CN206559799U - A kind of aeration radiation system - Google Patents
A kind of aeration radiation system Download PDFInfo
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- CN206559799U CN206559799U CN201720178247.1U CN201720178247U CN206559799U CN 206559799 U CN206559799 U CN 206559799U CN 201720178247 U CN201720178247 U CN 201720178247U CN 206559799 U CN206559799 U CN 206559799U
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- module
- ventilation
- heat subsystem
- blower fan
- temperature
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Abstract
The utility model discloses a kind of aeration radiation system, 1 ventilation and heat subsystem is all installed in each face wall of computer room, the installation site of each ventilation and heat subsystem is corresponding, using wind come to along wind, wind is rolled out computer room by the blower fan on adjacent wall on opposition face wall or on opposition face wall, both the structure of computer room had in itself been make use of, wind direction can be utilized again, starts corresponding ventilation and heat subsystem on demand, reduce electric energy loss;Ventilation and heat subsystem includes key-press module, wind direction and wind velocity detection module, Temperature and Humidity module, controller module, drive module and blower fan, user sets required temperature and humidity by key-press module, when humiture is not up to arranges value, controller module is according to the humiture and wind direction of actual measurement, decide whether to start blower fan, and whether start the blower fan on opposition face wall and/or the adjacent blower fan of face wall fan that opposes, realization starts corresponding ventilation and heat subsystem on demand, reduces electric energy loss.
Description
Technical field
The utility model is related to the heat extraction of computer room, hydrofuge control system, and in particular to a kind of aeration radiation system.
Background technology
In computer room during the operation of each equipment, heat that equipment is distributed is so that temperature rises in computer room, if air discharging and radiating is not in time,
In the computer room that the performance and used life of equipment, especially high-temperature operation, dust work and chemical industry operation can be influenceed, temperature pair is set
Standby influence is particularly huge.Similarly, when weather humidity is larger, if can not dehumidify in time, moisture present in air is rested on
In equipment, equipment gets rusty easily, and the circuit board in equipment also easily corrodes, the performance and used life of same influence equipment.Cause
This, awaits proposing a kind of system of energy ventilation and heat, the influence to equipment is preferably minimized.
The existing aeration radiation system applied in computer room, is typically that negative-pressure air fan is installed in computer room, passes through negative pressure
Blower fan make it that pressure is lower than outside in computer room, and in the elastic computer room of the outer air of computer room, the cross-ventilation formed inside and outside computer room reaches logical
The purpose of wind radiating, its shortcoming is:Cost is high;Staff is not suitable for working long hours in computer room;It can not make full use of
The general layout advantage of computer room itself, the non-working time, negative-pressure air fan must be opened in order to dehumidify, on the whole, to reach demand, electricity
Energy consumption is big.
Utility model content
The utility model provides a kind of aeration radiation system, and solution is existing to apply the aeration radiation system in computer room to exist for
Realize ventilation and heat, the problem of electric energy expends excessive.
The utility model solves the above problems by the following technical programs:
A kind of aeration radiation system, is made up of at least one ventilation and heat subsystem;1 is all installed in each face wall of computer room
The installation site phase of ventilation and heat subsystem and the ventilation and heat subsystem for the face wall that opposes on ventilation and heat subsystem, a face wall
Correspondence;
In each ventilation and heat subsystem, ventilation and heat subsystem includes key-press module, wind direction and wind velocity detection module, temperature
Humidity detecting module, controller module, wireless transport module, drive module and blower fan;
In each ventilation and heat subsystem, the output end of the key-press module is connected with controller module;The wind direction
The output end of wind speed measurement module is connected with controller module;The output end of the Temperature and Humidity module and controller module phase
Even;The control end of the drive module is connected with controller module;The output end of the drive module and the control end phase of blower fan
Even;The mutual wireless connection of wireless transport module in each ventilation and heat subsystem.
Further, in each ventilation and heat subsystem, screen modules are also included, in the air inlet of the blower fan
Screen modules are respectively mounted with air outlet.
Further, the Temperature and Humidity module is Temperature Humidity Sensor, and the Temperature Humidity Sensor is main by thermometric
Element, hygrometric element, microcontroller and serial line interface composition;The temperature element measurement temperature, the hygrometric element measurement
Humidity, the temperature signal and moisture signal are inputted to microcontroller, and are exported through serial line interface to controller module.
Further, in each ventilation and heat subsystem, in addition to voltage detection module;The voltage detection module
Output end is connected with controller module.
Further, in each ventilation and heat subsystem, in addition to current detection module;The current detection module
Output end is connected with controller module.
Further, in each ventilation and heat subsystem, in addition to vibration detection module;The vibration detection module
Output end is connected with controller module;The vibration detection module is arranged on the bearing of blower fan.
Further, in each ventilation and heat subsystem, in addition to Rotating speed measring module;The Rotating speed measring module
Output end is connected with controller module.
