CN213955500U

CN213955500U - Energy-saving intelligent temperature control device for machine room

Info

Publication number: CN213955500U
Application number: CN202022557262.1U
Authority: CN
Inventors: 尹立行; 曹坤; 李涛
Original assignee: Changsha Yancheng Advertising Decoration Engineering Co ltd
Current assignee: Changsha Yancheng Advertising Decoration Engineering Co ltd
Priority date: 2020-11-06
Filing date: 2020-11-06
Publication date: 2021-08-13
Anticipated expiration: 2030-11-06

Abstract

The utility model discloses an energy-saving intelligent temperature control device for a machine room, which comprises an air conditioner, a circulating system, a first hygrothermograph, a second hygrothermograph and an intelligent control system, wherein the intelligent control system comprises a cloud server and an intelligent mainboard, the intelligent mainboard is respectively connected with the first hygrothermograph and the second hygrothermograph, and the circulating system comprises an air inlet, an air outlet, a fresh air blower, an air supply pipeline, an exhaust fan and a plurality of air suction ports; the utility model discloses a warm and humid acidimeter of first warm and humid acidimeter and second detects indoor outer humiture, and compare with the constant temperature rule logic data that the backstage was set for, inhale outdoor cold air through intelligence control system automatic control circulation system, discharge indoor heat, reduce the use of air conditioner, reach energy saving and emission reduction's effect, in addition through setting up cylindrically and the degressive supply-air duct of diameter step by step, make the wind pressure increase of air supply, each supply-air outlet all has sufficient pressure, make wind-force can blow the position of every equipment, reach good cooling effect.

Description

Energy-saving intelligent temperature control device for machine room

Technical Field

The utility model relates to an air cycle intelligent regulation and control technical field especially relates to an energy-saving intelligent temperature regulating device of computer lab.

Background

In daily life, be used for often needing to adjust the humiture in the control room in the computer lab of mechanical electrical equipment operation, current universal mode is to adopt air conditioning equipment or exhaust equipment, wherein, it is very convenient to adopt air conditioning equipment, but carbon emission is high, the running cost is high, and adopt traditional exhaust equipment to consume a large amount of energy consumptions, otherwise to the cooling effect inhomogeneous and not obvious of each equipment of indoor different positions, it is effectual often to have the equipment cooling that is close to the air exit, and the equipment of keeping away from the air exit then can not reach the problem of cooling effect.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides an energy-saving intelligent temperature regulating device of computer lab detects the indoor outer temperature and humidity difference of computer lab through warm and humid acidimeter of first warm and humid acidimeter and second, compares this difference with the data that the backstage set up, controls indoor accuse temperature through intelligence control system give-out order and control circulation system or air conditioner.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides an energy-saving intelligent temperature regulating device of computer lab, including air conditioner, circulation system, with first hygrothermograph and the second hygrothermograph that the air conditioner is connected and respectively with first hygrothermograph with the intelligent control system that the hygrothermograph is connected, intelligent control system includes through signal connection cloud server and intelligent mainboard, the intelligence mainboard respectively in first hygrothermograph with the hygrothermograph of second is connected, the circulation system include air inlet, gas vent, with the new fan of air inlet intercommunication, with the supply-air duct of new fan intercommunication, with the exhaust fan of gas vent intercommunication and with a plurality of induction ports of exhaust fan intercommunication.

Further, the utility model provides a pair of energy-saving intelligent temperature regulating device of computer lab is still including setting up respectively in two indoor outer dust degree detectors, the dust degree detector respectively with first warm and humid acidimeter with the warm and humid acidimeter of second is connected, and mainly used detects indoor outer dust degree, and the fresh air machine that stops to use when outdoor dust degree does not reach the requirement cools down, forces to close the fresh air machine and report an emergency and ask for help or increased vigilance when indoor dust degree is greater than a definite value, ensures indoor cleanliness.

Further, the first hygrothermograph is arranged outside the machine room, and the second hygrothermograph is arranged inside the machine room.

Further, the supply-air duct is cylindrical and includes a plurality of supply-air outlets, the diameter of supply-air duct uses every supply-air outlet to decrement step by step as the ladder, and the supply-air duct that adopts this structure to make can make the wind pressure increase when sending wind, makes each supply-air outlet all have sufficient pressure, makes wind-force blow the position of every equipment to reach good cooling effect.

Furthermore, the air inlet comprises a nanometer self-cleaning layer covering the air inlet, a fire damper arranged at the opening, a rain-proof cover and a self-cleaning dustproof assembly connected with the fire damper through a motor drive.

