CN214481597U - Network operation center workstation - Google Patents

Abstract

The utility model discloses a network operation center workstation, the intelligent cabinet temperature adjusting device comprises a cabinet body, fountain liquid cooling system and electrically controlled device, fountain liquid cooling system has the circulation circuit that the coolant liquid flows in being, place in the cabinet body in fountain liquid cooling system and the electrically controlled device in, fountain liquid cooling system includes air-cooled radiator, air-cooled radiator mainly comprises radiator box and fan, the radiator box is connected for some of its pipeline in the circulation circuit, the fan is installed on radiator box outer wall, and be located the air exit on cabinet body lateral wall, the blade periphery circumference at the fan is equipped with the guide plate, the mouth along the air exit is along being equipped with the inside flanging, the annular passage that forms the air leakage between guide plate and the inside flanging partial coincidence and the two, be equipped with the air intake on the relative cabinet body lateral wall of air exit, be equipped with netted grid on the air intake. The utility model can reduce the return air of the air outlet and improve the heat dissipation effect of the heat radiator on the cooling liquid; the spraying type liquid cooling system can realize the self-circulation of cooling liquid and is convenient to maintain.

Description

Network operation center workstation

Technical Field

The utility model relates to a network operation center workstation.

Background

With the advent of the big data era, various data centers have become important economic infrastructures for various industries, and the importance of the data centers in the working life of people is more and more prominent. At the same time, the scale of data centers is moving towards two polarizations: large data centers are getting larger and larger; while small, miniature data centers are getting smaller and smaller. In order to meet the environmental and instantaneous requirements of terminal services, small and miniature data centers must be built even in some extreme environments, such as: outdoor, light current well on the floor, business hall at the street, certain office place in office building, etc. At present, in these application scenarios, a scheme adopted more frequently is to configure a closed dustproof cabinet system. The data center is a high-energy-consumption building, and according to data given by international authority IDC, the energy consumption of the data center is about 2% of the total social energy consumption, so that the green data center is a necessary route for the development of the data center. The server is used as the core of the data center, the storage amount of the server is huge, the operating conditions of the server are determined to be harsh due to the importance of the server, and the cooling of the server is a basic condition for ensuring the normal operation of the server because the server emits a large amount of heat during operation. Therefore, almost all data centers are equipped with high-power precise air conditioners, and the server cabinet is precisely controlled in temperature, so that the server can operate in a proper temperature environment.

Over the years, the growth rate of data centers has exceeded 20%, how can the energy efficiency of a data center operate? The international traffic is measured by Power Usage Efficiency (PUE), and the higher the PUE value is, the worse the energy efficiency of the data center is proved; the energy efficiency of the existing data center in China is low, the common PUE is more than 2.0, and the energy efficiency is equivalent to that of the effective load of the data center, namely every time IT equipment consumes one-degree electricity, other accessory equipment also needs to consume more than one-degree electricity, and some auxiliary equipment even consumes more than 3.0. About 60% of the operation cost of a data center is electricity charge, and about 60% of the electricity charge is consumed by the air conditioner, so that the energy consumption of the air conditioner is reduced, the use efficiency of refrigeration is improved, and the data center is an important channel for energy conservation and emission reduction. The heat source of the server is mainly the CPU and power supply of the server, that is, the refrigeration of the cabinet, and even the whole machine room, mainly the refrigeration of the CPU and power supply of the server, but in the existing airflow organization scheme, cold air flows from the bottom to the top of the cabinet, and the cold air which can really directly cool the CPU and power supply inside the server is very little, that is, most of the cold air of the existing machine room is wasted.

From the functional perspective of the computer room, the physical bearing of the equipment of the data center is borne, the possibility of the stacking density of the equipment on the physics is determined, and the convenience in structural passage and maintenance is provided by combining the power supply of the equipment by a wiring system, a power distribution system, a lighting system and a security monitoring system. With the intensification and maximization of the data center, the data center provides a basic interface for the manageability of the machine room, and a scheme is provided for energy conservation and emission reduction of the machine room through redistribution of air flow of the machine room. From the viewpoint of the appearance of the machine room, the cabinet system is one of the main components of the appearance of the machine room. The integrity and the attractiveness of the cabinet system directly influence the overall appearance of the machine room. From the construction perspective of the machine room, the integrity, comprehensiveness and productization of the cabinet system influence the construction and construction quality of the machine room to a great extent.

