CN219843873U - Wisdom energy system's circuit control cabinet - Google Patents

Abstract

The utility model relates to a circuit control cabinet of an intelligent energy system, which comprises an outer box body and an inner box body arranged in the outer box body, wherein a heat dissipation cavity is formed between the inner box body and the outer box body, box openings which are correspondingly communicated are formed in the inner box body and the outer box body, a mouth-shaped sealing plate is arranged between the two box openings, a heat dissipation component is arranged in the heat dissipation cavity and comprises heat dissipation fins, heat conduction pipes and heat dissipation fans, the heat dissipation fins are provided with a plurality of pieces, the heat dissipation fins are uniformly fixed on the outer wall of the inner box body, the heat conduction pipes are provided with a plurality of heat conduction pipes, the heat dissipation pipes uniformly penetrate through the heat dissipation fins, a first ventilation opening is formed in one side, far away from the box openings, of the outer box body, of the heat dissipation fans are arranged in the first ventilation opening, a second ventilation opening which is communicated with the first ventilation opening is formed in one side, and a first dust filtering net plate is arranged in the second ventilation opening. The utility model has better heat dissipation performance and can alleviate the problem of overhigh temperature of the electric control cabinet in the prior art.

Description

Wisdom energy system's circuit control cabinet

Technical Field

The utility model relates to the technical field of intelligent energy systems, in particular to a circuit control cabinet of an intelligent energy system.

Background

The intelligent energy system is a system device which takes cold and heat balance as a core, integrates various renewable energy sources such as geothermal energy, solar energy, air energy, water energy, natural gas, city tap water, sewage, industrial waste water and waste heat, performs intelligent balance control on various energy flows by using novel technologies such as cold and heat recovery, energy storage, heat balance, intelligent control and the like, achieves cyclic and reciprocating utilization of energy sources, and integrally meets various demand functions such as refrigeration and heating, hot water, refrigeration and freezing, drying and heating, breeding and breeding, snow removing and ice melting, steam, power generation and the like.

In the construction of wisdom energy system, need use a large amount of electronic components, in order to make the operation of electronic components more stable, generally can install electronic components at the automatically controlled cabinet, the automatically controlled cabinet can avoid electronic components direct and external environment contact, plays certain guard action to electronic components.

The electronic components can produce certain heat when the work, and the automatically controlled cabinet is the aggregate that contains more electronic components again, therefore in actual operation, the temperature of automatically controlled cabinet generally can be higher, and the high temperature can not only influence the normal operating of electronic components, still probably brings unexpected danger, and common automatically controlled cabinet heat dispersion is more general, is difficult to in time discharges the heat that the electronic components produced, has increased the potential safety hazard of automatically controlled cabinet.

Disclosure of Invention

Aiming at the defects in the background technology, the utility model provides the circuit control cabinet of the intelligent energy system, which has better heat dissipation performance and can relieve the problem of overhigh temperature of the electric control cabinet in the prior art.

The technical scheme of the utility model is realized as follows:

the utility model provides a wisdom energy system's circuit control cabinet, includes outer box and establishes the interior box in it, is formed with the heat dissipation cavity between interior box and the outer box, has seted up the communicating case mouth of correspondence on interior box and the outer box, is equipped with the oral cavity shrouding that is used for sealing the clearance between the case mouth of interior box and the case mouth of outer box between two case mouths, is equipped with the radiator unit in the heat dissipation cavity.

As a further scheme of the utility model: the heat radiation component comprises heat radiation fins, heat conduction pipes and heat radiation fans, wherein the heat radiation fins are provided with a plurality of heat radiation fins, the heat radiation fins are uniformly fixed on the outer wall of the inner box body along the height direction of the inner box body, the heat conduction pipes are provided with a plurality of heat conduction pipes, the heat conduction pipes uniformly penetrate through the heat radiation fins, a first ventilation opening is formed in one side, far away from a box opening, of the outer box body, the heat radiation fans are arranged in the first ventilation opening, a second ventilation opening communicated with the first ventilation opening is formed in one side, far away from the box opening, of the inner box body, and a first dust filtering net plate is arranged in the second ventilation opening.

