to previous embodiment
Documented technical solution is modified or equivalent replacement of some of the technical features.And these are modified or replace
It changes, the spirit and scope for technical solution of the embodiment of the present invention that it does not separate the essence of the corresponding technical solution.
Claims (2)
1. a kind of parabola antenna snow removal system based on incubation cavity, it is characterised in that: including incubation cavity, air-heater, air hose, spray
Wind part, ventilation opening, solenoid valve, faraday cup, lower ice sensor, the first temperature sensor, second temperature sensor, air pressure transmission
Sensor, third temperature sensor, control module, management terminal;
The incubation cavity is fixed on the bracket of the parabola antenna back side and is wrapped up, including fixed plate, bottom plate, insulation board, lid
Plate, strip of paper used for sealing, U-bolt sequentially pass through parabola antenna back side bracket item, fixed plate, bottom plate, insulation board, lid with U-bolt
Each component is fixed on the bracket of the parabola antenna back side by plate, strip of paper used for sealing, the angle of 2 foot of U-bolt and adjacent 2 parabola antennas
The angle sum of the two of back side bracket item is 180 °, keeps the every foot of U-bolt vertical with corresponding insulation board;
The fixed plate is mounted on the binding site of adjoining parabolic surface antenna back side bracket item, be 4 valves, adjacent 2 valve at 100 °~
175 ° of angles, to adapt to the angle of adjacent 2 parabola antenna back side bracket item, every valve at least one screw hole;
The bottom plate, quadrangle are separately fixed in 4 fixed plates;
The insulation board, quadrangle are separately fixed in 4 fixed plates, for heat preservation, fire-retardant, waterproof material;
The cover board, quadrangle are separately fixed in 4 fixed plates;
The strip of paper used for sealing is fixed at least four fixed plate, gap between covering plate, reinforces incubation cavity;
The air-heater, including heating module, blower are located in faraday cup, and air-heater and air hose are with damping and electrical isolation
Mode connects, and hot gas is sent into incubation cavity through air hose, spray wind part, promotes incubation cavity temperature;
The air hose is made of high-intensitive, material resistant to high temperature, scalable at S type, reserves redundant length, works as parabola antenna
Reflecting surface in from level to vertical angular range change when Extensible with adapt to and with incubation cavity holding securely connect;
The spray wind part, including endless tube and spray public attention;
The endless tube is fixed on inside incubation cavity for cyclic annular high-temperature resistant pipeline, coaxial with parabola antenna reflecting surface;
Described spray public attention, at least three are mounted on the inside of endless tube, and air blasting direction is consistent and all along endless tube tangential direction;
The ventilation opening, at least one are located at incubation cavity bottom, there is strainer, and ventilation parameters keep the temperature cavity temperature and air pressure;
The solenoid valve connects incubation cavity and ventilation opening;
The lower ice sensor measures the state value that snows;
First temperature sensor measures outdoor temperature, only in outdoor temperature less than 0 ° and the sensor status values that snow are
Just it is judged as when snowing and really snows, prevents from reporting by mistake;
The second temperature sensor measures incubation cavity temperature;
The third temperature sensor measures air-heater outlet temperature;
The control module, from lower ice sensor, the first temperature sensor, second temperature sensor, baroceptor, third temperature
Whether degree sensor acquisition is snowed state, outdoor temperature, incubation cavity temperature, incubation cavity air pressure, air-heater outlet temperature, by snowing
It controls the switching on and shutting down of air-heater, carry out the PID power regulation and electromagnetism of air-heater by the insulating value and incubation cavity temperature of incubation cavity
Valve closure angular adjustment is kept the temperature by the air pressure upper limit value of incubation cavity and the atmospheric pressure value control solenoid closure angle of incubation cavity
The air pressure adjustment of chamber detects air-heater failure by on-off state and air-heater Outlet Temperature value and alarms;
The management terminal carries out network communication with control module, obtains snow removal system state, control hot wind by control module
Machine, the temperature and air pressure for adjusting incubation cavity.
2. management terminal according to claim 1, it is characterized in that: being one of computer, mobile phone, plate, the communication network used
Network is one of serial network, fieldbus networks, local area network, internet, 4G network, 5G network, 6G network.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110931934A (en) * | 2019-12-23 | 2020-03-27 | 福建省早道文化传媒有限公司 | Miniaturized antenna applied to 5G mobile communication |
CN110994115A (en) * | 2019-12-05 | 2020-04-10 | 云国珍 | Folding communication antenna with good outdoor protection effect |
CN111193094A (en) * | 2020-02-21 | 2020-05-22 | 泉州早稻云信息科技有限公司 | Portable 5G communication antenna equipment |
CN115632222A (en) * | 2022-12-19 | 2023-01-20 | 零八一电子集团四川力源电子有限公司 | Antenna snow and ice melting system |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107104263A (en) * | 2017-05-09 | 2017-08-29 | 成都市宏山科技有限公司 | A kind of antenna for base station for being easy to remove the snow |
CN107394338A (en) * | 2017-08-21 | 2017-11-24 | 宋飞 | A kind of satellite antenna snow melt deicing system and snow melt de-icing method |
CN107906749A (en) * | 2017-10-27 | 2018-04-13 | 合肥因艾信息科技有限公司 | A kind of parabola antenna snow removal system of intelligence spray wind |
CN109301432A (en) * | 2018-11-20 | 2019-02-01 | 中国地质调查局成都地质调查中心 | A kind of roof satellite pot cover snow-removing device |
-
2019
- 2019-09-27 CN CN201910922097.4A patent/CN110534864A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107104263A (en) * | 2017-05-09 | 2017-08-29 | 成都市宏山科技有限公司 | A kind of antenna for base station for being easy to remove the snow |
CN107394338A (en) * | 2017-08-21 | 2017-11-24 | 宋飞 | A kind of satellite antenna snow melt deicing system and snow melt de-icing method |
CN107906749A (en) * | 2017-10-27 | 2018-04-13 | 合肥因艾信息科技有限公司 | A kind of parabola antenna snow removal system of intelligence spray wind |
CN109301432A (en) * | 2018-11-20 | 2019-02-01 | 中国地质调查局成都地质调查中心 | A kind of roof satellite pot cover snow-removing device |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110994115A (en) * | 2019-12-05 | 2020-04-10 | 云国珍 | Folding communication antenna with good outdoor protection effect |
CN110931934A (en) * | 2019-12-23 | 2020-03-27 | 福建省早道文化传媒有限公司 | Miniaturized antenna applied to 5G mobile communication |
CN111193094A (en) * | 2020-02-21 | 2020-05-22 | 泉州早稻云信息科技有限公司 | Portable 5G communication antenna equipment |
CN115632222A (en) * | 2022-12-19 | 2023-01-20 | 零八一电子集团四川力源电子有限公司 | Antenna snow and ice melting system |
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