The network cabinet is a mounting box used for combining and mounting panels, plug-in units, plug-in boxes, electronic elements, devices, mechanical parts and components to form a whole. Because install more electronic equipment, consequently need guarantee the heat dispersion of network rack, current network rack structure is reasonable inadequately, and the heat dissipation function is perfect inadequately, and the mobility of hot gas flow is relatively poor, is difficult for accomplishing high efficiency heat dissipation, can influence electronic equipment's normal use when serious, has the potential safety hazard.

A number of motherboards are typically installed in a network cabinet. In order to facilitate heat dissipation of the network cabinet, a fan is usually installed at the top of the network cabinet, and an air inlet is formed at the bottom of the network cabinet. However, this kind of exhaust mode will be located the mainboard of network rack bottom to bring its heat to the mainboard at top on, thereby make the mainboard at top be in high temperature environment for a long time, cause the too fast ageing of mainboard that is located network rack top.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a compact structure, with low costs, the radiating effect is good, the energy consumption is low, maintain convenient network operation center workstation.

The purpose of the utility model is realized through the following technical measures: a network operation center workstation comprises a cabinet body, a spray type liquid cooling system and an electric control device used for controlling the spray type liquid cooling system, wherein the spray type liquid cooling system is a circulation loop with cooling liquid flowing inside, the network operation center workstation is characterized in that the spray type liquid cooling system and the electric control device are arranged inside the cabinet body, the spray type liquid cooling system comprises an air cooling radiator used for dissipating heat of the cooling liquid after heat absorption, the air cooling radiator mainly comprises a radiator box body and a fan, the radiator box body is connected into the circulation loop and is a part of a pipeline of the radiator box body, the fan is arranged on the outer wall of the radiator box body and is positioned in an air outlet matched with the fan on one side wall of the cabinet body, a guide plate is arranged on the periphery of a blade of the fan, an inner flanging is arranged along the opening edge of the air outlet, the guide plate and the inner flanging are partially overlapped, and an annular passage for air leakage is formed between the guide plate and the inner flanging, and the other side wall of the cabinet body opposite to the air outlet is provided with an air inlet, and the air inlet is provided with a mesh grid.

The utility model discloses air intake and air outlet on the cabinet body are relative, the wind regime flows through the box that the route is just to air-cooled radiator, the effect of radiator to the cooling oil cooling has been improved, and the air exit has the inside turn-ups, coincide with deflector portion, and form the annular channel who walks the wind between the two, let the wind that blows off not have the space to scatter, can only directly blow away from this annular channel along the wind speed, therefore, reducible air exit return air, improve the efficiency of airing exhaust, and then improve the radiating effect of radiator to the coolant liquid, the air intake is equipped with netted grid, compare with the current mode of realizing the air inlet through the sheet metal component punches a hole, the intake has been increased, and the production cost is reduced. The utility model adopts the spray type liquid cooling system, directly takes away heat through the contact of the cooling liquid facing to the heating source, and has good heat dissipation effect and low energy consumption; in addition, the spraying type liquid cooling system is arranged in the cabinet body, and the spraying type liquid cooling system can realize self-circulation of cooling liquid, does not need professional machine room maintenance and is convenient to maintain.

As an embodiment of the present invention, the fan includes a blade and a cover body, the cover body includes a shell-type first cover body and a latticed second cover body, the first cover body is fixed on the radiator box body to form a cavity, and the first cover body is provided with an installation opening for accommodating the blade, the guide plate is located the mouth edge of the installation opening is up, the blade is installed on the second cover body, the second cover body covers the blade and fixes on the first cover body.

As an optimal implementation mode of the utility model, fountain liquid cooling system mainly comprises fountain liquid cooling server, liquid cooling pipeline, locates forced air cooling radiator and the liquid reserve tank on the liquid cooling pipeline, the liquid cooling pipeline includes feed liquor pipeline and liquid return pipeline, fountain liquid cooling server has coolant liquid import and coolant liquid export, the liquid outlet of feed liquor pipe connection liquid reserve tank is passed through in the coolant liquid import, the inlet of liquid reserve tank is connected through liquid return pipeline in the coolant liquid export.