Compared with prior art, with following features:
The 1st, at least one ventilation and heat subsystem is set, 1 ventilation and heat subsystem, one are all installed in each face wall of computer room
Ventilation and heat subsystem on face wall is corresponding with the installation site of the ventilation and heat subsystem for the face wall that opposes, and makes full use of computer room
Each face wall so that wall and the ventilation and heat to face wall are cooperated, can also according to wind come to start opposite or with opposition
The adjacent ventilation and heat subsystem in face, is easy to make full use of coming to along wind, on opposition face wall or on opposition face wall for wind
Adjacent wall on blower fan wind is rolled out into computer room, both make use of the structure of computer room in itself, and wind direction can be utilized, can be according to actual feelings
Condition starts corresponding ventilation and heat subsystem, reduces electric energy loss;
In each ventilation and heat subsystem, ventilation and heat subsystem includes key-press module, wind direction and wind velocity detection module, temperature
Humidity detecting module, controller module, drive module and blower fan, user set by key-press module needed for temperature and wet
Degree, when humiture is not up to arranges value, controller module decides whether to start blower fan according to the humiture and wind direction of actual measurement,
And whether start the blower fan on opposition face wall and/or the adjacent blower fan of face wall fan that opposes, regardless of whether there is staff
Worked in computer room, can realize and start corresponding ventilation and heat subsystem on demand, reduce electric energy loss;
2nd, voltage detection module and current detection module are additionally provided with, the Electrical Safety for detecting ventilation and heat subsystem,
Improve security performance;
3rd, vibration detection module and Rotating speed measring module are additionally provided with, for the Vibration Condition and rotation situation of detection blower fan,
For the runnability of detection blower fan, to fully ensure that ventilation and heat performance, when abnormal vibrations occurs in blower fan, it can carry out in time
Maintenance.
Brief description of the drawings
Fig. 1 is the utility model structural principle block diagram.
Embodiment
The utility model is described in further detail with reference to embodiments, but the utility model is not limited to these implementations
Example.
A kind of aeration radiation system, is made up of at least one ventilation and heat subsystem;1 is all installed in each face wall of computer room
The installation site phase of ventilation and heat subsystem and the ventilation and heat subsystem for the face wall that opposes on ventilation and heat subsystem, a face wall
Correspondence;In each ventilation and heat subsystem, ventilation and heat subsystem includes key-press module, wind direction and wind velocity detection module, warm and humid
Spend detection module, controller module, wireless transport module, drive module and blower fan;In each ventilation and heat subsystem, institute
The output end for stating key-press module is connected with controller module;The output end of the wind direction and wind velocity detection module and controller module phase
Even;The output end of the Temperature and Humidity module is connected with controller module;The control end of the drive module and controller mould
Block is connected;The output end of the drive module is connected with the control end of blower fan;Mould is wirelessly transferred in each ventilation and heat subsystem
The mutual wireless connection of block.
Ventilation and heat subsystem is respectively provided with each face wall of computer room, ventilation and heat subsystem is installed on a face wall, then existed
Opposition face wall on correspondence position on ventilation and heat subsystem is also installed, be easy to cross-ventilation, at the same be also convenient for using wind come
To, according to demand open and close ventilation and heat subsystem, while the purpose of air discharging and radiating is reached, moreover it is possible to reduce electric energy damage
Consumption.
When user uses the system, temperature and humidity is set in the key-press module of any ventilation and heat subsystem, it is set
Temperature-humidity signal input into controller module, as reference data, be easy to be compared with the humiture surveyed, Jin Erxuan
Open to selecting property ventilation and heat subsystem.
Wind direction and wind velocity detection module mainly includes direction inductor and wind speed inductor, direction inductor and the wind speed sense
The output end of device is answered to be connected with controller module, wind direction and wind velocity signal are inputted to controller module, for according to wind direction and wind
Speed starts corresponding ventilation and heat subsystem.Bull stick is connected with the upper end of direction inductor, wind is provided with one end of bull stick
Xiang Biao, the other end is provided with counterweight;Vane is provided with wind speed inductor upper end.
The Temperature and Humidity module is Temperature Humidity Sensor, and the Temperature Humidity Sensor is main by temperature element, hygrometric
Element, microcontroller and serial line interface composition;The temperature element measurement temperature, the hygrometric element measures humidity, described
Temperature signal and moisture signal are inputted to microcontroller, and are exported through serial line interface to controller module.Temperature and Humidity module
Detect the humiture in computer room, the signal detected inputted into controller module, controller module according to the humiture of setting,
The humiture of actual measurement is judged, is turned on and off ventilation and heat subsystem.
The mutual wireless connection of wireless transport module in each ventilation and heat subsystem.In use, on a face wall
The data input that ventilation and heat subsystem is detected is judged to start which ventilation dissipates to controller module by controller module
Thermal sub-system, controller module sends instruction and set, detected data by wireless transport module to other side, by
Other side starts or closes blower fan, to reach default warm and humid angle value.
When need start or close blower fan when, controller module sends control instruction to drive module, from drive module to
Blower fan sends control signal, starts or closes blower fan.
Further, in each ventilation and heat subsystem, screen modules are also included, in the air inlet of the blower fan
Screen modules are respectively mounted with air outlet.Screen modules are installed in the air inlet and air outlet of each blower fan, are to reduce
Other debris such as dust, leaf are attached to air inlet and air outlet influence fan operation.
