CN216123420U - Intelligent electromagnetic shielding cabinet of water-cooling network - Google Patents

Abstract

The utility model provides a water-cooling network intelligent electromagnetic shielding cabinet, and relates to the technical field of electrical equipment. The utility model provides an intelligent electromagnetic screen rack of water-cooling network, which comprises a cabinet body, the water-cooling subassembly, subassembly and control system blow, control system locates the rack body, the water-cooling subassembly is connected with the control assembly, the rack body is equipped with ventilation assembly, water-cooling subassembly and subassembly of blowing all with control system electric connection, the bottom wall is provided with the heat dissipation chamber in the rack body, the heat dissipation intracavity is located to water-cooling subassembly and the subassembly of blowing, a plurality of first louvres have been seted up to heat dissipation chamber upper end, be connected with the breather pipe between heat dissipation chamber and the rack body upper portion, control system is through controlling water-cooling subassembly and the subassembly circulation heat dissipation in turn of blowing, make this internal temperature of rack can be in a temperature that is suitable for electronic components and stabilizes work, extension electronic components's life.

Description

Intelligent electromagnetic shielding cabinet of water-cooling network

Technical Field

The utility model relates to the technical field of electrical equipment, in particular to a water-cooling network intelligent electromagnetic shielding cabinet.

Background

The electromagnetic shielding cabinet is mainly used for preventing a computer, a network server, a switchboard, communication electronic equipment and the like from generating signal leakage in the running process, preventing the equipment from being interfered by external electromagnetic waves in the running process and ensuring normal work. At present, the devices usually generate a large amount of heat, and in addition, the electromagnetic shielding cabinet is often placed in a weak current hoistway without ventilation and refrigeration facilities, and the problem of heat dissipation is solved only by an axial flow fan additionally arranged on the shielding cabinet, but the problem cannot be solved completely. The user can only guarantee the normal work of equipment through opening the cabinet door heat dissipation in the use. If the cabinet door is opened, the shielding effect of the electromagnetic shielding cabinet can be influenced, and even the signal leakage result can be caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a water-cooling network intelligent electromagnetic shielding cabinet, which can better radiate the cabinet without influencing the shielding effect of the cabinet and prolong the service life of electronic components in the cabinet.

The embodiment of the utility model is realized by the following steps:

the embodiment of the application provides an intelligent electromagnetic shielding cabinet of water-cooling network, including the rack body, water-cooling subassembly, subassembly and control system blow, above-mentioned rack body is located to above-mentioned control system, above-mentioned water-cooling subassembly is connected with control assembly, above-mentioned rack body is equipped with ventilation assembly, above-mentioned water-cooling subassembly and above-mentioned subassembly of blowing all with above-mentioned control system electric connection, this internal diapire of above-mentioned rack is provided with the heat dissipation chamber, above-mentioned water-cooling subassembly and above-mentioned subassembly of blowing are located above-mentioned heat dissipation intracavity, a plurality of first louvres have been seted up to above-mentioned heat dissipation chamber upper end, be connected with the breather pipe between above-mentioned heat dissipation chamber and above-mentioned rack body upper portion.

In some embodiments of the present invention, the water cooling unit includes a refrigerating compartment, a water storage compartment, a water pump, a first water pipe, a second water pipe, and a cooling pipe, wherein a water inlet of the water pump communicates with the refrigerating compartment through the first water pipe, a water outlet of the water pump communicates with the water storage compartment through the cooling pipe, the refrigerating compartment communicates with the water storage compartment through the second water pipe, the water pump is electrically connected to the control system, and the cooling pipe is disposed on an upper side of the blowing unit.

In some embodiments of the present invention, the water cooling assembly further includes a mounting plate, the cooling pipe is disposed on the mounting plate, the mounting plate is disposed on the upper side of the blowing assembly, and the mounting plate is provided with a plurality of second heat dissipation holes.

In some embodiments of the utility model, the mounting plate has a serpentine groove, and the cooling tube is disposed in the serpentine groove.