As a further scheme of the utility model: the heat dissipation frame is installed to one side of outer box keeping away from the chamber door, first vent communicates with each other with the inside casing mouth of heat dissipation frame, is equipped with the dust baffle swash plate of polylith and outer box direction of height vertically in the heat dissipation frame, and polylith dust baffle swash plate evenly sets up in the heat dissipation frame along the direction of height of outer box.

As a further scheme of the utility model: the inner box comprises an outer box body and is characterized in that a mounting groove is formed in the bottom surface of the inner box body, heat dissipation cavities on two sides of the inner box body are communicated with the mounting groove, mounting blocks are arranged in the mounting groove, booster fans are mounted on two sides of each mounting block, a booster heat dissipation opening communicated with the mounting groove is formed in the bottom of the inner box body, and grid plates are mounted in the booster heat dissipation openings.

As a further scheme of the utility model: the top cooling hole is formed in the top of the inner box body, the top cooling hole penetrates through the top of the outer box body, a top cooling exhaust fan is arranged in the top cooling hole, and a second dust filtering net plate used for preventing external dust from entering the outer box body is arranged at the top of the outer box body.

As a further scheme of the utility model: two mutually symmetrical box doors are arranged in the box opening of the outer box body through hinges, and the two box doors are used for sealing the box opening of the outer box body.

As a further scheme of the utility model: an observation window and a heat dissipation window are arranged on the box door, the observation window is positioned above the heat dissipation window, observation glass is arranged in the observation window, and a shutter is arranged in the heat dissipation window.

As a further scheme of the utility model: the roof of the outer box body is provided with an inverted V-shaped rain shield through an upright post, and the inverted V-shaped rain shield covers the roof of the outer box body.

The beneficial technical effects of the utility model are as follows:

1. the heat dissipation fins can play a role in guiding and diffusing heat in the inner box body, the heat dissipation area of the heat dissipation device can be increased, the heat transfer between the heat dissipation fins can be accelerated by the heat conduction tubes, the heat in the inner box body can be diffused out on a larger heat dissipation area in a short time, and when the heat dissipation fan is operated, the heat in the inner box body can be accelerated to diffuse to the heat dissipation cavity and the outside of the outer box body, so that the flow and the dissipation of the heat in the inner box body are accelerated, and a good heat dissipation effect can be achieved.

2. The outer box is kept away from the heat dissipation frame of chamber door and the dust blocking inclined plate of internal fixation thereof can be when not influencing the air current and flow, avoids having the rainwater to get into the heat dissipation cavity from first vent in the time of raining, and then in the entering inner box, the observation window on the chamber door is more convenient for the staff to observe the behavior of electronic components in the inner box simultaneously, and the shutter can play the waterproof effect of heat dissipation equally moreover.

3. When the booster fans on the two sides of the mounting block are operated, the mounting groove is communicated with the heat dissipation cavity, so that the flow of heat in the heat dissipation cavity can be accelerated, and the heat dissipation efficiency of the utility model is improved.

4. The top heat dissipation exhaust fan can further improve the speed of heat dissipation in the inner box body, and can play a better heat dissipation effect.

5. The reverse V-shaped rain shield at the top of the outer box body can shield rainwater, so that rainwater is prevented from entering the inner box body from the top heat dissipation opening at the top of the outer box body, and then electronic components in the inner box body are damaged.

Drawings

In order to more clearly illustrate the embodiments of the present utility model, the drawings that are required for the description of the embodiments will be briefly described below, it being apparent that the drawings in the following description are only some embodiments of the present utility model and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

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

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic view of the cross-sectional structure in the direction A-A in FIG. 2;

FIG. 4 is an enlarged schematic view of portion A of FIG. 2;

fig. 5 is an enlarged schematic view of a portion B in fig. 3.

In the figure, 1, an outer box body; 2. an inner case; 3. a heat dissipation cavity; 4. a mouth-shaped sealing plate; 5. a heat dissipation assembly; 51. a heat sink; 52. a heat conduction pipe; 53. a heat radiation fan; 61. a first vent; 62. a second vent; 63. a first dust filter screen; 11. a heat dissipation frame; 111. dust blocking sloping plates; 12. a mounting groove; 121. a mounting block; 122. a booster fan; 21. a power-assisted heat radiation port; 22. a grating plate; 23. a top heat sink; 24. a top heat dissipation exhaust fan; 13. a second dust filtering net plate; 14. a column; 15. inverted V-shaped rain shield; 7. a door; 71. an observation window; 72. a heat dissipation window; 711. observing glass; 721. and a shutter.

