CN220307622U - Electrical cabinet capable of intelligently radiating heat - Google Patents

Abstract

The utility model discloses an intelligent heat dissipation electrical cabinet which comprises an electrical cabinet mechanism, wherein a temperature control mechanism and a water cooling heat dissipation assembly are fixedly arranged in the electrical cabinet mechanism. The temperature control mechanism is arranged, the temperature sensor is at a proper temperature, when the temperature inside the electric cabinet shell reaches the set temperature, the temperature sensor transmits signals to the control terminal, after the control terminal receives the signals, the signals are transmitted to the motor, the fan and the water pump, so that the control terminal starts to work, the effects of automatically starting and cooling only when the temperature is too high, and saving energy sources can be achieved while the intelligent cooling device is achieved.

Description

Electrical cabinet capable of intelligently radiating heat

Technical Field

The utility model relates to the technical field of electrical cabinets, in particular to an electrical cabinet capable of intelligently radiating heat.

Background

The electrical cabinet is a cabinet which is made of steel materials and is used for protecting components from working normally, but the electrical cabinet still has some defects in actual use, such as: some comparatively accurate electronic components can be placed in the regulator cubicle generally, electronic components can produce huge heat in the course of the work, these heat are accumulated in the inside of regulator cubicle and are difficult to discharge, long-term operation in high temperature environment, electronic components can not only shorten life greatly, still take place downtime, short circuit, even overheat burnout easily, can cause unnecessary loss, because electronic components on the circuit board are very intensive, just lead to ordinary blowing heat dissipation can not take out the heat that produces in the operation of circuit board fast, the radiating effect is limited, moreover can not accomplish automatic start-up as required and stop, it is inadequately intelligent.

Disclosure of Invention

In order to overcome the defects of the prior art, the embodiment of the utility model provides the intelligent heat dissipation electrical cabinet, so as to solve the problems that in the prior art, a plurality of relatively precise electronic components are usually placed in the electrical cabinet, huge heat is generated in the working process of the electronic components, the heat is difficult to discharge in the electrical cabinet, the electronic components run in a high-temperature environment for a long time, the service life is greatly shortened, the electronic components are easy to be damaged by downtime, short circuit and even overheat burning, unnecessary loss is caused, the common blowing and heat dissipation cannot be carried out rapidly due to the fact that the electronic components on a circuit board are very dense, the heat dissipation effect is limited, automatic start and stop according to the needs are not realized, and the intelligent circuit board is not intelligent enough.

In order to solve the technical problems, the utility model provides the following technical scheme: the intelligent heat dissipation electrical cabinet comprises an electrical cabinet mechanism, wherein a temperature control mechanism and a water cooling heat dissipation assembly are fixedly arranged in the electrical cabinet mechanism;

the electric cabinet mechanism comprises an electric cabinet shell, a plurality of heat dissipation windows are formed in the electric cabinet shell, a cabinet door is movably mounted on the surface of the electric cabinet shell, a handle is fixedly mounted on the surface of the cabinet door, a supporting frame is fixedly mounted inside the electric cabinet shell, a motor is fixedly mounted at one end of the supporting frame, a rotating shaft is fixedly mounted on a driving shaft of the motor, fan blades opposite to one heat dissipation window are fixedly mounted on the rotating shaft, a supporting plate is fixedly mounted inside the electric cabinet shell, a fan is fixedly mounted on the top surface of the supporting plate, an air outlet of the fan is opposite to the other heat dissipation window, and an air inlet of the fan is communicated with an air inlet formed in the electric cabinet shell.

The temperature control mechanism comprises a temperature sensor, the temperature sensor is provided with a display screen, the temperature sensor is connected with a control terminal through a signal wire, the temperature sensor and the control terminal are fixed inside a shell of the electric cabinet, and the output end of the control terminal is electrically connected with the access end of the motor and the access end of the fan respectively.

The water cooling heat dissipation assembly comprises a heat absorption plate, a heat conduction strip is fixedly arranged on the surface of the heat absorption plate, a heat conduction copper pipe is fixedly arranged on the surface of the heat conduction strip, a heat dissipation block is fixedly arranged on the surface of the heat conduction copper pipe, a heat dissipation hole is formed in the surface of the heat dissipation block, a connecting strip is fixedly arranged on the surface of the heat dissipation block, a part of a cooling pipe penetrates through the inside of the heat dissipation block, a water pump and a radiator with a heat dissipation fin fixedly arranged on the surface of the annular cooling pipe connected end to end are connected in series, the radiator is positioned between an air outlet of an opposite fan and another heat dissipation window, the connecting strip is fixedly connected with the inside of an electric cabinet shell, and an access end of the water pump is electrically connected with an output end of a control terminal.