In some embodiments of the present invention, the blowing assembly includes a fan, and the fan is disposed at the bottom of the heat dissipation chamber.

In some embodiments of the present invention, the control system includes a temperature sensor, a humidity sensor and a controller, the temperature sensor and the humidity sensor are both electrically connected to the controller, and the air blowing assembly and the water cooling assembly are both electrically connected to the controller.

In some embodiments of the present invention, the controller is connected to a control panel, and the control panel is disposed on an outer side wall of the cabinet body.

In some embodiments of the present invention, the plurality of first louvers are uniformly distributed.

In some embodiments of the present invention, the ventilation assembly includes an air inlet assembly and an air outlet assembly; the air inlet assembly comprises a first waveguide window and a first moving assembly for sealing the first waveguide window, the first waveguide window is arranged on the outer wall of the cabinet body, the heat dissipation cavity is communicated with the outside through the first waveguide window, and the first moving assembly is electrically connected with the control system; the air outlet assembly comprises a second waveguide window and a second moving assembly for sealing the second waveguide window, the second waveguide window is arranged on the upper side wall of the cabinet body, and the second moving assembly is electrically connected with the control system.

In some embodiments of the present invention, the first moving assembly includes a first sealing plate and a first power device, an output end of the first power device is in transmission connection with the first sealing plate, and the first power device is electrically connected with the control system; the second moving assembly comprises a second sealing plate and a second power device, the output end of the second power device is in transmission connection with the second sealing plate, and the second power device is electrically connected with the control system.

Compared with the prior art, the embodiment of the utility model has at least the following advantages or beneficial effects:

the water cooling component and the blowing component are arranged in the heat dissipation cavity, the heat dissipation cavity is arranged at the inner bottom wall of the cabinet body, the water cooling component and the blowing component are arranged in the cabinet body, on one hand, the installation of various components in the cabinet body is not influenced, the signal leakage is avoided, on the other hand, the water cooling component primarily dissipates heat of the cabinet body, on the other hand, the blowing component is opened to work at a small gear, so that cold air at the bottom of the cabinet body floats upwards, the heat exchange between hot air and cold air at the upper part of the cabinet body is carried out, on the other hand, the air at the upper part and the lower part can circularly flow through the vent pipe, the heat dissipation of the cabinet body is carried out, through the monitoring of the control system, when the heat dissipation capacity of the water cooling component is insufficient, the control system can control the blowing component to work at a large gear, on the same time, the water cooling component is closed, the blowing component is opened, and the air at the bottom of the cabinet body is quickly blown upwards by the blowing component, make the air upwards float, carry out the flow of air, dispel the heat, after dispelling the heat to the uniform temperature, control system is controlling the work of the little gear of subassembly of blowing, start the work of water-cooling subassembly simultaneously, restrain this internal temperature's of rack quick rise, control system carries out the circulation of rack body through control water-cooling subassembly and the subassembly of blowing and dispels the heat in turn, make this internal temperature of rack can be in a temperature that is suitable for electronic components to stabilize work, the life of extension electronic components, can also avoid the loss of unnecessary energy simultaneously.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

fig. 3 is an overall front view of the present invention.

Icon: 1-cabinet body, 2-radiating cavity, 3-refrigerating bin, 4-water storage bin, 5-water pump, 6-first water pipe, 7-second water pipe, 8-cooling pipe, 9-mounting plate, 10-blowing component, 11-ventilating pipe, 12-control panel, 13-air inlet component, 14-air outlet component, 21-first radiating hole, 91-second radiating hole, 92-snake-shaped groove, 131-first waveguide window, 132-first power device, 133-first sealing plate, 141-second waveguide window, 142-second sealing plate and 143-second power device.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present invention, it should be noted that, if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate an orientation or a positional relationship based on the orientation or the positional relationship shown in the drawings, or an orientation or a positional relationship which is usually placed when the products of the present invention are used, the description is only for convenience and simplicity, and the indication or the suggestion that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, the present invention should not be construed as being limited. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not require that the components be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the embodiments of the present invention, "a plurality" represents at least 2.