Further, the intelligence mainboard includes temperature and humidity sensor, connects the new fan with the relay output module of exhaust fan, be used for control the infrared emission module of air conditioner, be used for making statistics of the process the metering module and the wireless communication module of intelligence mainboard relay power consumption, temperature and humidity sensor is used for monitoring indoor outer humiture, wireless communication module with cloud ware passing signal connects.

Further, the air inlet is arranged on the outer side of the machine room, the ground clearance is more than or equal to 1 m, and the air outlet is arranged above the outer side of the machine room.

Further, the air supply outlet is positioned on the front side or the back side of each device in the machine room, and the air suction port is positioned above each device in the machine room.

Furthermore, the self-cleaning dustproof assembly is a soft brush, and the nano self-cleaning layer is coated with a self-cleaning nano material.

Compared with the prior art, the utility model provides a pair of energy-saving intelligent temperature regulating device of computer lab has following beneficial effect:

1. the temperature and humidity inside and outside the machine room are detected through the first hygrothermograph and the second hygrothermograph, compared with the logic data of the constant temperature rule set by the background, the circulating system is automatically controlled to suck cold air outside the room and discharge heat inside the room through the intelligent control system, the temperature inside the room is reduced, the use of an air conditioner is reduced, and the effects of energy conservation and emission reduction are achieved;

2. the cylindrical air supply pipeline with the diameter gradually decreased is arranged, so that the air pressure during air supply is increased, each air supply opening has enough pressure, and the wind power can be blown to the position of each device, thereby achieving a good cooling effect;

3. the nanometer self-cleaning layer can prevent that the air inlet dust from piling up, and set up fire prevention valve and rather than the self-cleaning dustproof subassembly of drive connection can realize self-cleaning through opening and closing of fire prevention valve.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic view of the overall structure of the intelligent temperature control device provided by the present invention;

fig. 2 is a schematic structural view of an air supply pipeline in the intelligent temperature control device provided by the present invention;

FIG. 3 is a schematic diagram of a system structure of an intelligent control system in the intelligent temperature control device provided by the present invention;

wherein:

the intelligent air conditioner comprises an air conditioner 1, a first hygrothermograph 3, a second hygrothermograph 4, a dust degree detector 6, an air inlet 21, an air outlet 22, a fresh air fan 23, an air supply pipeline 24, an exhaust fan 25, an air suction port 26, a cloud server 51, an intelligent mainboard 52, an air supply outlet 241, a temperature and humidity sensor 521, a relay output module 522, an infrared emission module 523, a power metering module 524 and a wireless communication module 525.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It is understood that the technical solutions of the embodiments of the present invention can be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are combined and contradictory or can not be realized, the combination of the technical solutions should be considered to be absent, and is not within the protection scope of the present invention.

Referring to fig. 1, fig. 2, fig. 3, the utility model provides an energy-saving intelligent temperature regulating device of computer lab, including air conditioner 1, the circulation system, first hygrothermograph 3 and second hygrothermograph 4 be connected with air conditioner 1, and the intelligent control system who is connected with first hygrothermograph 3 and second hygrothermograph 4 respectively, intelligent control system includes through signal connection cloud ware 51 and intelligent mainboard 52, intelligent mainboard 52 is connected in first hygrothermograph 3 and second hygrothermograph 4 respectively, the circulation system includes air inlet 21, gas vent 22, the new fan 23 with air inlet 21 intercommunication, air supply line 24 with new fan 23 intercommunication, exhaust fan 25 with gas vent 22 intercommunication, and a plurality of induction ports 26 with exhaust fan 25 intercommunication.

Furthermore, the utility model provides a pair of energy-saving intelligent temperature regulating device of computer lab is still including setting up respectively in two indoor outer dust degree detector 6, and dust degree detector 6 is connected with first warm and humid acidimeter 3 and second warm and humid acidimeter 4 respectively, and mainly used detects indoor outer dust degree, and the fresh air machine 23 that stops to use when outdoor dust degree does not reach the requirement cools down, forces to close fresh air machine 23 and report an emergency and ask for help or increased vigilance when indoor dust degree is greater than a definite value, ensures indoor cleanliness.

In order to facilitate the monitoring of the indoor and outdoor temperature and humidity difference, the first hygrothermograph 3 is arranged outside the machine room, and the second hygrothermograph 4 is arranged inside the machine room.

