CN116045442A

CN116045442A - Ventilation device based on intelligent station house operation monitoring system of Internet of things

Info

Publication number: CN116045442A
Application number: CN202310124273.6A
Authority: CN
Inventors: 涂晓丽; 胡旷达; 胡子坤
Original assignee: Jiujiang Vocational and Technical College
Current assignee: Jiujiang Vocational and Technical College
Priority date: 2023-02-16
Filing date: 2023-02-16
Publication date: 2023-05-02

Abstract

The utility model discloses a ventilation device based on an intelligent station room operation monitoring system of the Internet of things, which comprises an air inlet device for air inlet and a ventilation box for air outlet, wherein a wind force separation mechanism is arranged between the air inlet device and the ventilation box, the wind force separation mechanism comprises a plurality of exhaust pipes arranged at the upper end of the ventilation box, a flow guide pipe is arranged outside the exhaust pipes, a humidifying barrel is arranged at one end of the raw material exhaust pipe of the flow guide pipe, a transmission pipe for transmitting air flow is arranged between the humidifying barrel and the air inlet device, the air flow outside enters the inside of the humidifying barrel through the transmission pipe, deionized water is filled in the humidifying barrel, the humidity of the air flow can be regulated through the deionized water, static electricity generated due to the reduction of the humidity in the internet of things room is avoided, the impeller can cause disturbance of the exhausted air flow in the rotating process, the exhausted air flow is further dispersed, the exhausted air flow can act on more areas of a machine room, and the ventilation efficiency of the inside of the machine room is enhanced.

Description

Ventilation device based on intelligent station house operation monitoring system of Internet of things

Technical Field

The utility model relates to the technical field of station room ventilation, in particular to a ventilation device of an intelligent station room operation monitoring system based on the Internet of things.

Background

The internet of things refers to collecting any object or process needing to be monitored, connected and interacted in real time through various devices and technologies such as various information sensors, radio frequency identification technologies, global positioning systems, infrared sensors, laser scanners and the like, realizing ubiquitous connection of objects and people through various possible network accesses, and realizing intelligent sensing, identification and management of objects and processes.

And to the thing networking need carry out a large amount of calculations to the data that acquire, consequently need thing networking website room be used for placing various equipment, equipment is in high-load operation for a long time, consequently need take a breath the circulation to the inside gas of station room, avoid station room inside high temperature to take place the static phenomenon.

Through retrieving, chinese patent number is CN 217154441U's utility model patent discloses a ventilation unit based on intelligent station room operation monitored control system of thing networking, belongs to thing networking technical field, and its technical scheme main points include the ventilation unit body, first protection network and second protection network have been inlayed respectively to the front side of ventilation unit body, the right side swing joint of ventilation unit body has the guard gate, the right side fixedly connected with power control case of guard gate, the top fixedly connected with fixed plate of ventilation unit body, the quantity of fixed plate is two.

Compared with the prior art, the utility model patent with the Chinese patent number of CN217154441U can solve the problems that the existing ventilation device does not have the function of filtering air, dust is contained in the air of an intelligent station room, and the dust enters equipment in the intelligent station room along with the air, so that the equipment can be influenced by the dust, electronic elements in the equipment are influenced, and when the dust is accumulated to a certain extent, the electronic elements in the equipment are damaged and short-circuited, and even fire is caused.

But above-mentioned device lacks the regulation to ventilation gas humidity in actual use, is in comparatively arid region, and long-term humidity is too low and is easy to make the inside static that appears in the room of standing, and then breaks down its inside components and parts, and simultaneously when ventilation unit is under the non-use condition, the outside dust impurity of room of standing enters into ventilation unit inside easily, reduces ventilation unit's life, consequently needs a ventilation unit based on thing networking intelligent station room operation monitored control system.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a ventilation device based on an intelligent station room operation monitoring system of the Internet of things.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a ventilation unit based on intelligent station room operation monitored control system of thing networking, includes the air inlet unit that is used for the air inlet and is used for carrying out the ventilation case of air-out, be provided with wind-force separating mechanism between air inlet unit and the ventilation case, wind-force separating mechanism is including installing a plurality of blast pipes in the ventilation case upper end, the externally mounted of blast pipe has the honeycomb duct, humidification bucket is installed to the one end of honeycomb duct raw materials blast pipe, install the transmission pipe that is used for transmitting the air current between humidification bucket and the air inlet unit, the internally mounted of ventilation case has the filter screen;