In the description of the embodiments of the present invention, it should be further noted that unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example 1

As shown in fig. 1-3, the embodiment provides an intelligent electromagnetic shielding cabinet with a water-cooling network, which includes a cabinet body 1, a water-cooling assembly, a blowing assembly 10 and a control system, wherein the control system is disposed on the cabinet body 1, the water-cooling assembly is connected to the control assembly, the cabinet body 1 is provided with a ventilation assembly, the water-cooling assembly and the blowing assembly 10 are both electrically connected to the control system, a heat dissipation chamber 2 is disposed on the bottom wall of the cabinet body 1, the water-cooling assembly and the blowing assembly 10 are disposed in the heat dissipation chamber 2, a plurality of first heat dissipation holes 21 are disposed at the upper end of the heat dissipation chamber 2, and a vent pipe 11 is connected between the heat dissipation chamber 2 and the upper portion of the cabinet body 1.

In this embodiment, the water cooling assembly and the blowing assembly 10 are disposed in the heat dissipation chamber 2, the heat dissipation chamber 2 is disposed at the bottom wall of the cabinet body 1, the water cooling assembly and the blowing assembly 10 are both disposed in the cabinet body 1, on one hand, the installation of various components in the cabinet body 1 is not affected, on the other hand, the water cooling assembly primarily dissipates heat to the cabinet body 1, and on the other hand, the blowing assembly 10 is opened to work at a small gear, so that the cold air at the bottom of the cabinet body 1 floats upwards to exchange heat between the hot air and the cold air at the upper part of the cabinet body 1, and on the other hand, the air at the upper part and the air at the lower part can circularly flow through the vent pipe 11 to dissipate heat of the cabinet body 1, and through monitoring of the control system, when the heat dissipation capability of the water cooling assembly is insufficient, the control system controls the blowing assembly 10 to work at a large gear, and simultaneously closes the water cooling assembly, and opens the vent assembly, blowing assembly 10 is quick upwards blows the air of 1 bottom of rack body, make the air upwards float, carry out the flow of air, dispel the heat, after dispelling the heat to the uniform temperature, control system is controlling blowing assembly 10 small-gear work, start water cooling module work simultaneously, restrain the quick rise of the internal temperature of rack 1, control system carries out rack body 1's circulation through control water cooling module and blowing assembly 10 and dispels the heat in turn, make the internal temperature of rack 1 can be in a temperature that is suitable for electronic components and parts to stabilize work, prolong electronic components's life, can also avoid the loss of unnecessary energy simultaneously.

Example 2

As shown in fig. 1 to 3, in the present embodiment, in addition to embodiment 1, the water cooling unit includes a refrigeration compartment 3, a water storage compartment 4, a water pump 5, a first water pipe 6, a second water pipe 7, and a cooling pipe 8, an inlet of the water pump 5 communicates with the refrigeration compartment 3 through the first water pipe 6, an outlet of the water pump 5 communicates with the water storage compartment 4 through the cooling pipe 8, the refrigeration compartment 3 communicates with the water storage compartment 4 through the second water pipe 7, the water pump 5 is electrically connected to the control system, and the cooling pipe 8 is provided above the blower unit 10.