Spray formula liquid cooling server has the airtight casing of device that generates heat including interior, and the casing top surface sprays the chamber bottom surface for spraying the hole for spraying the chamber, sprays and is equipped with the coolant liquid on the chamber and advances, exports, and the coolant liquid gets into from the coolant liquid import and sprays the chamber, sprays on the device that generates heat through spraying the hole, takes away the heat and exports from the coolant liquid.

As a preferred embodiment of the utility model, the cabinet body is a vertical flat rectangular body, the spray liquid cooling server is a plurality of and vertically arranged on the middle upper part of the cabinet body, the liquid inlet pipeline and the liquid return pipeline are positioned at the rear part of the spray liquid cooling server, the liquid storage tank is positioned at the bottom part of the cabinet body, the radiator box body is positioned at one side of the lower part of the cabinet body and is positioned above the liquid storage tank, the liquid inlet pipeline is connected with the outlet of the radiator box body through a pressure sensor, a temperature sensor and a filter in sequence, the pressure sensor and the temperature sensor are respectively connected with an electric control device, the liquid outlet of the liquid storage tank is connected with the inlet of the radiator box body through an oil pump arranged at the bottom part of the cabinet body, a driving motor of the oil pump is connected with the electric control device through a frequency converter, the electric control device controls the flow rate and the spray speed of the cooling liquid through controlling the oil pump according to the pressure data transmitted by the pressure sensor, the heat dissipation of the cooling liquid is controlled by controlling the fan according to the temperature data transmitted by the temperature sensor; the electric control device and the switch connected with the spray type liquid cooling server are arranged at the top of the cabinet body.

The utility model discloses according to the requirement of integrative rack component structure, rational arrangement fountain liquid cooling system, switch and electrically controlled device in cabinet body narrow space, compact structure facilitates the use, realizes functions such as storage, operation and the cooling of complete machine to can effectively dispel the heat.

Feed liquor pipeline is responsible for and a plurality of feed liquor branch pipes of horizontal setting including the feed liquor of vertical setting, the one end and the feed liquor of feed liquor branch pipe are responsible for and are connected, and the other end is connected with the fountain liquid cooling server that corresponds, return a plurality of liquid branch pipes that the liquid pipeline includes that the liquid that returns of vertical setting is responsible for and horizontal setting, the one end that returns the liquid branch pipe is responsible for with returning the liquid and is connected, and the other end is connected with the fountain liquid cooling server that corresponds.

The cabinet body mainly comprises space frame and the panel of installing on space frame, space frame bends by steel and takes shape and becomes a whole through the welding, can strengthen the use intensity, reaches the performance of complete machine, can realize highly holding, heavy load in the effectual volume within range of rack, has the rigidity of crossing hard, and the cabinet body can not take place to warp to avoid the security threat of server or switch.

The panel of cabinet body top surface and both sides is buckled by panel beating panel and is enclosed frame integrated into one piece, and the qianmen and the back door of the cabinet body include the door frame respectively and install the door plant on the door frame, the door frame adopts the sheet metal component to bend to take shape and make through the welding, especially qianmen, for the reduction in production degree of difficulty, improves the intensity of the door body, the door frame of qianmen adopts square pipe welding to take shape, realizes the door frame to the supporting role of the door body, has laid thin panel beating on the door plant surface, the door plant makes it to become a whole with the door frame welding.

On the basis that cabinet body frame supports, this rack has adopted thin panel beating foreskin technique, not only makes the preparation degree of difficulty and manufacturing cost reduce, can realize the requirement of the pleasing to the eye molding of the door body moreover, can be according to customer's requirement, produces the outward appearance product of different colours.

Adopt implicit expression hinge between qianmen and back door and the frame respectively, realize that fit-up gap reduces between qianmen, back door and the cabinet body, and the gap installation between qianmen and back door and the frame is sealed cotton, and makes the cabinet body periphery airtight, realizes the separation to the dust to the environment of protection complete machine operation. And a touch screen and a state display lamp which are connected with the electric control device are arranged on the door plate of the front door in a hole, so that the functions of controlling the cabinet, displaying the running state and alarming are realized.