First hygrothermograph 3 and second hygrothermograph 4 are used for monitoring the outdoor and indoor humiture of computer lab respectively, if monitor indoor temperature and exceed indoor constant temperature upper limit, and indoor outer humiture does not satisfy new fan 23 cooling condition parameter that the backstage set for, open air conditioner 1 through the control of intelligent control system, cool down to the indoor equipment, if indoor temperature exceeds indoor constant temperature upper limit, and indoor outer humiture satisfies new fan 23 cooling condition parameter that the backstage set for, circulation system is opened in the control of intelligent control system, inhale outdoor cold air and pass through exhaust fan 25 with indoor heat and discharge, reach and reduce the computer lab temperature, reduce the purpose that air conditioner 1 used, thereby realize energy saving and emission reduction's effect.

As a specific implementation mode, the air supply duct 24 is cylindrical and includes a plurality of air supply outlets 241, and the diameter of the air supply duct 24 is gradually decreased for each air supply outlet 241 as a step, in this embodiment, the number of the air supply outlets 241 is four, and the diameter of each step of the air supply duct 24 is 31cm, 25cm, 20cm, 10cm in turn, but the utility model discloses the number of well air supply outlets 241 is not limited to four, and other similar alternatives are adopted and will fall into the protection scope of the utility model.

The air supply duct 24 manufactured by adopting the above structure can increase the air pressure during air supply, so that each air supply opening 241 has enough pressure, and the wind power can be blown to the position of each device, thereby achieving good cooling effect.

As a specific implementation manner, the air inlet 21 includes a nanometer self-cleaning layer covering the air inlet 21, a fire damper disposed at the opening, a rain-proof cover, and a self-cleaning dustproof assembly connected to the fire damper through a motor drive, specifically, the nanometer self-cleaning layer is a nanometer coating with super-strong hydrophobic property and self-cleaning effect, a special air protection layer is formed on the surface of the air inlet through a specific nanometer technology, so as to avoid infiltration of water, so that the air inlet 21 is not polluted by dust, sewage, and corrosive gas, when in use, the fresh air fan 23 is controlled to be turned on through the intelligent control system, and the fire damper is turned on and off along with the fresh air fan 23, thereby driving the self-cleaning dustproof assembly to perform automatic cleaning and dust removal.

Further, the intelligent main board 52 includes a temperature and humidity sensor 521, a relay output module 522 connected to the fresh air blower 23 and the exhaust blower 25, an infrared emission module 523 used for controlling the air conditioner 1, a metering module 524 used for counting the power consumption of the relay passing through the intelligent main board 52, and a wireless communication module 525, wherein the temperature and humidity sensor 521 is used for monitoring the indoor and outdoor temperature and humidity, and the wireless communication module 525 is in signal connection with the cloud server 51.

Further, the air inlet 21 is arranged on the outer side of the machine room, the ground clearance is larger than or equal to 1 m, and the air outlet 22 is arranged above the outer side of the machine room.

Further, the air supply opening 241 is located on the front or back of each device in the machine room, and the air suction opening 26 is located above each device in the machine room.

Furthermore, the self-cleaning dustproof assembly is a soft brush, and a self-cleaning nano material is coated on the nano self-cleaning layer.