In this embodiment, the water inlet of the water pump 5 is communicated with the refrigerating chamber 3 through the first water pipe 6, the water pump 5 is communicated with the water storage chamber 4 through the cooling pipe 8, the refrigerating chamber 3 is communicated with the water storage chamber 4 through the second water pipe 7, the water pump 5 is electrically connected with the control system, water is circulated through the refrigerating chamber 3, the water storage chamber 4, the water pump 5, the first water pipe 6, the second water pipe 7 and the cooling pipe 8, cold water enters the cooling pipe 8, the cold water in the cooling pipe 8 exchanges heat with hot air nearby in the cooling pipe 8, the cooling pipe 8 is arranged on the upper side of the blowing assembly 10, and then the cold air rises through blowing of the blowing assembly 10 to exchange heat with the hot air on the upper portion, so that the temperature of the air in the cabinet body 1 is reduced, and the purpose of heat dissipation is achieved, which is simple and convenient, and when the water cooling assembly is used, because the water cooling assembly is arranged in the heat dissipation chamber 2 arranged at the bottom of the cabinet body 1, water drops formed outside the cooling pipe 8 are prevented from dropping on the components, so that the components are prevented from being damaged and failing; meanwhile, the control system adjusts the water pump 5 according to the detected temperature in the cabinet body 1, so that the flow of water in the cooling pipe 8 is adjusted, heat dissipation in the cabinet body 1 is carried out, and electric energy waste is avoided.

In some embodiments of the present invention, the water cooling module further includes a mounting plate 9, the cooling pipe 8 is disposed on the mounting plate 9, the mounting plate 9 is disposed on the upper side of the blowing module 10, and the mounting plate 9 is provided with a plurality of second heat dissipation holes 91.

In the above embodiment, the cooling pipe 8 is fixed by the mounting plate 9, so that the cooling pipe 8 is more stable in use, and the heat exchange of the cooling pipe 8 is not affected due to the instability of the cooling pipe 8 when water flows in the cooling pipe 8 because of the adjustment of the control system on the water pump 5; the mounting plate 9 is provided with a plurality of second heat dissipation holes 91, and the blowing component 10 can perform the blowing function through the plurality of second heat dissipation holes 91.

In some embodiments of the present embodiment, the mounting plate 9 is provided with a serpentine groove 92, and the cooling pipe 8 is provided in the serpentine groove 92.

In the above embodiment, the cooling pipe 8 is provided in the serpentine groove 92, that is, the cooling pipe 8 can be provided in a serpentine shape, so that the heat radiation function of the cooling pipe 8 is enhanced and the occupied volume does not increase in the longitudinal direction.

Example 3

As shown in fig. 1, in the present embodiment, on the basis of some embodiments, the blowing assembly 10 includes a fan, and the fan is disposed at the bottom of the heat dissipation chamber 2.

In this embodiment, the fan may be a commercially available fan, and the fan has a low cost, a long service life, a simple structure, and convenience in installation, and can realize a heat dissipation function with the simplest structure.

Further, the blowing assembly 10 may be other assemblies capable of blowing air or the whole device.

Example 4

As shown in fig. 1, in the present embodiment, based on the above embodiments, the control system includes a temperature sensor (not shown), a humidity sensor (not shown), and a controller (not shown), wherein the temperature sensor and the humidity sensor are both electrically connected to the controller, and the air blowing assembly 10 and the water cooling assembly are both electrically connected to the controller.

In this embodiment, the temperature sensor is used to monitor the temperature inside the cabinet body 1, three temperature thresholds are preset in the controller, the minimum value is a, the middle value is B, and the maximum value is C, when the temperature sensor detects that the temperature inside the cabinet body 1 is lower than a, the controller controls the water pump 5 inside the water cooling module and the fan inside the blowing module 10 to be turned off, when the temperature inside the cabinet body 1 gradually rises to B, the controller turns on the water pump 5 inside the water cooling module and the fan inside the blowing module 10 to be turned on for performing the heat dissipation function, when the temperature sensor detects that the temperature inside the cabinet body 1 is higher than C, the controller controls the water pump 5 inside the water cooling module to be turned off, so that the fan inside the blowing module 10 is turned on, and simultaneously the ventilation module is turned on for performing the air-flow heat dissipation, so that the temperature inside the cabinet body 1 rapidly drops, and when the temperature inside the cabinet body 1 drops to B, the controller controls the water pump 5 of the water cooling assembly to be opened, the fan in the blowing assembly 10 is adjusted to a small gear, the temperature rise in the cabinet body 1 is inhibited, and the heat dissipation of the cabinet body 1 is continued; the humidity sensor is used for monitoring the humidity in the cabinet body 1, 2 humidity threshold values can be preset in the controller, the minimum value is D, the maximum value is E, when the humidity in the cabinet body 1 is larger than E, the controller is closed to control the water pump 5, meanwhile, the fan is adjusted to a large gear, the ventilation assembly is opened, the air in the cabinet body 1 is replaced, dehumidification is carried out, and when the humidity in the cabinet body 1 is smaller than D, the controller carries out proper adjustment on the water cooling assembly and the air blowing assembly 10 according to the temperature in the cabinet body 1; through temperature sensor and humidity transducer's monitoring, then through controller control water cooling module and subassembly 10 of blowing for water cooling module and subassembly 10 of blowing can open and close in suitable environment, according to the environment in the rack body 1, reasonable use water cooling module and subassembly 10 of blowing avoid the waste of electric energy, realize the temperature in the automatic regulation rack body 1 simultaneously.