The fan is a pair of, should pass through the converter to the driving motor of fan with electrically controlled device connects, temperature sensor gathers the temperature data of coolant liquid and sends electrically controlled device to, and electrically controlled device controls when the temperature of coolant liquid is less than or equal to the settlement temperature and opens a fan, realizes energy-conservingly, and controls when the temperature of coolant liquid is higher than the settlement temperature and opens two fans, and two fans start simultaneously, with higher speed oil cooling to realize server rapid cooling.

The utility model discloses the toughened glass has been inlayed on the door plant of qianmen to alright in order to observe the operational aspect of server at any time.

Compared with the prior art, the utility model discloses the effect that is showing as follows has:

the utility model discloses the air exit on the cabinet body has the inside flanging, this inside flanging coincides with the guide plate part, and form the annular channel who walks the wind between the two, let the wind that blows off not have the space to scatter, can only directly blow away from this annular channel along the wind speed, consequently, can reduce the air exit return air, improve the efficiency of airing exhaust, and then improve the radiating effect of radiator to the coolant liquid, moreover, the air intake is equipped with netted grid, compare with the mode that realizes the air inlet through the sheet metal component in the current, increased the intake, and the manufacturing cost is reduced. The utility model adopts the spray type liquid cooling system, directly takes away heat through the contact of the cooling liquid facing to the heating source, and has good heat dissipation effect and low energy consumption; additionally, the utility model discloses a self-loopa of coolant liquid can be realized to fountain liquid cooling system, does not need professional computer lab to maintain, and it is convenient to maintain.

A second container the utility model discloses according to the constitution structure requirement of integrative rack, rationally distributed fountain liquid cooling system, switch and electrically controlled device in the narrow space of the cabinet body, compact structure facilitates the use, realizes functions such as the storage of complete machine, operation and cooling to can effectively dispel the heat.

The utility model discloses the rack can realize high holding, heavy load at effectual volume within range, has the rigidity of excessive hardness, and the cabinet body can not take place to warp to avoid producing the security threat to automatically controlled devices such as inside server or switch.

Fourth the utility model discloses cabinet body frame construction practices thrift the materials, easily preparation, saves the cost.

The utility model discloses the rack has adopted thin panel beating foreskin technique on the basis that cabinet body frame supported, not only makes the preparation degree of difficulty and manufacturing cost reduce, can realize the pleasing to the eye figurative requirement of the door body moreover, can be according to customer's requirement, produces the outward appearance product of different colours.

Sixthly, the utility model discloses compact structure, it is small, the appearance is pleasing to the eye, does not need professional computer lab to maintain, consequently, the utility model discloses can put in office space or indoor.

Drawings

The present invention will be described in further detail with reference to the following drawings and specific embodiments.

Fig. 1 is one of the schematic three-dimensional structures of the present invention;

fig. 2 is one of the side views of the present invention;

fig. 3 is a second side view of the present invention;

FIG. 4 is a sectional view taken along line A-A of FIG. 3;

FIG. 5 is an enlarged view of a portion B of FIG. 4;

fig. 6 is a second schematic perspective view (with the panel removed) of the present invention;

fig. 7 is a third side view of the present invention (with the panel removed);

fig. 8 is a rear view of the present invention (with the panel removed);

fig. 9 is a schematic view (inner surface shown) of the front door structure of the present invention.

Detailed Description

As shown in figures 1-8, the utility model relates to a network operation center workstation, which comprises a cabinet body 1, a spray type liquid cooling system and an electric control device for controlling the spray type liquid cooling system, wherein the spray type liquid cooling system is a circulation loop with a cooling liquid flowing inside, the spray type liquid cooling system and the electric control device are arranged inside the cabinet body 1, the spray type liquid cooling system comprises an air cooling radiator for radiating the heat absorbed cooling liquid, the air cooling radiator mainly comprises a radiator box body 2 and a fan 3, the radiator box body 2 is connected in the circulation loop and is a part of a pipeline thereof, the fan 3 is arranged on the outer wall of the radiator box body 2 and is positioned in an air outlet 4 matched with the fan 3 on one side wall of the cabinet body 1, a horizontal guide plate 26 is arranged on the periphery of a blade 27 of the fan 3, a horizontal inner flanging 25 is arranged along the opening edge of the air outlet 4, the guide plate 26 and the inner flanging 25 are partially overlapped and an annular passage 28 for air leakage is formed between the two, can reduce the air exit return air, improve the efficiency of airing exhaust, and then improve the radiating effect of radiator to the coolant liquid, be equipped with the air intake on the cabinet body 1 opposite with air exit 4, be equipped with netted grid 5 on the air intake, increased the intake, reduced manufacturing cost.

