CN208768103U - Interchanger based on micro- application architecture - Google Patents
Interchanger based on micro- application architecture Download PDFInfo
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- CN208768103U CN208768103U CN201821716083.4U CN201821716083U CN208768103U CN 208768103 U CN208768103 U CN 208768103U CN 201821716083 U CN201821716083 U CN 201821716083U CN 208768103 U CN208768103 U CN 208768103U
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Abstract
Interchanger based on micro- application architecture, the inside of interchanger shell is two chambers by separator lined, interchanger includes: that the micro- application module of temperature detection includes at least one first temperature sensor and at least a second temperature sensor, it includes at least one first dust concentration sensor and at least one second dust concentration sensor that dust, which detects micro- application module, and the micro- application module of Humidity Detection includes at least one first humidity sensor and at least one second humidity sensor;There are exchange mainboard, the first temperature, the first dust concentration and the first humidity sensor in first chamber, shell two sides are provided with multiple heat release holes, Air Filter is set on heat release hole, partition be located on the face of first chamber have the first fan, second chamber face on have the second fan, fixing rotary heater between partition bottom and housing bottom;Power supply, second temperature sensor, the second dust concentration sensor, the second humidity sensor, controller, GPS positioning module and wireless communication module are equipped in second chamber.
Description
Technical field
The utility model relates to switch technology fields, more particularly to a kind of interchanger based on micro- application architecture.
Background technique
Interchanger is the equipment of an expansion network, can be to provide more connectivity ports in sub-network, to connect more
More computers.With the propulsion of development and the IT application in the national economy of communication industry, network switch market is in grow steadily
Situation.It has the characteristics that ratio of performance to price height, high flexible, it is relatively easy, be easily achieved.So ethernet technology has become
For a kind of current most important local area network building technology, the network switch also just becomes most popular interchanger.Due to network
Interchanger integrated level is higher and higher, and in use, distinct issues are that interchanger calorific value is more next to existing switch the most
It is bigger.
Currently, to solve the problems, such as interchanger calorific value is high, is usually taken way are as follows: opened up in interchanger shell multiple
Heat release hole, however, thus cause easily to fall into a large amount of dusts by heat release hole inside interchanger, to influence making for interchanger again
Use performance.
Utility model content
The utility model is in view of the problems of the existing technology and insufficient, provides a kind of novel based on micro- application architecture
Interchanger.
The utility model is to solve above-mentioned technical problem by following technical proposals:
The utility model provides a kind of interchanger based on micro- application architecture, it is characterized in that comprising interchanger shell,
The inside of the interchanger shell is fixed with partition, the partition by the inner space of interchanger shell be divided into first chamber and
Second chamber is fixed with display and alarm at the top of the interchanger shell.
The interchanger includes the micro- application module of temperature detection, dust detects micro- application module and Humidity Detection is micro- using mould
Block, the micro- application module of temperature detection include at least one first temperature sensor and at least one second temperature sensor,
It includes that at least one first dust concentration sensor and at least one second dust concentration pass that the dust, which detects micro- application module,
Sensor, the micro- application module of Humidity Detection include at least one first humidity sensor and at least one second humidity sensor
Device.
Exchange mainboard, the first temperature sensor, the first dust concentration sensor and are provided in the first chamber
One humidity sensor, the side of the close first chamber of the interchanger shell offer multiple first heat release holes, and described first
Air Filter is laid on heat release hole, the partition is fixed with the first fan, the bottom of the partition on the face of first chamber
Rotary heater is fixed between portion and the bottom of interchanger shell.
Power supply, second temperature sensor, the second dust concentration sensor, the second humidity is provided in the second chamber to pass
The side of sensor, controller, GPS positioning module and wireless communication module, the close second chamber of the interchanger shell opens up
There are multiple second heat release holes, Air Filter is laid on second heat release hole, the partition is consolidated on the face of second chamber
Surely there is the second fan.
The power supply, the first temperature sensor, the first fan, second temperature sensor, the second fan, the first dust concentration
It is sensor, the second dust concentration sensor, alarm, display, the first humidity sensor, the second humidity sensor, rotary
Heater, GPS positioning module and wireless communication module are electrically connected with the controller.
Preferably, one of setting in those first temperature sensors is in exchange mainboard.
Preferably, one of them in those the first dust concentration sensors is arranged in the side of first chamber and is located at the
The lower section of one heat release hole.
Preferably, the bottom of first chamber is arranged in one of them in those first humidity sensors.