In some embodiments of the present embodiment, the controller is connected to a control panel 12, and the control panel 12 is disposed on an outer side wall of the cabinet body 1.

In the above embodiment, control panel 12 locates above-mentioned rack body 1 lateral wall, also shows the temperature and humidity in the rack body 1 on control panel 12, and the control personnel can go to adjust the temperature in the rack body 1 voluntarily under the circumstances of not opening rack body 1, and it is more convenient to operate, also can more clear understanding the environmental conditions in the rack body 1 simultaneously.

In some embodiments of the present embodiment, the controller may be a general controller, and may be KY 02S.

Example 5

As shown in fig. 1, in the present embodiment, on the basis of some of the above embodiments, the first heat dissipation holes 21 are uniformly distributed.

In this embodiment, a plurality of first louvres 21 evenly distributed for cold air can be in longitudinal direction evenly distributed and rise when rising, carries out abundant heat exchange with the hot-air on upper portion, and the radiating effect is better, and the setting in heat dissipation chamber 2 is also for cutting apart water-cooling subassembly and the electronic components in subassembly 10 and the rack body 1 of blowing simultaneously, guarantees electronic components's safety in utilization.

Example 6

As shown in fig. 1-3, in this embodiment, on the basis of some embodiments, the ventilation assembly includes an air inlet assembly 13 and an air outlet assembly 14; the air intake assembly 13 includes a first waveguide window 131 and a first moving assembly for sealing the first waveguide window 131, the first waveguide window 131 is disposed on the left side wall of the cabinet body 1, the heat dissipation chamber 2 is communicated with the outside through the first waveguide window 131, and the first moving assembly is electrically connected to the control system; the air outlet assembly 14 includes a second waveguide window 141 and a second moving assembly for sealing the second waveguide window 141, the second waveguide window 141 is disposed on the upper sidewall of the cabinet body 1, and the second moving assembly is electrically connected to the control system.

In this embodiment, the controller is electrically connected to the first moving assembly and the second moving assembly, and in a general state, the first waveguide window 131 and the second waveguide window 141 are in a closed state, so as to prevent external dust or other impurities from falling into the cabinet body 1 through the first waveguide window 131 and the second waveguide window 141, thereby causing an influence on the operation of electronic components in the cabinet body 1 and ensuring the cleanness of the inside of the cabinet body 1; when the temperature in the cabinet body 1 exceeds C, the controller controls the fan to modulate a large gear, meanwhile, the controller controls the first moving assembly to open the first waveguide window 131, the second moving assembly to open the second waveguide window 141, air flows under the blowing of the fan, the air flows out of the second waveguide window 141 and flows in from the first waveguide window 131, the air continuously flows to realize the rapid cooling of the cabinet body 1, when the temperature in the cabinet body 1 is reduced to B, the controller controls the blowing assembly 10 to work at a small gear, starts the water cooling assembly to work, controls the first moving assembly to close the first waveguide window 131, and controls the second moving assembly to close the second waveguide window 141; the first waveguide window 131 and the second waveguide window 141 are in a closed state in a usual heat dissipation state of the cabinet body 1 to prevent external dust or impurities from entering the inside of the cabinet body 1, and in a rapid heat dissipation state (i.e., a heat dissipation state when the temperature in the cabinet body 1 exceeds C), the first waveguide window 131 and the second waveguide window 141 are in an open state to help the cabinet body 1 to dissipate heat rapidly, so that the inside of the cabinet body 1 is kept clean while automatic heat dissipation is realized; and the first waveguide window 131 and the second waveguide window 141 effectively avoid the signal leakage in the cabinet body 1 in the state of rapid heat dissipation.