the inside of humidification bucket is provided with the humidification subassembly that is used for carrying out moist to the air current, the humidification subassembly is including installing the baffle inside the humidification bucket, the inside of humidification bucket still is provided with disturbance mechanism, the inside of humidification bucket is filled with deionized water, the externally mounted of humidification bucket has the connecting pipe, the connecting pipe is kept away from the one end of humidification bucket is linked together with the inside of honeycomb duct, the internally mounted of honeycomb duct has drive assembly, just the inside activity of blast pipe is provided with a plurality of division pieces that are used for carrying out closure to wind-force separating mechanism

The technical scheme further comprises the following steps:

the inside at the blast pipe is evenly distributed in circumference to a plurality of segmentation pieces, the segmentation piece rotates with the inside of blast pipe and is connected, the externally mounted of segmentation piece has the spring, the one end that the segmentation piece was kept away from to the spring is connected with the inside of blast pipe.

Sealing strips are arranged on two sides of the outer part of each partition piece, and under the condition of no wind power input, the plurality of partition pieces rotate towards the central axis of the exhaust pipe, and the sealing strips are mutually close to each other to realize the internal partition of the exhaust pipe.

The driving mechanism comprises a bearing arranged in the flow guide pipe, an impeller is arranged on the inner ring of the bearing, and the air outlet end of the connecting pipe is right opposite to the blade of the impeller.

The stirring mechanism comprises a transmission rod arranged in the bearing, a plurality of stirring blades are arranged outside the transmission rod, the transmission rod is positioned in the middle of the humidifying barrel, and one end positioned in the humidifying barrel is positioned at the upper end of the humidifying barrel and is not in contact with deionized water in the humidifying barrel.

The inside of hot blast blowpipe apparatus still installs the governing system who is used for carrying out the control to surrounding environment, governing system includes temperature monitoring system, central processing system and ventilation system, temperature monitoring system carries out real-time supervision to the outside temperature of standing room, central processing system's inside includes data processing module, safety management module and water yield monitoring module, central processing system carries out analysis and processing to the data of receiving, ventilation system's inside includes wind speed adjusting unit and humidification unit, ventilation system adjusts the wind speed and the humidity of exhaust gas according to the information received.

The temperature monitoring system transmits the acquired temperature data to the central processing system, the data processing module processes the received data to remove abnormal data in the data, the data processing module is in communication connection with the safety management module, the data processing module transmits the data to the safety management module, and the safety management module carries out safety judgment on the received data to judge whether the internal temperature and the gas dryness degree of the station room influence the operation of the station room.

The water quantity monitoring module detects the water quantity of deionized water in the humidifying barrel in real time, meanwhile, the safety management module transmits dangerous information to the ventilation system, the ventilation system adjusts the size of the exhaust air flow through the wind speed adjusting unit, and the humidity of the exhaust air flow is adjusted through the humidifying unit.

The utility model has the following beneficial effects:

1. according to the utility model, when the air conditioner is used, external air flow enters the interior of the humidifying barrel through the transmission pipe, and as the deionized water is filled in the interior of the humidifying barrel, the humidity of the air flow can be regulated through the deionized water, static electricity generated due to the reduction of the humidity in the Internet of things station room is avoided, and the protection of the interior of the Internet of things station room is realized.

2. According to the utility model, the wet air flow is continuously transmitted into the guide pipe through the connecting pipe, under the action of the kinetic energy of the air flow, the kinetic energy is converted into impact force on the impeller blades, the bearing starts to rotate along with the rotation of the blades, the stirring blades start to rotate in the rotating process, a large number of tiny bubbles are generated when the air flow contacts with deionized water by the rotation of the stirring blades, the contact time of the air flow and the deionized water is prolonged by the tiny bubbles, the wetting efficiency of the air flow is enhanced by releasing the wet air flow when the tiny bubbles float to the upper part for cracking, meanwhile, the impeller can disturb the discharged air flow in the rotating process, the discharged air flow is more dispersed, the air flow can act on more areas of a machine room, and the ventilation efficiency of the interior of the machine room is enhanced.