Preferably, one of them in those the second dust concentration sensors is arranged in the side of second chamber and is located at the
The lower section of two heat release holes.
Preferably, the bottom of second chamber is arranged in one of them in those second humidity sensors.
Preferably, the interchanger shell is explosion-proof casing.
Preferably, the wireless communication module is bluetooth module, WiFi module or ZigBee module.
Preferably, the display and alarm are located at the top of second chamber.
On the basis of common knowledge of the art, above-mentioned each optimum condition, can any combination to get the utility model respectively compared with
Good example.
The positive effect of the utility model is:
Power supply and exchange mainboard locellus are installed by partition, reduce power supply and exchange by the interchanger of the utility model
Influence between mainboard is provided with temperature sensor, dust concentration sensor and humidity sensor in two chambers, can
It detects temperature, dust concentration and the humidity in two chambers, and is radiated by fan and blow away dust, by rotary
Heater dehumidifies, and improves heat dissipation, dust-proof and effect on moisture extraction, or even in temperature, dust concentration and excessively high humidity, by aobvious
Show device and alarm prompt warning message, warning message can also be transmitted to remote monitoring center by wireless communication module, and
Shi Tongzhi related personnel.
The interchanger of the utility model had not only guaranteed that interchanger had excellent heat dissipation performance, but also can reach and prevent dust
Largely enter the effect of interchanger, additionally it is possible to which the effect for realizing dehumidifying effectively improves the service performance of interchanger.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the interchanger of the utility model preferred embodiment.
Specific embodiment
The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning
Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng
The embodiment for examining attached drawing description is exemplary, and is only used for explaining the utility model, and should not be understood as to the utility model
Limitation.On the contrary, the embodiments of the present invention include falling into owning within the scope of the spirit and intension of attached claims
Variation, modification and equivalent.
As shown in Figure 1, the present embodiment provides a kind of interchangers based on micro- application architecture comprising interchanger shell 1, institute
The inside for stating interchanger shell 1 is fixed with partition 2, and the inner space of interchanger shell is divided into first chamber 3 by the partition 2
With second chamber 4, the top of the interchanger shell 1 is fixed with display 5 and alarm 6, the display 5 and alarm 6
Positioned at the top of second chamber 4, the interchanger shell 1 is explosion-proof casing.
The interchanger includes the micro- application module of temperature detection, dust detects micro- application module and Humidity Detection is micro- using mould
Block, the micro- application module of temperature detection include at least one the first temperature sensor 8 and at least one second temperature sensor
16, it includes that at least one the first dust concentration sensor 10 and at least one second dust are dense that the dust, which detects micro- application module,
Spend sensor 21, the micro- application module of Humidity Detection includes at least one first humidity sensor 12 and at least one is second wet
Spend sensor 22.This interchanger is conducive to function realization and extension using micro- application architecture.
Exchange mainboard 7, the first temperature sensor 8, the first dust concentration sensor 10 are provided in the first chamber 3
With the first humidity sensor 12, the side of the close first chamber 3 of the interchanger shell 1 offers multiple first heat release holes 9,
Air Filter (not shown) is laid on first heat release hole 9, the partition 2 is fixed on the face of first chamber 3
There is the first fan 11, is fixed with rotary heater 13 between the bottom of the partition 2 and the bottom of interchanger shell 1.
Wherein, one of setting in those first temperature sensors 8 is in exchange mainboard 7;Those first dusts
One of them in concentration sensor 10 is arranged in the side of first chamber 3 and is located at the lower section of the first heat release hole 9;Those first
The bottom of first chamber 3 is arranged in one of them in humidity sensor 12.
Power supply 15, second temperature sensor 16, the second dust concentration sensor 21, are provided in the second chamber 4
Two humidity sensors 22, controller 17, GPS positioning module 18 and wireless communication module 19, the interchanger shell 1 close to the
The side of two chambers 4 offers multiple second heat release holes 20, is laid with Air Filter on second heat release hole 20 and (does not show in figure
Out), the partition 2 is fixed with the second fan 14 on the face of second chamber 4.
Wherein, one of them in those the second dust concentration sensors 21 is arranged in the side of second chamber 4 and is located at
The lower section of second heat release hole 20;The bottom of second chamber 4 is arranged in one of them in those second humidity sensors 22.
The power supply 15, the first temperature sensor 8, the first fan 11, second temperature sensor 16, the second fan 14,
One dust concentration sensor 10, the second dust concentration sensor 21, alarm 6, display 5, the first humidity sensor 12, second
Humidity sensor 22, rotary heater 13, GPS positioning module 18 and wireless communication module 19 are electrically connected with controller 17.