In this embodiment, the fan 3 includes the blades 27 and the covers, the covers include a shell-type first cover 29 and a grid-shaped second cover 30, the first cover 29 is fixed on the radiator box 2 to form a cavity 31, and the first cover 29 is opened with an installation opening for accommodating the blades 27, the flow guide plate 26 is arranged on the edge of the installation opening, the blades 27 are installed on the second cover 30, the second cover 30 covers the blades 27 and is fixed on the first cover 29, at this time, the side edges of the second cover 30 are located outside the flow guide plate 26. The baffle 26 and the overlapped part of the inner flanging 25 form an annular passage 28 for wind to pass through.

The cabinet body 1 is vertical flat cuboid, and fountain liquid cooling system mainly comprises fountain liquid cooling server 6, the liquid cooling pipeline, locate air-cooled radiator and liquid reserve tank 7 on the liquid cooling pipeline, and the liquid cooling pipeline includes liquid inlet pipeline and liquid return pipeline, and fountain liquid cooling server 6 has coolant liquid import and coolant liquid export, and the liquid outlet of liquid reserve tank 7 is connected through the liquid inlet pipeline in the coolant liquid import, and the inlet of liquid reserve tank 7 is connected through liquid return pipeline in the coolant liquid export. The spray type liquid cooling server 6 is a plurality of spray type liquid cooling servers and is vertically arranged at the middle upper part of the cabinet body 1, the liquid inlet pipeline and the liquid return pipeline are positioned at the rear part of the spray type liquid cooling server 6, the liquid storage tank 7 is positioned at the bottom part of the cabinet body 1, the radiator box body 2 is positioned at one side of the lower part of the cabinet body 1 and is positioned above the liquid storage tank 7, the liquid inlet pipeline is connected with the outlet of the radiator box body 2 through a pressure sensor 8, a temperature sensor 9 and a filter 10 in sequence, the pressure sensor 8 and the temperature sensor 9 are respectively connected with an electric control device, the liquid outlet of the liquid storage tank 7 is connected with the inlet of the radiator box body 2 through an oil pump 11 arranged at the bottom part of the cabinet body 1, and the driving motor of the oil pump 11 is connected with an electric control device through a frequency converter 12, the electric control device controls the flow rate and the spraying speed of the cooling liquid through controlling the oil pump 11 according to the pressure data transmitted by the pressure sensor 8, the heat dissipation of the cooling liquid is controlled by controlling the fan 3 according to the temperature data transmitted by the temperature sensor 9; the electric control device and the exchanger 13 connected with the spray type liquid cooling server 6 are arranged at the top of the cabinet body 1.

In the embodiment, the fans 3 are a pair, the driving motors of the fans 6 are connected with the electric control device through the frequency converter 12, the temperature sensor 9 collects temperature data of the cooling liquid and transmits the temperature data to the electric control device, and the electric control device controls to start one fan 3 when the temperature of the cooling liquid is lower than or equal to a set temperature, so that energy conservation is realized; when the temperature of the cooling liquid is higher than the set temperature, the two fans 3 are controlled to be started, and the two fans are started simultaneously to accelerate oil cooling, so that the server is cooled rapidly.

The feed liquor pipeline includes that the feed liquor of vertical setting is responsible for 14 and a plurality of feed liquor branch pipes 15 that transversely set up, and the one end and the feed liquor of feed liquor branch pipe 15 are responsible for 14 and are connected, and the other end is connected with corresponding fountain liquid cooling server 6, and liquid return pipeline includes that the liquid that returns of vertical setting is responsible for 16 and a plurality of liquid branch pipes that return that transversely set up, and the one end that returns the liquid branch pipe is responsible for with returning the liquid and is connected, and the other end is connected with corresponding fountain liquid cooling server 6.