Detailed Description

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

Example 1:

the utility model provides a wisdom energy system's circuit control cabinet, includes outer box 1 and installs the interior box 2 on the interior bottom surface of outer box 1, and electronic components is all installed in interior box 2.

The inner box body 2 and the outer box body 1 are provided with corresponding communicated box openings, and a mouth-shaped sealing plate 4 for sealing a gap between the box opening of the inner box body 2 and the box opening of the outer box body 1 is fixed between the box opening of the outer box body 1 and the box opening of the inner box body 2.

A heat dissipation cavity 3 is formed between the outer wall of the inner box body 2 and the inner wall of the outer box body 1. A heat dissipation assembly 5 is disposed in the heat dissipation cavity 3, and the heat dissipation assembly 5 includes a heat dissipation fin 51, a heat conduction pipe 52 and a heat dissipation fan 53. The heat sink 51 and the heat pipe 52 are made of copper. The radiating fins 51 are -shaped, and the inner side walls of the radiating fins 51 are fixedly connected with the outer box walls on the two sides of the inner box body 2 and the outer box wall on the side, far away from the box opening, of the inner box body 2. The plurality of fins 51 are provided, the plurality of fins 51 are uniformly distributed along the height direction of the inner case 2, the plurality of fins 51 are parallel to each other, and the one surface of the fin 51 is perpendicular to the height direction of the inner case 2.

The heat pipes 52 are provided in plural, and the length direction of each of the heat pipes 52 is parallel to the height direction of the inner casing 2. The plurality of heat conduction pipes 52 are uniformly inserted into the heat sink 51 along the longitudinal direction of the heat sink 51. The length direction of the heat pipe 52 is perpendicular to one surface of the heat sink 51, and the heat pipe 52 is filled with heat transfer oil.

-shaped radiating fins 51 are more in contact area with the inner box body 2, heat in the inner box body 2 is conveniently conducted out, the heat conduction pipe can accelerate heat transfer between the radiating fins 51, heat in the inner box body 2 is further conducted out, temperature balance between the inner box body 2 and the outer part of the inner box body 2 is accelerated, and heat conduction oil in the heat conduction pipe 52 can play a role in further accelerating heat transfer.

The side of the outer casing 1 away from the opening thereof is provided with a first vent 61, and the heat radiation fan 53 is installed in the first vent 61. A second air vent 62 communicated with the first air vent 61 is arranged on one side of the inner box body 2 far away from the box opening, and a first dust filtering net plate 63 is arranged in the second air vent 62. The two first ventilation openings 61 are formed, and the two first ventilation openings 61 are uniformly distributed on one side of the outer box body 1 away from the box opening along the direction perpendicular to the height direction of the outer box body 1. Two second ventilation openings 62 corresponding to the first ventilation openings 61 are provided, and two corresponding cooling fans 53 and two corresponding first dust filtering net plates 63 are provided.

The heat radiating fins 51 and the heat conducting pipes 52 can realize heat exchange between the inner box body 2 and the heat radiating cavity 3, so that heat entering the heat radiating cavity 3 from the inner box body 2 is rapidly diffused under the action of the heat radiating fins 51 and the heat conducting pipes 52, and the temperature rising speed in the inner box body 2 is reduced. The heat dissipation fan 53 can draw heat in the heat dissipation cavity 3 to the outside of the outer case 1, reducing heat accumulation in the inner case 2 and the heat dissipation cavity 3. The first dust filtering net plates 63 can reduce the possibility that dust in the heat dissipation cavity 3 enters the inner box body 2, ensure the cleanliness in the inner box body and reduce the influence of the dust on electronic components.

The heat dissipation frame 11 is installed to the one side of outer box 1 that keeps away from its case mouth, and two first vents 61 are established in its framework by heat dissipation frame 11 circle, are equipped with the dust baffle swash plate 111 of polylith with outer box 1 direction of height vertically in the heat dissipation frame 11, and polylith dust baffle swash plate 111 evenly fixes between the both sides inside casing wall of heat dissipation frame 11 along the direction of height of outer box 1. The dust blocking inclined plate 111 can reduce the possibility that external dust enters the heat dissipation cavity 3 and falls on the heat dissipation fan 53, avoid the accumulation of dust on the heat dissipation fins 51, the heat conduction pipe 52 and the heat dissipation fan 53, and ensure the normal heat conduction and heat dissipation of the present utility model.