The utility model discloses a concrete theory of operation does: the temperature and humidity outside and inside the machine room are respectively monitored by a first hygrothermograph 3 and a second hygrothermograph 4, if the indoor temperature exceeds the upper limit of the indoor constant temperature and the indoor and outdoor temperature and humidity do not meet the temperature reduction condition parameters of the new fan 23 set by the background, a signal is transmitted to the intelligent main board 52 by the temperature and humidity sensor 521, the intelligent main board 52 controls the air conditioner to be turned on to reduce the temperature of indoor equipment, if the indoor temperature exceeds the upper limit of the indoor constant temperature and the indoor and outdoor temperature and humidity meet the temperature reduction condition parameters of the new fan 23 set by the background, the intelligent main board 52 turns off the air conditioner 1 and turns on the circulating system, the air inlet 21 sucks outdoor cold air, the cold air is delivered to the positions of each equipment through the air supply port 241 on the air supply pipeline 24, then the blown hot air is discharged out of the room through the exhaust fan 25 to dehumidify and dissipate heat of the equipment, the specific control logic is that whether the current indoor environment needs to be reduced in temperature is judged according to the indoor constant temperature and the constant temperature precision, and when the temperature is higher than the constant temperature upper limit (constant temperature plus constant temperature precision), stopping cooling when the indoor temperature is lower than the constant temperature lower limit (constant temperature-constant temperature precision), and continuing cooling when the indoor temperature reaches the constant temperature upper limit again. The cooling mode is decided by indoor outer humiture, indoor outer dust content and indoor temperature upper limit, satisfies fan cooling condition and uses the fan cooling, does not satisfy fan cooling condition and uses the air conditioner cooling, and fan cooling condition depends on indoor outer humiture, and outdoor humiture, outdoor dust content satisfy the system setting value and indoor humiture, indoor dust content do not reach the system and set up the upper limit and then explain that satisfy fan cooling condition, otherwise do not satisfy fan cooling condition. And the temperature of the machine room reaches the upper limit of the indoor temperature, and the air conditioner is forcibly started to cool. Meanwhile, the system has big data analysis, the constant temperature precision is automatically adjusted to ensure the optimal energy-saving effect of the current machine room, the specific mode is that the opening time of fans or air conditioners in cooling periods under different constant temperature precisions is compared, after several times of attempts, the optimal constant temperature precision of the current temperature of the machine room is recorded, the constant temperature precision of the system is automatically set to be the optimal constant temperature precision when the same outdoor temperature is met next time, the dewing of the machine room is avoided through constant temperature control, and the humidity cannot rise along with the entering of outside cold air. In addition, when intelligence mainboard 52 and cloud ware 51 communication failure, intelligence mainboard 52 control forces to open air conditioner 1, close circulation system to it is controllable to ensure the computer lab internal environment, can also directly operate relevant air conditioner 1 and circulation system through the applet in addition, convenient and fast, can also switch over the manual of this computer lab, automatic mode through the system in addition, neglect the automatic constant temperature logic of system under the manual mode, make things convenient for the on-the-spot maintainer to deal with emergency temporarily.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims

1. The utility model provides an energy-saving intelligent temperature regulating device of computer lab, its characterized in that, including air conditioner, circulation system, with first hygrothermograph and the second hygrothermograph that the air conditioner is connected and respectively with first hygrothermograph with the intelligent control system that the hygrothermograph is connected, intelligent control system includes through signal connection cloud server and intelligent mainboard, the intelligent mainboard respectively in first hygrothermograph with the hygrothermograph of second is connected, the circulation system include air inlet, gas vent, with the new fan of air inlet intercommunication, with the supply-air duct of new fan intercommunication, with the exhaust fan of gas vent intercommunication and with a plurality of induction ports of exhaust fan intercommunication.

2. The machine room energy-saving intelligent temperature control device according to claim 1, further comprising two dust detectors respectively disposed indoors and outdoors, wherein the dust detectors are respectively connected to the first hygrothermograph and the second hygrothermograph.

3. The machine room energy-saving intelligent temperature control device according to claim 2, wherein the first hygrothermograph is disposed outside the machine room, and the second hygrothermograph is disposed inside the machine room.

4. The intelligent temperature control device for machine room energy conservation according to claim 3, wherein the blast duct is cylindrical and comprises a plurality of blast ports, and the diameter of the blast duct is gradually reduced in steps of each blast port.

5. The machine room energy-saving intelligent temperature control device according to claim 4, wherein the air inlet comprises a nanometer self-cleaning layer covering the air inlet, a fire damper arranged at the opening, a rain cover and a self-cleaning dustproof assembly in driving connection with the fire damper through a motor.

6. The machine room energy-saving intelligent temperature control device according to claim 5, wherein the intelligent motherboard comprises a temperature and humidity sensor, a relay output module connected with the fresh air fan and the exhaust fan, an infrared emission module used for controlling the air conditioner, a power metering module used for counting the power consumption passing through the intelligent motherboard relay, and a wireless communication module, wherein the temperature and humidity sensor is used for monitoring the temperature and humidity inside and outside the room, and the wireless communication module is in signal connection with the cloud server.

7. The machine room energy-saving intelligent temperature control device according to claim 6, wherein the air inlet is arranged outside the machine room at a distance from the ground of 1 meter or more, and the air outlet is arranged above the outside of the machine room.

8. The intelligent temperature control device for machine room energy saving according to claim 7, wherein the air supply outlet is located on the front or back of each equipment in the machine room, and the air suction inlet is located above each equipment in the machine room.

9. The intelligent temperature control device of claim 8, wherein the self-cleaning and dust-proof component is a soft brush, and the nano self-cleaning layer is coated with a self-cleaning nano material.