The working process of the spray type liquid cooling system is as follows: the coolant liquid comes out from the liquid reserve tank, get into the oil pump through oil pipe, after the oil pump is with higher speed, become the coolant liquid that has the potential energy, through air-cooled radiator, the temperature of coolant liquid further reduces, then get into the filter, detect the back through pressure sensor and temperature sensor, reach the temperature and the pressure entering server of settlement, and just spray the heat dissipation to the device that generates heat through spraying the hole in the server, take away the thermal coolant liquid of the device that generates heat and get into the liquid reserve tank through liquid return pipeline, there is the liquid level ware to survey the oil storage degree of depth in the liquid reserve tank, guarantee that the oil pump can normal operating. Reciprocating like this, the cooling oil realizes lowering the temperature to the server. The spraying type liquid cooling system can realize the self-circulation of the cooling liquid, does not need professional machine room maintenance, and is convenient to maintain.

In order to realize high holding capacity and heavy load in an effective volume range of the cabinet, the cabinet body can not deform and avoid safety threat to electric control devices in the cabinet body, the cabinet body 1 mainly comprises a three-dimensional frame 17 and a panel 18 arranged on the three-dimensional frame, and the three-dimensional frame 17 is formed by bending steel and is welded into a whole; the top surface and the panels on two sides of the cabinet body 1 are formed by bending sheet metal plates to surround a frame in an integrated manner, referring to fig. 9, a front door 19 and a rear door of the cabinet body 1 respectively comprise a door frame 20 and a door panel 21 installed on the door frame, the door frame 20 is formed by bending sheet metal parts and is manufactured by welding, the door frame of the front door 19 is formed by welding square tubes, thin sheet metal plates are laid on the surface of the door panel, and the door panel 21 and the door frame 20 are welded to form a whole. By adopting the thin sheet metal wrapping technology, the manufacturing difficulty and the production cost are reduced, the requirement of attractive appearance of the door body can be met, and appearance products with different colors can be produced according to the requirement of customers. When the two side plates are installed, the screws are installed at the contact positions of the front door and the rear door of the cabinet body, and the screws cannot be seen from the two side faces when the cabinet is viewed from the whole machine. And the top cover of the box is clamped, so that a mounting gap is not formed above the two side plates.

Hidden hinges are respectively adopted between the front door and the frame and between the rear door and the frame, and sealing cotton is arranged in gaps between the front door and the frame and between the rear door and the frame. A touch screen 22 and a state display lamp 23 connected with an electric control device are arranged on the door panel of the front door 19. A transparent panel 24 is embedded in the door panel of the front door 19 so that the operation of the internal server can be observed at any time.

The embodiments of the present invention are not limited thereto, and according to the above-mentioned contents of the present invention, according to the common technical knowledge and the conventional means in the field, the present invention can also make other modifications, replacements or changes in various forms, all falling within the scope of protection of the present invention.

Claims (10)

1. The utility model provides a network operation center workstation, it includes the cabinet body, fountain liquid cooling system and is used for controlling the electrically controlled device of fountain liquid cooling system, fountain liquid cooling system has the circulation circuit that the coolant liquid flows in one, its characterized in that: place the cabinet body in fountain liquid cooling system and the electrically controlled device in, fountain liquid cooling system carries out radiating air-cooled radiator including being used for the coolant liquid after the heat absorption, air-cooled radiator mainly comprises radiator box and fan, radiator box connects for some of its pipeline in circulation loop, the fan is installed on the outer wall of radiator box, and is located in the air exit with this fan looks adaptation on the cabinet body lateral wall the blade periphery circumference of fan is equipped with the guide plate, follows the mouth of air exit is along being equipped with the inside turn-ups, the annular passage that the air was walked around to guide plate and inside turn-ups partial coincidence and formation between the two is equipped with the air intake on the cabinet body opposite lateral wall with the air exit, be equipped with netted grid on the air intake.

2. The network operations center workstation of claim 1, wherein: the fan comprises blades and a cover body, the cover body comprises a shell type first cover body and a latticed second cover body, the first cover body is fixed on the radiator box body to form a cavity, an installation opening used for containing the blades is formed in the first cover body, the guide plate is arranged on the edge of the installation opening, the blades are installed on the second cover body, and the second cover body covers the blades and is fixed on the first cover body.