Wherein, the wireless communication module 19 is bluetooth module, WiFi module or ZigBee module.
In the present solution, the big exchange mainboard 7 of the heat dissipation capacity device isolation small with other heat dissipation capacities is come, wind is reduced
The heat-dissipating space of fan improves the radiating efficiency of fan.
In the present solution, those first temperature sensors 8 are used to detect the temperature in first chamber 3 and pass the first temperature value
Controller 17 is transported to, controller 17 judges whether any of those first temperature values reach corresponding preset value, any
It is radiated when first temperature value is not up to corresponding preset value by the first heat release hole 9, the Air Filter on the first heat release hole 9
Setting can reduce dust and carry out in first chamber 3;Reach the corresponding preset value time by first in any first temperature value
Heat release hole 9 radiate obviously not enough, and at this moment controller 17 controls the unlatching of the first fan 11 and radiates, and the first fan 11
The part dust in first chamber 3 can also be blown out by the first heat release hole 9 while heat dissipation.Even, in the first temperature value
Controller 17 controls display 5 when reaching upper limit value and/or alarm 6 carries out warning note, can also pass through wireless communication module
The location transmission of 19 current SWITCHs for orienting alarm signal and GPS positioning module 18 is to remote monitoring center.
Similarly, those second temperature sensors 16 are for detecting the temperature in second chamber 4 and passing second temperature value
Controller 17 is transported to, controller 17 judges whether any of those second temperature values reach corresponding preset value, any
It is radiated when second temperature value is not up to corresponding preset value by the second heat release hole 20, the Air Filter on the second heat release hole 20
Setting can reduce dust carry out second chamber 4 in;Reach the corresponding preset value time by the in any second temperature value
Two heat release holes 20 radiate obviously not enough, and at this moment controller 17 controls the unlatching of the second fan 14 and radiates, and the second wind
The part dust in second chamber 4 can also be blown out by the second heat release hole 20 while 14 heat dissipation of fan.Even, in the second temperature
Controller 17 controls display 5 when angle value reaches upper limit value and/or alarm 6 carries out warning note, can also pass through wireless telecommunications
The location transmission for the current SWITCH that module 19 orients alarm signal and GPS positioning module 18 is to remote monitoring center.
Those the first dust concentration sensors 10 are used to detect dust concentration in first chamber 3 and by the first dust concentrations
Value is transmitted to controller 17, and controller 17 judges whether any of those the first dust concentration values reach corresponding default
Value, when any first dust concentration value reaches corresponding preset value, controller 17 controls the unlatching of the first fan 11 and is dusted.
Even, when the first dust concentration value reaches upper limit value, controller 17 controls display 5 and/or alarm 6 carries out warning note,
It can also be by the location transmission of the current SWITCH that wireless communication module 19 orients alarm signal and GPS positioning module 18 extremely
Remote monitoring center.
Those the second dust concentration sensors 21 are used to detect dust concentration in second chamber 4 and by the second dust concentrations
Value is transmitted to controller 17, and controller 17 judges whether any of those the second dust concentration values reach corresponding default
Value, when any second dust concentration value reaches corresponding preset value, controller 17 controls the unlatching of the second fan 14 and is dusted.
Even, when the second dust concentration value reaches upper limit value, controller 17 controls display 5 and/or alarm 6 carries out warning note,
It can also be by the location transmission of the current SWITCH that wireless communication module 19 orients alarm signal and GPS positioning module 18 extremely
Remote monitoring center.
Those first humidity sensors 12 are for detecting the humidity in first chamber 3 and the first humidity value being transmitted to control
Device 17, controller 17 judge whether any of those first humidity values reach corresponding preset value, if then controlling rotation
Formula heater 13 rotates, to carrying out heating and dehumidification in first chamber 3.Those second humidity sensors 22 are for detecting second chamber
Second humidity value is simultaneously transmitted to controller 17 by humidity in 4, and controller 17 judges that any of those second humidity values are
It is no to reach corresponding preset value, if the rotation of rotary heater 13 is then controlled, to carrying out heating and dehumidification in second chamber 4.From
And prevent the big service performance for influencing the network switch of humidity in interchanger shell 1.It, can as the structure of rotary heater 13
Referring to application No. is CN201610304966.3, entitled air conditioner indoor unit with rotary heater structure and with its
The patent of invention of air-conditioning.