3. According to the utility model, the impact force generated by the exhaust air flow can also enable the dividing pieces to rotate towards the outside, so that the exhaust pipe is opened, and under the condition that the ventilation device is not in use, under the action of the self elastic force of the springs, the dividing pieces rotate towards the inside of the exhaust pipe, so that the dividing pieces are mutually abutted, the exhaust pipe is closed, and dust and impurities outside the inside of a station room are prevented from entering the inside of the ventilation device.

Drawings

Fig. 1 is a schematic diagram of a three-dimensional structure of a ventilation device of an intelligent station house operation monitoring system based on the internet of things, which is provided by the utility model;

FIG. 2 is a schematic view of a first internal structure according to the present utility model;

FIG. 3 is a schematic diagram of a second internal structure according to the present utility model;

FIG. 4 is a schematic plan view of a structure according to the present utility model;

fig. 5 is a block diagram of an adjustment system of the present utility model.

In the figure: 1. an air inlet device; 2. a transmission tube; 3. a humidifying barrel; 4. a connecting pipe; 5. a flow guiding pipe; 6. an exhaust pipe; 7. a ventilation box; 8. a filter screen; 9. a partition plate; 10. a bearing; 11. a transmission rod; 12. an agitating blade; 13. an impeller; 14. dividing the sheet; 15. a spring; 16. a temperature monitoring system; 17. a central processing system; 18. a data processing module; 19. a ventilation system; 20. a water quantity monitoring module; 21. a wind speed adjusting unit; 22. a humidifying unit; 23. and a security management module.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-5, the ventilation device based on the intelligent station room operation monitoring system of the internet of things is provided, an adjusting system for monitoring the surrounding environment is further installed in the air inlet device 1, the adjusting system comprises a temperature monitoring system 16, a central processing system 17 and a ventilation system 19, the temperature monitoring system 16 monitors the temperature outside the station room in real time, the central processing system 17 comprises a data processing module 18, a safety management module 23 and a water quantity monitoring module 20, the central processing system 17 analyzes and processes received data, the ventilation system 19 comprises a wind speed adjusting unit 21 and a humidifying unit 22, and the ventilation system 19 adjusts the wind speed and the humidity of the exhaust gas according to received information;

the temperature monitoring system 16 transmits the acquired temperature data to the central processing system 17, the data processing module 18 processes the received data to remove abnormal data in the data, the data processing module 18 is in communication connection with the safety management module 23, the data processing module 18 transmits the data to the safety management module 23, the safety management module 23 carries out safety judgment on the received data to judge whether the internal temperature of the station room and the gas dryness degree influence the operation of the station room;

the water quantity monitoring module 20 detects the water quantity of deionized water in the humidifying barrel 3 in real time, meanwhile, the safety management module 23 transmits dangerous information to the ventilation system 19, the ventilation system 19 adjusts the size of the discharged air flow through the air speed adjusting unit 21, and the humidity of the discharged air flow is adjusted through the humidifying unit 22.

In this embodiment, when in use, the temperature monitoring system 16 monitors the temperature outside the station room in real time, the temperature monitoring system 16 transmits the acquired temperature data to the central processing system 17, the data processing module 18 processes the received data to remove abnormal data in the data, and the safety management module 23 performs safety judgment on the received data to judge whether the temperature inside the station room and the gas dryness degree affect the normal operation of the station room;

when the temperature inside the station building and the dryness of the gas reach dangerous values, the safety management module 23 transmits dangerous signals to the ventilation system 19, the air inlet quantity is adjusted through the air speed adjusting unit 21, and the humidity of the discharged air flow is adjusted through the humidifying unit 22, so that the environment inside the station building is reduced, and the environment is maintained in a safe range.