In some embodiments of the present invention, the first moving assembly includes a first sealing plate 133 and a first power device 132, an output end of the first power device 132 is in transmission connection with the first sealing plate 133, and the first power device 132 is electrically connected with the control system; the second moving assembly includes a second sealing plate 142 and a second power device 143, an output end of the second power device 143 is in transmission connection with the second sealing plate 142, and the second power device 143 is electrically connected with the control system.

In the above embodiment, the controller controls the first power device 132 to operate, the first power device 132 controls the first sealing plate 133 to move horizontally on the upper side wall of the cabinet body 1, so as to seal and open the first waveguide window 131, and similarly, the controller also controls the second power device 143 to operate, the second power device 143 controls the second sealing plate 142 to move vertically on the left side wall of the cabinet body 1, so as to seal and open the second waveguide window 141, and the first waveguide window 131 and the second waveguide window 141 are opened and closed automatically according to the environment of the cabinet body 1, and under the condition of realizing automatic heat dissipation, the inside of the cabinet body 1 is kept clean.

In some embodiments of the present invention, the first power device 132 and the second power device 143 are both push rod motors, the push rod motors can be commercially available motors, and the push rod motors can simply implement the function of moving the sealing plate, and have long service life and low cost.

In summary, the embodiment of the present invention provides a water-cooling network intelligent electromagnetic shielding cabinet, which includes a cabinet body 1, a water-cooling component, a blowing component 10 and a control system, wherein the control system is disposed on the cabinet body 1, the water-cooling component is connected to the control component, the cabinet body 1 is provided with a ventilation component, the water-cooling component and the blowing component 10 are both electrically connected to the control system, a heat dissipation cavity 2 is disposed on a bottom wall of the cabinet body 1, the water-cooling component and the blowing component 10 are disposed in the heat dissipation cavity 2, a plurality of first heat dissipation holes 21 are disposed at an upper end of the heat dissipation cavity 2, a vent pipe 11 is connected between the heat dissipation cavity 2 and an upper portion of the cabinet body 1, the water-cooling component and the blowing component 10 are both disposed in the cabinet body 1, and on one hand, the installation of various components in the cabinet body 1 is not affected, on the other hand, the water cooling component primarily dissipates heat of the cabinet body 1, the blowing component 10 is opened to work at a small gear, cold air at the bottom of the cabinet body 1 floats upwards, heat exchange between hot air and cold air at the upper part of the cabinet body 1 is carried out, meanwhile, air at the upper part and the lower part can circularly flow through the vent pipe 11, heat dissipation of the cabinet body 1 is carried out, monitoring of the control system is carried out, when the heat dissipation capacity of the water cooling component is insufficient, the control system can control the blowing component 10 to work at a large gear, the water cooling component is closed, the ventilation component is opened, the blowing component 10 quickly blows air at the bottom of the cabinet body 1 upwards, air floats upwards, air flowing and heat dissipation are carried out, after heat dissipation reaches a certain temperature, the control system controls the blowing component 10 to work at a small gear, the water cooling component is started to work at the same time, and quick rise of the temperature in the cabinet body 1 is inhibited, the control system carries out circulation alternation heat dissipation of the cabinet body 1 by controlling the water cooling assembly and the air blowing assembly 10, so that the temperature in the cabinet body 1 can be at a temperature suitable for stable work of electronic components, the service life of the electronic components is prolonged, and meanwhile, the loss of redundant energy can be avoided.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an intelligent electromagnetic screen rack of water-cooling network which characterized in that: including rack body, water-cooling subassembly, subassembly and control system of blowing, control system locates the rack body, water-cooling subassembly is connected with control assembly, the rack body is equipped with ventilation assembly, water-cooling subassembly with the subassembly of blowing all with control system electric connection, the diapire is provided with the heat dissipation chamber in the rack body, water-cooling subassembly with the subassembly of blowing is located the heat dissipation intracavity, a plurality of first louvres have been seted up to heat dissipation chamber upper end, the heat dissipation chamber with be connected with the breather pipe between the rack body upper portion.

