CN207320778U - A kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things - Google Patents

Abstract

This practicality discloses a kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things for Internet of Things, including upper cover plate, lower cover, left plate, right plate and busbar group, the busbar group includes more busbares, the upper cover plate, lower cover and left plate, right plate surrounds wheel carrier, the busbar is arranged in wheel carrier, coolant flow passage is both provided with the left plate and right plate, the coolant flow passage upper end is provided with inlet, lower end is provided with liquid outlet, fan is provided with the upper cover plate, ventilating opening is provided with the lower cover, the fan frontage and airiness mouth.This practicality radiates bus duct with reference to the air-cooled mode with water cooling, effectively increases the radiating efficiency of bus duct.

Description

A kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things

Technical field

This practicality is related to electrical equipment technical field, high more particularly to a kind of air-cooled combination water-cooled for Internet of Things Effect heat dissipation bus duct.

Background technology

With modernization project facility and equipment emerge in large numbers, the fast increasing of power consumption of all trades and professions, especially numerous high levels The appearance of building and large-sized workshop, the traditional cable as transmission pressure has been unable to meet in present high current transport system will Ask, the used in parallel of multiway cable brings inconvenience to in-site installation construction connection, the electric power of bus duct indoors low pressure Electric wire is instead of more and more in conveying route engineering project.

But bus duct is especially embodied on the heat sinking function of bus duct, due to boundling cloth in bus duct there is also defect The busbar put, it will usually produce higher temperature, particularly mesohigh bus duct, be mainly by mesohigh in such bus duct Electrical power mains line, if heat dissipation cannot be effectively performed, the high temperature that busbar produces in bus duct cannot disperse in time, just have very much There may be fire behavior.

Utility model content

The technical problem to be solved is that a kind of, there is provided air-cooled combination water-cooled high efficiency and heat radiation for Internet of Things for this practicality Bus duct, is combined air-cooled with water cooling, is effectively improved the heat dissipation performance of bus duct.

In order to solve the above technical problems, this practical technical solution is as follows：

A kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things, including upper cover plate, lower cover, left side Plate, right plate and busbar group, the busbar group include more busbares, and the upper cover plate, lower cover and left plate, right plate surround Wheel carrier, the busbar are arranged in wheel carrier, and coolant flow passage is both provided with the left plate and right plate, described Coolant flow passage upper end is provided with inlet, and lower end is provided with liquid outlet, fan is provided with the upper cover plate, under described Ventilating opening, the fan frontage and airiness mouth are provided with cover board.

Further, the upper and lower ends of the busbar group are both provided with postive stop baffle, the postive stop baffle and upper cover plate, under Cavity is respectively formed between cover board, limited post is symmetrically arranged with the opposite face of the postive stop baffle, the busbar is respectively positioned on spacing Between column or between limited post and left plate, right plate, there is gap between the busbar.

Further, the interval on two pieces of postive stop baffles between busbar is symmetrically arranged with through hole.

Further, it is both provided with filtration apparatus in the through hole.

Further, the filtration apparatus is activated charcoal strainer.

Further, the coolant flow passage is M shapes or S-shaped, and coolant can flow to out liquid automatically by inlet Mouthful.

Further, the inlet liquid outlet of the coolant flow passage is detachably provided with closure member.

Further, the left plate, right plate are both provided with radiating fin, the heat dissipation towards the side outside wheel carrier Fin is located at the gap location of coolant flow passage.

Further, it is both provided with fire lagging on the outside of the busbar.

This practical beneficial effect is：

（1）A kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things described in this practicality, in left plate With coolant flow passage is both provided with right plate, coolant can be artificially injected, be then shut off inlet, liquid outlet, will be cold But liquid is stored in coolant flow passage, and heat transfer is realized by manufacturing the temperature difference, and the temperature in wheel carrier is transferred to At coolant, the cooling of bus duct is realized, can also open inlet, liquid outlet in rainy weather, rainwater is by inlet Into coolant flow passage, liquid outlet is flow to, by the flowing of lasting coolant, takes away the heat in more wheel carriers, Further improve the cooling-down effect of bus duct；Fan is provided with wheel carrier again, accelerates the flowing velocity of air by fan, Realize exchanging for air and outside air in wheel carrier, realize the cooling of bus duct；Combined, effectively improved with water cooling by air-cooled The heat dissipation performance of bus duct；

（2）In this practicality, busbar and busbar are separated by postive stop baffle, promote the air circulation between busbar；It is spacing Interval on baffle between busbar is symmetrically arranged with through hole, and fan can further promote the air stream between busbar It is logical, improve the radiating efficiency of bus duct；Filtration apparatus is provided with through-holes again, can be filtered out into the air of busbar Impurity, avoids producing damage to busbar, can influence radiating efficiency to avoid dust stratification is produced between busbar；

（3）In this practicality, coolant flow passage is M shapes or S-shaped, coolant is flow to out liquid automatically by inlet Mouthful, such coolant can be moved freely along coolant flow passage, and the cooling of bus duct is improved by the flowing of coolant Effect；

（4）In this practicality, left plate, right plate are both provided with radiating fin towards the side outside wheel carrier, pass through increase Heat dissipation area improves the radiating efficiency of bus duct.