Example two

As shown in fig. 1-5, based on the first embodiment, the device comprises an air inlet device 1 for air inlet and a ventilation box 7 for air outlet, a wind force separation mechanism is arranged between the air inlet device 1 and the ventilation box 7, the wind force separation mechanism comprises a plurality of exhaust pipes 6 arranged at the upper end of the ventilation box 7, a flow guide pipe 5 is arranged outside the exhaust pipes 6, a humidifying barrel 3 is arranged at one end of the raw material exhaust pipe 6 of the flow guide pipe 5, a transmission pipe 2 for transmitting air flow is arranged between the humidifying barrel 3 and the air inlet device 1, and a filter screen 8 is arranged inside the ventilation box 7;

the inside of the humidifying barrel 3 is provided with a humidifying component for humidifying the air flow, the humidifying component comprises a partition plate 9 arranged inside the humidifying barrel 3, the inside of the humidifying barrel 3 is also provided with a disturbance mechanism, deionized water is poured into the inside of the humidifying barrel 3, the outside of the humidifying barrel 3 is provided with a connecting pipe 4, one end of the connecting pipe 4 away from the humidifying barrel 3 is communicated with the inside of a flow guide pipe 5, the inside of the flow guide pipe 5 is provided with a driving component, and the inside of an exhaust pipe 6 is movably provided with a plurality of partition plates 14 for closing a wind power separation mechanism;

the plurality of dividing pieces 14 are uniformly distributed in the exhaust pipe 6 in a circumference manner, the dividing pieces 14 are rotationally connected with the inside of the exhaust pipe 6, springs 15 are arranged outside the dividing pieces 14, and one end, away from the dividing pieces 14, of each spring 15 is connected with the inside of the exhaust pipe 6;

sealing strips are arranged on two sides of the outer part of each partition piece 14, under the condition that no wind power is input, the plurality of partition pieces 14 rotate towards the central axis of the exhaust pipe 6, the sealing strips are mutually close to each other to realize the internal partition of the exhaust pipe 6, the driving mechanism comprises a bearing 10 arranged in the guide pipe 5, an impeller 13 is arranged on the inner ring of the bearing 10, and the air outlet end of the connecting pipe 4 is opposite to the blades of the impeller 13;

the disturbance mechanism comprises a transmission rod 11 arranged in the bearing 10, a plurality of stirring blades 12 are arranged outside the transmission rod 11, the transmission rod 11 is positioned in the middle of the humidifying barrel 3, and one end positioned in the humidifying barrel 3 is positioned at the upper end of the humidifying barrel 3 and is not contacted with deionized water in the humidifying barrel 3.

In the embodiment, the air inlet device 1 starts to work, and the fan arranged in the air inlet device 1 enters the outside air flow into the humidifying barrel 3 through the transmission pipe 2, and as deionized water is filled in the humidifying barrel 3, the humidity of the air flow can be adjusted through the deionized water, static electricity generated due to the reduction of the humidity in the internet of things website room is avoided, and the protection of the inside of the internet of things website room is realized;

the moist air flow is continuously transmitted into the guide pipe 5 through the connecting pipe 4, the kinetic energy is converted into impact force on blades of the impeller 13 under the action of the kinetic energy of the air flow, the bearing 10 starts to rotate along with the rotation of the blades, and the stirring blades 12 start to rotate in the rotating process of the bearing 10;

the stirring blades 12 rotate to enable a large amount of tiny bubbles to be generated when the air flow contacts with deionized water, the contact time of the air flow and the deionized water is prolonged through the tiny bubbles, and the wetting air flow is released when the tiny bubbles float to the upper part again to burst, so that the wetting efficiency of the air flow is enhanced, meanwhile, the impeller 13 can enable the discharged air flow to generate disturbance in the rotating process, so that the discharged air flow is more dispersed, the discharged air flow can act on more areas of a machine room, and the ventilation efficiency of the interior of the machine room is enhanced;

the impact force generated by the exhaust air flow can also enable the dividing pieces 14 to rotate towards the outside to realize opening of the exhaust pipe 6, and under the condition that the ventilation device is not in use, the dividing pieces 14 rotate towards the inside of the exhaust pipe 6 under the action of the self elastic force of the springs 15, so that the dividing pieces 14 are mutually abutted to each other to realize closing of the exhaust pipe 6, and dust and impurities outside the inside of the station room are prevented from entering the ventilation device.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a ventilation unit based on intelligent station room operation monitored control system of thing networking, includes air inlet unit (1) and be used for carrying out ventilation box (7) of air-out that are used for the air inlet, a serial communication port, be provided with wind-force separating mechanism between air inlet unit (1) and ventilation box (7), wind-force separating mechanism is including installing a plurality of blast pipes (6) in ventilation box (7) upper end, the externally mounted of blast pipe (6) has honeycomb duct (5), humidification bucket (3) are installed to the one end of honeycomb duct (5) raw materials blast pipe (6), install transmission pipe (2) that are used for transmitting the air current between humidification bucket (3) and air inlet unit (1), the internally mounted of ventilation box (7) has filter screen (8);