2. The water-cooled network intelligent electromagnetic shielding cabinet as claimed in claim 1, wherein: the water cooling component comprises a refrigeration bin, a water storage bin, a water pump, a first water service pipe, a second water service pipe and a cooling pipe, wherein a water inlet of the water pump is communicated with the refrigeration bin through the first water service pipe, a water outlet of the water pump is communicated with the water storage bin through the cooling pipe, the refrigeration bin is communicated with the water storage bin through the second water service pipe, the water pump is electrically connected with the control system, and the cooling pipe is arranged on the upper side of the air blowing component.

3. The water-cooled network intelligent electromagnetic shielding cabinet as claimed in claim 2, wherein: the water-cooling assembly further comprises a mounting plate, the cooling pipe is arranged on the mounting plate, the mounting plate is arranged on the upper side of the blowing assembly, and the mounting plate is provided with a plurality of second heat dissipation holes.

4. The water-cooled network intelligent electromagnetic shielding cabinet as claimed in claim 3, wherein: the mounting plate is provided with a snake-shaped groove, and the cooling pipe is arranged in the snake-shaped groove.

5. The water-cooled network intelligent electromagnetic shielding cabinet as claimed in claim 1, wherein: the blowing assembly comprises a fan, and the fan is arranged at the bottom of the heat dissipation cavity.

6. The water-cooled network intelligent electromagnetic shielding cabinet as claimed in claim 1, wherein: the control system comprises a temperature sensor, a humidity sensor and a controller, wherein the temperature sensor and the humidity sensor are electrically connected with the controller, and the air blowing assembly and the water cooling assembly are electrically connected with the controller.

7. The water-cooled network intelligent electromagnetic shielding cabinet as claimed in claim 6, wherein: the controller is connected with a control panel, and the control panel is arranged on the outer side wall of the cabinet body.

8. The water-cooled network intelligent electromagnetic shielding cabinet as claimed in claim 1, wherein: the first heat dissipation holes are uniformly distributed.

9. The water-cooled network intelligent electromagnetic shielding cabinet as claimed in claim 1, wherein: the ventilation assembly comprises an air inlet assembly and an air outlet assembly; the air inlet assembly comprises a first waveguide window and a first moving assembly for sealing the first waveguide window, the first waveguide window is arranged on the outer wall of the cabinet body, the heat dissipation cavity is communicated with the outside through the first waveguide window, and the first moving assembly is electrically connected with the control system; the air outlet assembly comprises a second waveguide window and a second moving assembly for sealing the second waveguide window, the second waveguide window is arranged on the upper side wall of the cabinet body, and the second moving assembly is electrically connected with the control system.

10. The water-cooled network intelligent electromagnetic shielding cabinet as claimed in claim 9, wherein: the first moving assembly comprises a first sealing plate and a first power device, the output end of the first power device is in transmission connection with the first sealing plate, and the first power device is electrically connected with the control system; the second moving assembly comprises a second sealing plate and a second power device, the output end of the second power device is in transmission connection with the second sealing plate, and the second power device is electrically connected with the control system.

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