In each ventilation and heat subsystem, in addition to voltage detection module;The output end of the voltage detection module with
Controller module is connected;Also include current detection module;The output end of the current detection module is connected with controller module.Electricity
The setting of detection module and current detection module is pressed, the transmission for detecting voltage and current in ventilation and heat subsystem is going out
When existing over-pressed, under-voltage or phase shortage, controller module can be powered off in time, it is to avoid ventilation and heat subsystem performance is damaged.
In each ventilation and heat subsystem, in addition to vibration detection module and Rotating speed measring module;The vibration detection
The output end of module is connected with controller module;The vibration detection module is arranged on the bearing of blower fan;The Rotating speed measring
The output end of module is connected with controller module.Vibration detection and Rotating speed measring are carried out to blower fan, when blower fan is in vibration and rotating speed
During upper presence exception, fan operation can be adjusted in time by controller module, overall process is automatically performed, simple to operate, safe ready.
The course of work of the present utility model is:
Key-press module of the user on any ventilation and heat subsystem sets humiture needed in computer room, in the ventilation and heat
On subsystem, each detection module starts to detect respective data, and controller module obtains wind direction and wind velocity and actual measurement humiture, according to
Wind speed and direction and actual measurement humiture send signal to drive module, start or close blower fan, need to such as open opposite or other
Adjacent ventilation and heat subsystem, then send signal to corresponding ventilation and heat subsystem by wireless transport module, receive letter
Number ventilation and heat subsystem started according to instruction or close corresponding blower fan;The ventilation and heat subsystem detection being currently running is certainly
The voltage and current of body, is ensured using safety;The vibration for the ventilation and heat subsystem detection blower fan being currently running and rotating speed, in wind
Machine is found in time when occurring abnormal, and is powered off, and closes ventilation and heat subsystem.
Computer program involved by the utility model is existing, known program, is not improved.
Claims (7)
1. a kind of aeration radiation system, it is characterised in that:
It is made up of at least one ventilation and heat subsystem;1 ventilation and heat subsystem, a face wall are all installed in each face wall of computer room
On ventilation and heat subsystem with oppose face wall ventilation and heat subsystem installation site it is corresponding;
In each ventilation and heat subsystem, ventilation and heat subsystem includes key-press module, wind direction and wind velocity detection module, humiture
Detection module, controller module, wireless transport module, drive module and blower fan;
In each ventilation and heat subsystem, the output end of the key-press module is connected with controller module;The wind direction and wind velocity
The output end of detection module is connected with controller module;The output end of the Temperature and Humidity module is connected with controller module;
The control end of the drive module is connected with controller module;The output end of the drive module is connected with the control end of blower fan;
The mutual wireless connection of wireless transport module in each ventilation and heat subsystem.
2. a kind of aeration radiation system according to claim 1, it is characterised in that:
Further, in each ventilation and heat subsystem, also include screen modules, the blower fan air inlet and go out
Air port is respectively mounted screen modules.
3. a kind of aeration radiation system according to claim 1, it is characterised in that:
The Temperature and Humidity module is Temperature Humidity Sensor, the Temperature Humidity Sensor it is main by temperature element, hygrometric element,
Microcontroller and serial line interface composition;The temperature element measurement temperature, the hygrometric element measures humidity, the temperature letter
Number and moisture signal input to microcontroller, and exported through serial line interface to controller module.
4. a kind of aeration radiation system according to claim 1, it is characterised in that:
In each ventilation and heat subsystem, in addition to voltage detection module;The output end of the voltage detection module and control
Device module is connected.
5. a kind of aeration radiation system according to claim 1, it is characterised in that:
In each ventilation and heat subsystem, in addition to current detection module;The output end of the current detection module and control
Device module is connected.
6. a kind of aeration radiation system according to claim 1, it is characterised in that:
In each ventilation and heat subsystem, in addition to vibration detection module;The output end of the vibration detection module and control
Device module is connected;The vibration detection module is arranged on the bearing of blower fan.
7. a kind of aeration radiation system according to claim 1, it is characterised in that:In each ventilation and heat subsystem,
Further comprise Rotating speed measring module;The output end of the Rotating speed measring module is connected with controller module.
Priority Applications (1)
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CN201720178247.1U CN206559799U (en) | 2017-02-27 | 2017-02-27 | A kind of aeration radiation system |
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CN201720178247.1U CN206559799U (en) | 2017-02-27 | 2017-02-27 | A kind of aeration radiation system |
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CN201720178247.1U Expired - Fee Related CN206559799U (en) | 2017-02-27 | 2017-02-27 | A kind of aeration radiation system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106686957A (en) * | 2017-02-27 | 2017-05-17 | 钦州市鑫勇达电子科技有限公司 | Ventilation cooling system |
-
2017
- 2017-02-27 CN CN201720178247.1U patent/CN206559799U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106686957A (en) * | 2017-02-27 | 2017-05-17 | 钦州市鑫勇达电子科技有限公司 | Ventilation cooling system |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20171013 Termination date: 20180227 |