The technical scheme of the utility model has the following beneficial effects:

in the above-mentioned scheme, set up temperature control mechanism, open the cabinet door through the handle during the use, fix the circuit board and install on the absorber plate, set up temperature sensor suitable temperature, the display screen can show current temperature, when the inside temperature of regulator cubicle shell reaches the temperature of setting up, temperature sensor gives control terminal with signal transmission, after control terminal received the signal, with the signal again forward motor, fan, water pump, make them start working, reach and only open the cooling when the temperature is too high automatically, the effect of energy can also be saved in the intellectuality. The heat-conducting strip is arranged on the circuit board, the heat-absorbing plate transfers heat on the circuit board to the heat-conducting strip, the heat-conducting copper pipe is used as a medium to be transferred to the heat-dissipating block, the cooling pipe is fully distributed in the heat-dissipating block, cooling liquid in the cooling pipe can absorb heat, the cooling liquid is conveyed to the radiator with the heat-dissipating fins by the water pump, the heat-dissipating fins can absorb the heat carried by the cooling liquid, the heat on the heat-dissipating fins is blown out of the electric cabinet shell by the fan, the cooled cooling liquid can be conveyed to the heat-dissipating block again to absorb the heat, the motor can drive the rotating shaft to rotate, and therefore the fan blade is driven to rotate, and the auxiliary water-cooling heat-dissipating assembly blows out redundant heat inside the electric cabinet shell from the heat-dissipating window to achieve the effect of being capable of rapidly dissipating the heat on the circuit board and protecting electronic components from overheating.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a diagram of the overall internal architecture of the present utility model;

FIG. 3 is a schematic view of an electrical cabinet mechanism according to the present utility model;

FIG. 4 is a schematic view of a temperature control mechanism according to the present utility model;

fig. 5 is a schematic view of a water-cooling heat dissipation assembly according to the present utility model.

[ reference numerals ]

1. An electrical cabinet mechanism; 2. a temperature control mechanism; 3. a water-cooling heat dissipation assembly; 11. an electrical cabinet housing; 12. a heat dissipation window; 13. a cabinet door; 14. a handle; 15. a support frame; 16. a motor; 17. a rotating shaft; 18. a fan blade; 19. a support plate; 110. a blower; 21. a temperature sensor; 22. a display screen; 23. a signal line; 24. a control terminal; 31. a heat absorbing plate; 32. a heat conducting strip; 33. a heat conducting copper pipe; 34. a heat dissipation block; 35. a heat radiation hole; 36. a connecting strip; 37. a cooling tube; 38. a small water pump; 39. and the heat dissipation fins.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved more apparent, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.

The embodiment of the utility model provides an intelligent heat dissipation electrical cabinet as shown in fig. 1 to 5, which comprises an electrical cabinet mechanism 1, wherein a temperature control mechanism 2 and a water cooling heat dissipation assembly 3 are fixedly arranged in the electrical cabinet mechanism 1.

As shown in fig. 3, the electrical cabinet mechanism 1 includes an electrical cabinet housing 11, the electrical cabinet housing 11 is provided with a plurality of heat dissipation windows 12, a cabinet door 13 is movably mounted on a surface of the electrical cabinet housing 11, and a handle 14 is fixedly mounted on a surface of the cabinet door 13. The inside fixed mounting of regulator cubicle shell 11 has support frame 15, the one end fixed mounting of support frame 15 has motor 16, the drive shaft fixed mounting of motor 16 has axis of rotation 17, fixed mounting has the flabellum 18 opposite with a heat dissipation window on the axis of rotation 17. A supporting plate 19 is fixedly arranged in the electric cabinet shell 11, and a fan 110 is fixedly arranged on the top surface of the supporting plate 19; the radiator is positioned between the air outlet of the fan and the other radiating window, and the air inlet of the fan is communicated with the air inlet arranged on the electric cabinet shell.

As shown in fig. 4, the temperature control mechanism 2 includes a temperature sensor 21, the temperature sensor 21 has a display screen 22, the temperature sensor 21 is connected with a signal line 23, the other end of the signal line 23 is connected with a control terminal 24, the surface of the temperature sensor 21 is fixedly connected with the inside of the electrical cabinet housing 11, the surface of the control terminal 24 is fixedly connected with the inside of the electrical cabinet housing 11, the output end of the control terminal 24 is electrically connected with the access end of the motor 16, and the output end of the control terminal 24 is electrically connected with the access end of the fan 110; the display screen 22 on the temperature sensor 21 can accurately display the current temperature, and can enable a worker or an overhauler to grasp the current temperature.