The operation principle of the embodiment is as follows: when a large number of electronic components are mounted in the inner box body 2 and generate large heat during operation, a part of the heat passes through the box wall of the inner box body 2 and the second air port 62 and is transferred to the heat dissipation cavity 3 and then to the heat dissipation fins 51, the heat on the heat dissipation fins 51 can be quickly transferred to the plurality of heat dissipation fins 51 through the heat conduction tubes 52, so that the quick heat dissipation is realized, the heat dissipation on the plurality of heat dissipation fins 51 is more uniform under the action of the heat conduction tubes 52, meanwhile, the heat dissipation fan 53 is started, the heat dissipation fan 53 can pump the heat in the inner box body 2 into the heat dissipation cavity 3 from the second air port 62, and the heat in the heat dissipation cavity 3 is pumped out of the outer box body 1 from the first air port 61, so that the heat dissipation is accelerated, and the problem of overhigh temperature in the inner box body 2 is relieved.

Example 2:

in this embodiment, a mounting groove 12 is formed in the bottom surface of the inner case 1, the width of the mounting groove 12 is smaller than the depth of the inner case 2, and the length of the mounting groove 12 is larger than the lateral width of the inner case 2. The mounting groove 12 is communicated with the heat dissipation cavities 3 at two sides of the inner box body 2, a mounting block 121 is fixed in the mounting groove 12, booster fans 122 are mounted at two sides of the mounting block 121, and the blowing directions of the booster fans 122 at two sides of the mounting block 121 face the groove walls at two sides of the mounting groove 12 respectively. The bottom of the inner box body 2 is provided with a power-assisted heat dissipation port 21 communicated with the mounting groove 12, and a grating plate 22 is arranged in the power-assisted heat dissipation port 21.

The booster fan 122 can pump heat in the inner box body 2 from the booster heat dissipation port 21 to the heat dissipation cavity 3, so that the heat exchange speed between the heat dissipation cavity 3 and the inner box body 2 can be accelerated, the problem that the temperature in the inner box body 2 rises too fast can be relieved, and the heat in the inner box body 2 is further discharged.

The top of the inner box body 2 is provided with a top heat dissipation opening 23, and the top heat dissipation opening 23 penetrates through the top of the outer box body 1. A top heat radiation exhaust fan 24 is installed in the top heat radiation opening 23, and a second dust filtering net plate 13 for preventing external dust from entering the outer case 1 is attached to the top of the outer case 1. The top heat dissipation exhaust fan 24 can further accelerate heat in the heat dissipation cavity 3 to be exhausted, and the faster the heat in the heat dissipation cavity 3 is exhausted, the faster the heat exchange speed between the inner box body 2 and the heat dissipation cavity 3 is, the more the temperature in the inner box body 2 can be reduced, and the normal operation of electronic components in the inner box body 2 is facilitated.

The roof of the outer box body 1 is provided with an inverted V-shaped rain shield 15 through four upright posts 14, the four upright posts 14 are respectively positioned at four corners of the roof of the outer box body 1, and the inverted V-shaped rain shield 15 covers the roof of the outer box body 1. When the utility model is arranged outdoors, the V-shaped rain shield 15 not only can play a role in sunshade, but also can play a role in rain shielding.

Two mutually symmetrical box doors 7 are arranged in the box opening of the outer box body 1 through hinges, and the two box doors 7 are used for sealing the box opening of the outer box body 1. The box door 7 is provided with an observation window 71 and a heat dissipation window 72, and the observation window 71 is positioned above the heat dissipation window 72. The transparent observation glass 711 is installed in the observation window 71, the observation window 71 is more convenient for a worker to observe the operation of the electronic components in the inner box 2, and the shutter 721 is installed in the heat dissipation window 72, so that the shutter 721 not only plays a role in heat dissipation, but also can reduce the possibility that dust enters the inner box 3.