3. The network operations center workstation of claim 2, wherein: the spray-type liquid cooling system mainly comprises a spray-type liquid cooling server, a liquid cooling pipeline, an air cooling radiator and a liquid storage box, wherein the air cooling radiator and the liquid storage box are arranged on the liquid cooling pipeline, the liquid cooling pipeline comprises a liquid inlet pipeline and a liquid return pipeline, the spray-type liquid cooling server is provided with a cooling liquid inlet and a cooling liquid outlet, the cooling liquid inlet is connected with the liquid storage box through the liquid inlet pipeline, and the cooling liquid outlet is connected with the liquid storage box through the liquid return pipeline.

4. The network operations center workstation of claim 3, wherein: the cabinet body is a vertical flat rectangular body, the spray type liquid cooling servers are arranged on the middle upper portion of the cabinet body in a plurality of vertical directions, the liquid inlet pipeline and the liquid return pipeline are located behind the spray type liquid cooling servers, the liquid storage tank is located at the bottom of the cabinet body, the radiator box body is located on one side of the lower portion of the cabinet body and located above the liquid storage tank, the liquid inlet pipeline is connected with an outlet of the radiator box body sequentially through a pressure sensor, a temperature sensor and a filter, the pressure sensor and the temperature sensor are respectively connected with an electric control device, a liquid outlet of the liquid storage tank is connected with an inlet of the radiator box body through an oil pump arranged at the bottom of the cabinet body, a driving motor of the oil pump is connected with the electric control device through a frequency converter, and the electric control device controls the flow rate and the spray speed of cooling liquid through controlling the oil pump according to pressure data transmitted by the pressure sensor, the heat dissipation of the cooling liquid is controlled by controlling the fan according to the temperature data transmitted by the temperature sensor; the electric control device and the switch connected with the spray type liquid cooling server are arranged at the top of the cabinet body.

5. The network operations center workstation of claim 4, wherein: the feed liquor pipeline includes that the feed liquor of vertical setting is responsible for and a plurality of feed liquor branch pipes of horizontal setting, the one end and the feed liquor of feed liquor branch pipe are responsible for and are connected, and the other end is connected with the fountain liquid cooling server that corresponds, return liquid pipeline includes that the liquid that returns of vertical setting is responsible for and a plurality of liquid branch pipes that return that transversely set up, return the one end of liquid branch pipe and return the liquid and be responsible for and be connected, the other end is connected with the fountain liquid cooling server that corresponds.

6. The network operations center workstation of claim 5, wherein: the cabinet body mainly comprises a three-dimensional frame and a panel arranged on the three-dimensional frame, wherein the three-dimensional frame is formed by bending steel and is welded into a whole; the top surface and the panels on two sides of the cabinet body are formed by bending sheet metal plates to surround a frame in an integrated mode, the front door and the rear door of the cabinet body respectively comprise a door frame and a door plate installed on the door frame, the door frame is formed by bending sheet metal parts and is manufactured by welding, the door frame of the front door is formed by welding square pipes, thin sheet metal plates are laid on the surface of the door plate, and the door plate and the door frame are welded to form a whole.

7. The network operations center workstation of claim 6, wherein: hidden hinges are respectively adopted between the front door and the frame and between the rear door and the frame, and sealing cotton is arranged in gaps between the front door and the frame and between the rear door and the frame.

8. The network operations center workstation of claim 7, wherein: and a touch screen and a state display lamp which are connected with an electric control device are arranged on the door plate of the front door in a hole-opening manner.

9. The network operations center workstation of claim 8, wherein: the fan is a pair of fans, the driving motors of the fans are connected with the electric control device through the frequency converter, the temperature sensor collects temperature data of the cooling liquid and transmits the temperature data to the electric control device, the electric control device controls to start one fan when the temperature of the cooling liquid is lower than or equal to a set temperature, and controls to start two fans when the temperature of the cooling liquid is higher than the set temperature.

10. The network operations center workstation of claim 9, wherein: and a transparent plate is embedded in the door plate of the front door.

Images