In addition, power supply 15 is the electronics of the network switch.GPS positioning module 18 and wireless communication module 19 are equal
Using existing commercially available product.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is by appended claims and its equivalent limits.
Claims (9)
1. a kind of interchanger based on micro- application architecture, which is characterized in that it includes interchanger shell, the interchanger shell
Inside is fixed with partition, and the inner space of interchanger shell is divided into first chamber and second chamber, the friendship by the partition
It changes planes and is fixed with display and alarm at the top of shell;
The interchanger includes that the micro- application module of temperature detection, dust detect micro- application module and the micro- application module of Humidity Detection,
The micro- application module of temperature detection includes at least one first temperature sensor and at least one second temperature sensor, described
It includes at least one first dust concentration sensor and at least one second dust concentration sensor that dust, which detects micro- application module,
The micro- application module of Humidity Detection includes at least one first humidity sensor and at least one second humidity sensor;
It is wet that exchange mainboard, the first temperature sensor, the first dust concentration sensor and first are provided in the first chamber
Sensor is spent, the side of the close first chamber of the interchanger shell offers multiple first heat release holes, first heat dissipation
Be laid with Air Filter on hole, the partition is fixed with the first fan on the face of first chamber, the bottom of the partition with
Rotary heater is fixed between the bottom of interchanger shell;
Power supply, second temperature sensor, the second dust concentration sensor, the second humidity sensor are provided in the second chamber
The side of device, controller, GPS positioning module and wireless communication module, the close second chamber of the interchanger shell offers
Multiple second heat release holes, are laid with Air Filter on second heat release hole, the partition it is fixed on the face of second chamber
There is the second fan;
The power supply, the first temperature sensor, the first fan, second temperature sensor, the second fan, the first dust concentration sensing
Device, the second dust concentration sensor, alarm, display, the first humidity sensor, the second humidity sensor, rotary heating
Device, GPS positioning module and wireless communication module are electrically connected with the controller.
2. the interchanger according to claim 1 based on micro- application architecture, which is characterized in that those first temperature sensors
In one of setting in exchange mainboard.
3. the interchanger according to claim 1 based on micro- application architecture, which is characterized in that those first dust concentrations pass
One of them in sensor is arranged in the side of first chamber and is located at the lower section of the first heat release hole.
4. the interchanger according to claim 1 based on micro- application architecture, which is characterized in that those first humidity sensors
In one of them the bottom of first chamber is set.
5. the interchanger according to claim 1 based on micro- application architecture, which is characterized in that those second dust concentrations pass
One of them in sensor is arranged in the side of second chamber and is located at the lower section of the second heat release hole.
6. the interchanger according to claim 1 based on micro- application architecture, which is characterized in that those second humidity sensors
In one of them the bottom of second chamber is set.
7. the interchanger according to claim 1 based on micro- application architecture, which is characterized in that the interchanger shell is anti-
Blasting shell body.
8. the interchanger according to claim 1 based on micro- application architecture, which is characterized in that the wireless communication module is
Bluetooth module, WiFi module or ZigBee module.
9. the interchanger according to claim 1 based on micro- application architecture, which is characterized in that the display and alarm
Positioned at the top of second chamber.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821716083.4U CN208768103U (en) | 2018-10-23 | 2018-10-23 | Interchanger based on micro- application architecture |
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CN201821716083.4U CN208768103U (en) | 2018-10-23 | 2018-10-23 | Interchanger based on micro- application architecture |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113747263A (en) * | 2020-05-30 | 2021-12-03 | 江苏圃惠汇达通讯设备有限公司 | Network switch of intelligence accuse temperature |
CN116996459A (en) * | 2023-09-27 | 2023-11-03 | 深圳市洪瑞光祥电子技术有限公司 | Environment self-adaptive regulation type industrial switch equipment and method |
-
2018
- 2018-10-23 CN CN201821716083.4U patent/CN208768103U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113747263A (en) * | 2020-05-30 | 2021-12-03 | 江苏圃惠汇达通讯设备有限公司 | Network switch of intelligence accuse temperature |
CN116996459A (en) * | 2023-09-27 | 2023-11-03 | 深圳市洪瑞光祥电子技术有限公司 | Environment self-adaptive regulation type industrial switch equipment and method |
CN116996459B (en) * | 2023-09-27 | 2023-12-12 | 深圳市洪瑞光祥电子技术有限公司 | Environment self-adaptive regulation type industrial switch equipment and method |
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