The implementation principle of the embodiment is as follows: on the basis of embodiment 1, the booster fan 122 and the top heat dissipation exhaust fan 24 are started, and when the booster fan 122 works, the flow of heat in the heat dissipation cavity 3 can be accelerated, so that more heat can be exhausted out of the heat dissipation cavity 3 through the first ventilation opening 61, and further heat dissipation is accelerated;

the top heat dissipation exhaust fan 24 can accelerate the heat in the inner box body 2 to be exhausted out of the inner box body 2 from the top heat dissipation opening 23, so that the heat in the inner box body 2 is reduced, and the damage to electronic components caused by too much heat is avoided.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a wisdom energy system's circuit control cabinet, includes outer box (1) and establishes interior box (2) in it, its characterized in that: a heat dissipation cavity (3) is formed between the inner box body (2) and the outer box body (1), corresponding communicated box openings are formed in the inner box body (2) and the outer box body (1), a mouth-shaped sealing plate (4) for sealing a gap between the box opening of the inner box body (2) and the box opening of the outer box body (1) is arranged between the two box openings, and a heat dissipation component (5) is arranged in the heat dissipation cavity (3);

the heat radiation assembly (5) comprises heat radiation fins (51), heat conduction pipes (52) and heat radiation fans (53), wherein the heat radiation fins (51) are provided with a plurality of heat radiation fins (51) which are uniformly fixed on the outer wall of the inner box body (2) along the height direction of the inner box body (2), the heat conduction pipes (52) are provided with a plurality of heat conduction pipes, the heat conduction pipes (52) uniformly penetrate through the heat radiation fins (51), one side, far away from the box opening, of the outer box body (1) is provided with a first ventilation opening (61), the heat radiation fans (53) are arranged in the first ventilation opening (61), one side, far away from the box opening, of the inner box body (2) is provided with a second ventilation opening (62) communicated with the first ventilation opening (61), and a first dust filtering net plate (63) is arranged in the second ventilation opening (62).

2. The intelligent energy system circuit control cabinet of claim 1, wherein: the heat dissipation frame (11) is installed to one side that outer box (1) kept away from chamber door (7), first vent (61) communicates with each other with the inside casing mouth of heat dissipation frame (11), is equipped with polylith and outer box (1) direction of height vertically keep off dirt swash plate (111) in heat dissipation frame (11), and polylith keeps off dirt swash plate (111) and evenly sets up in heat dissipation frame (11) along the direction of height of outer box (1).

3. A circuit control cabinet for an intelligent energy system according to claim 1 or 2, wherein: the novel electric power-assisted box is characterized in that an installation groove (12) is formed in the bottom surface of the box inside of the outer box body (1), the heat dissipation cavities (3) on two sides of the inner box body (2) are communicated with the installation groove (12), installation blocks (121) are arranged in the installation groove (12), booster fans (122) are arranged on two sides of each installation block (121), a booster heat dissipation opening (21) communicated with the installation groove (12) is formed in the bottom of the inner box body (2), and grid plates (22) are arranged in the booster heat dissipation openings (21).

4. The intelligent energy system circuit control cabinet of claim 2, wherein: the top cooling hole (23) is formed in the top of the inner box body (2), the top cooling hole (23) penetrates through the top of the outer box body (1), the top cooling exhaust fan (24) is arranged in the top cooling hole (23), and the top of the outer box body (1) is provided with the second dust filtering net plate (13) used for preventing external dust from entering the outer box body (1).

5. A circuit control cabinet for an intelligent energy system according to claim 1, 2 or 4, wherein: two mutually symmetrical box doors (7) are arranged in the box opening of the outer box body (1) through hinges, and the two box doors (7) are used for sealing the box opening of the outer box body (1).

6. The intelligent energy system circuit control cabinet of claim 4, wherein: an observation window (71) and a heat dissipation window (72) are formed in the box door (7), the observation window (71) is located above the heat dissipation window (72), an observation glass (711) is installed in the observation window (71), and a shutter (721) is installed in the heat dissipation window (72).

7. A circuit control cabinet for an intelligent energy system according to claim 1 or 2 or 4 or 6, wherein: the roof of the outer box body (1) is provided with an inverted V-shaped rain shield (15) through a stand column (14), and the inverted V-shaped rain shield (15) covers the roof of the outer box body (1).