the inside of humidification bucket (3) is provided with the humidification subassembly that is used for carrying out moist to the air current, the humidification subassembly is including installing baffle (9) inside humidification bucket (3), the inside of humidification bucket (3) still is provided with disturbance mechanism, the inside of humidification bucket (3) is filled with deionized water, the externally mounted of humidification bucket (3) has connecting pipe (4), connecting pipe (4) are kept away from the inside of one end and honeycomb duct (5) of humidification bucket (3) is linked together, the internally mounted of honeycomb duct (5) has drive assembly, just the inside activity of blast pipe (6) is provided with a plurality of division pieces (14) that are used for carrying out closed to wind-force separation mechanism.

2. The ventilation device based on the intelligent station house operation monitoring system of the internet of things according to claim 1, wherein a plurality of dividing pieces (14) are uniformly distributed in the exhaust pipe (6) in a circumference manner, the dividing pieces (14) are rotationally connected with the inside of the exhaust pipe (6), springs (15) are mounted on the outside of the dividing pieces (14), and one end, far away from the dividing pieces (14), of each spring (15) is connected with the inside of the exhaust pipe (6).

3. The ventilation device based on the intelligent station house operation monitoring system of the internet of things according to claim 2, wherein sealing strips are arranged on two sides of the outside of the dividing pieces (14), and under the condition that no wind power is input, the dividing pieces (14) rotate towards the central axis of the exhaust pipe (6), and the sealing strips are mutually close to each other to realize the internal partition of the exhaust pipe (6).

4. The ventilation device based on the intelligent station house operation monitoring system of the Internet of things according to claim 3, wherein the driving mechanism comprises a bearing (10) arranged inside the flow guiding pipe (5), an impeller (13) is arranged on the inner ring of the bearing (10), and the air outlet end of the connecting pipe (4) is opposite to the blade of the impeller (13).

5. The ventilation device based on the intelligent station house operation monitoring system of the internet of things according to claim 4, wherein the disturbance mechanism comprises a transmission rod (11) installed inside the bearing (10), a plurality of stirring blades (12) are installed outside the transmission rod (11), the transmission rod (11) is located in the middle of the humidifying barrel (3), and one end located inside the humidifying barrel (3) is located at the upper end of the humidifying barrel (3) and is not in contact with deionized water inside the humidifying barrel (3).

6. The ventilation device based on the intelligent station house operation monitoring system of the internet of things according to claim 5, wherein an adjusting system for monitoring the surrounding environment is further installed in the air inlet device (1), the adjusting system comprises a temperature monitoring system (16), a central processing system (17) and a ventilation system (19), the temperature monitoring system (16) monitors the temperature outside the station house in real time, the central processing system (17) comprises a data processing module (18), a safety management module (23) and a water quantity monitoring module (20), the central processing system (17) analyzes and processes received data, the ventilation system (19) comprises a wind speed adjusting unit (21) and a humidifying unit (22) in the interior, and the ventilation system (19) adjusts the wind speed and the humidity of exhaust gas according to received information.

7. The ventilation device based on the intelligent station house operation monitoring system of the internet of things according to claim 6, wherein the temperature monitoring system (16) transmits collected temperature data to the central processing system (17), the data processing module (18) processes the received data to remove abnormal data in the data, the data processing module (18) is in communication connection with the safety management module (23), the data processing module (18) transmits the data to the safety management module (23), and the safety management module (23) performs safety judgment on the received data to judge whether the internal temperature of the station house and the gas dryness degree influence the operation of the station house.

8. The ventilation device based on the intelligent station house operation monitoring system of the internet of things according to claim 7, wherein the water quantity monitoring module (20) detects the water quantity of deionized water in the humidifying barrel (3) in real time, meanwhile, the safety management module (23) transmits dangerous information to the ventilation system (19), the ventilation system (19) adjusts the size of the exhaust air flow through the wind speed adjusting unit (21), and adjusts the humidity of the exhaust air flow through the humidifying unit (22).