Referring to fig. 5, the water-cooling heat dissipation assembly 3 includes a heat absorption plate 31, a heat conduction strip 32 is fixedly mounted on the surface of the heat absorption plate 31, a heat conduction copper pipe 33 is fixedly mounted on the surface of the heat conduction strip 32, a heat dissipation block 34 is fixedly mounted on the surface of the heat conduction copper pipe 33, a heat dissipation hole 35 is formed in the heat dissipation block 34, a connecting strip 36 is fixedly mounted on the surface of the heat dissipation block 34, the inside of the heat dissipation block 34 passes through a cooling pipe 37, a small water pump 38 and a radiator are connected in series on the circulating cooling pipe 37, and a heat dissipation fin 39 is fixedly mounted on the surface of the radiator. The connecting strip 36 is fixedly connected with the inside of the electrical cabinet shell 11, and the access end of the small water pump 38 is electrically connected with the output end of the control terminal 24; the small gaps exist among the fins of the radiating fins 39, so that the radiating effect is better, and most of heat conduction and radiating parts are made of copper or aluminum, so that the radiating fin has the advantages of good radiating performance, quick heat conduction, lighter weight and the like.

The working process of the utility model is as follows: the cabinet door 13 is opened through the handle 14, the circuit board is fixedly arranged on the heat absorbing plate 31, the temperature sensor 21 is set at a proper temperature, when the temperature inside the electric cabinet shell 11 reaches the set temperature, the temperature sensor 21 transmits signals to the control terminal 24, after the control terminal 24 receives the signals, the signals are transmitted to the motor 16, the fan 110 and the small water pump 38 to start working, the heat absorbing plate 31 transmits heat on the circuit board to the heat conducting strip 32, the heat conducting copper pipe 33 serves as a medium to be transmitted to the heat dissipating block 34, the cooling pipe 37 is fully distributed inside the heat dissipating block 34, cooling liquid in the cooling pipe 37 absorbs the heat, the cooling liquid is conveyed to the heat dissipating fins 39 of the heat dissipating device by the small water pump 38, the heat dissipating fins 39 absorb the heat carried by the cooling liquid, the heat dissipating fins 39 are blown out of the electric cabinet shell 11 by the fan 110, the motor 16 drives the rotating shaft 17 to rotate, and the fan 18 is driven to rotate, and the auxiliary water cooling assembly 3 blows redundant heat inside the electric cabinet shell 11 out of the heat dissipating window 12.

Claims (3)

1. The intelligent heat dissipation electrical cabinet comprises an electrical cabinet mechanism (1) and is characterized in that a temperature control mechanism (2) and a water cooling heat dissipation assembly (3) are fixedly arranged in the electrical cabinet mechanism (1);

the utility model provides an electric cabinet mechanism (1) includes regulator cubicle shell (11), a plurality of heat dissipation windows (12) have been seted up on regulator cubicle shell (11), surface active mounting of regulator cubicle shell (11) has cabinet door (13), surface fixed mounting of cabinet door (13) has handle (14), the inside fixed mounting of regulator cubicle shell (11) has support frame (15), the one end fixed mounting of support frame (15) has motor (16), the drive shaft fixed mounting of motor (16) has axis of rotation (17), fixed mounting has flabellum (18) relative with a heat dissipation window (12) on axis of rotation (17), the inside fixed mounting of regulator cubicle shell (11) has backup pad (19), the top surface fixed mounting of backup pad (19) has fan (110), and the air outlet and the another heat dissipation window (12) of fan (110) are relative, and the air intake of fan (110) communicates with each other with the income wind gap of seting up on regulator cubicle shell (11).

2. The intelligent heat dissipation electrical cabinet according to claim 1, wherein the temperature control mechanism (2) comprises a temperature sensor (21), the temperature sensor (21) is provided with a display screen (22), the temperature sensor (21) is connected with a control terminal (24) through a signal wire (23), the temperature sensor (21) and the control terminal (24) are both fixed inside the electrical cabinet shell (11), and the output end of the control terminal (24) is electrically connected with the access end of the motor (16) and the access end of the fan (110) respectively.

3. The electrical cabinet capable of intelligently radiating according to claim 1, wherein the water-cooling radiating component (3) comprises a heat absorbing plate (31), a heat conducting strip (32) is fixedly arranged on the surface of the heat absorbing plate (31), a heat conducting copper pipe (33) is fixedly arranged on the surface of the heat conducting strip (32), a radiating block (34) is fixedly arranged on the surface of the heat conducting copper pipe (33), a radiating hole (35) is formed in the surface of the radiating block (34), a connecting strip (36) is fixedly arranged on the surface of the radiating block (34), a part of the cooling pipe (37) penetrates through the inside of the radiating block (34), a water pump and a radiator with radiating fins (39) are connected in series on the annular cooling pipe (37) which is connected end to end, the radiator is positioned between an air outlet of an opposite fan (110) and another radiating window (12), the connecting strip (36) is fixedly connected with the inside of the electrical cabinet shell (11), and an access end of the water pump is electrically connected with an output end of the control terminal (24).