Brief description of the drawings

Fig. 1 is this practical front section view；

Fig. 2 is this practical left view；

Wherein：1st, upper cover plate；2nd, lower cover；3rd, left plate；4th, right plate；5th, busbar；6th, wheel carrier；7th, coolant flow Passage；8th, inlet；9th, liquid outlet；10th, fan；11st, ventilating opening；12nd, postive stop baffle；13rd, limited post；14th, through hole；15th, mistake Filter device；16th, closure member；17th, radiating fin；18th, fire lagging.

Embodiment

Content to make this practical is easier to be clearly understood, right below according to embodiment and with reference to attached drawing Further details of explanation is made in this practicality.

A kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things provided in this embodiment, structure such as Fig. 1 It is shown, including upper cover plate, lower cover, left plate, right plate and busbar group, busbar group include more busbares, upper cover plate, lower cover Wheel carrier is surrounded with left plate, right plate, busbar is arranged in wheel carrier, and cooling liquid stream is both provided with left plate and right plate Dynamic passage, left plate and right plate are both provided with radiating fin towards the side outside wheel carrier, and radiating fin is positioned at cooling liquid stream The gap location of dynamic passage, coolant flow passage upper end are provided with inlet, and lower end is provided with liquid outlet, coolant flow passage Shape can be 90 ° of M shapes or S-shaped of upset, as shown in Fig. 2, coolant flow passage is divided into four sections, first segment upper end be into Liquid mouth, the 4th section of lower end is liquid outlet, is seen along coolant flow direction, and each section of starting point is above terminal, thus makes Coolant can be moved from inlet to liquid outlet automatically after by gravity, and in rainy weather, rainwater can be by inlet Into coolant flow passage, liquid outlet, lasting rainwater flowing, it is possible to take away the heat in more wheel carriers, propose are flow to The cooling efficiency of high bus duct；Inlet and liquid outlet are detachably provided with closure member, can be artificially injected coolant, then fill Upper closure member, coolant is stored in coolant flow passage, and heat transfer is realized by manufacturing the temperature difference, by wheel carrier Temperature be transferred at coolant, realize the cooling of bus duct.

In the wheel carrier of bus duct, upper cover plate one side directed downwardly is provided with fan, and ventilating opening, wind are provided with lower cover Fan frontage and airiness mouth；In wheel carrier, postive stop baffle is both provided with the upper and lower ends of busbar group, postive stop baffle and upper cover plate, Cavity is respectively formed between lower cover, is symmetrically arranged with limited post on the opposite face of two postive stop baffles, mother be respectively positioned on limited post it Between or limited post and left plate, right plate between, as shown in Figure 1, being both provided with fire lagging and busbar and busbar outside busbar Between have a gap, the gap on postive stop baffle between busbar is symmetrically arranged with through hole, and filtration apparatus is both provided with through hole, Filtration apparatus can be activated charcoal strainer.

When this practicality works, first liquid outlet closure member is covered, coolant is then added by inlet, coolant is stored In coolant flow passage, the high temperature in wheel carrier is transferred at coolant, the cooling of bus duct is realized, in rainy weather When, the closure member of inlet, liquid outlet can be pulled down, rainwater enters coolant flow passage by inlet, flow to out liquid Mouthful, by the flowing of lasting coolant, the heat in more wheel carriers is taken away, meanwhile, the fan frontage and airiness in wheel carrier Mouth work, accelerates the flowing velocity of air by fan, and air flow to ventilating opening from the gap between busbar, improves dissipating for bus duct The thermal efficiency, meanwhile, the filtration apparatus set in through hole, can filter out into the impurity in the air of busbar, avoid to busbar Damage is produced, radiating efficiency can be influenced to avoid dust stratification is produced between busbar.

In addition to the implementation, this practicality can also have other embodiment.It is all to use equivalent substitution or equivalent transformation shape Into technical solution, all fall within the protection domain of this real requirement.

Claims (9)

1. a kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things, including upper cover plate (1), lower cover (2), a left side Side plate (3), right plate (4) and busbar group, busbar (5) group include more busbares (5), the upper cover plate (1), lower cover (2) wheel carrier (6) is surrounded with left plate (3), right plate (4), the busbar (5) is arranged in wheel carrier (6), its feature exists In：Coolant flow passage (7), the coolant flow passage (7) are both provided with the left plate (3) and right plate (4) Upper end is provided with inlet (8), and lower end is provided with liquid outlet (9), fan (10) is provided with the upper cover plate (1), under described Ventilating opening (11), fan (10) the frontage and airiness mouth (11) are provided with cover board (2).

2. a kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things according to claim 1, its feature It is：The upper and lower ends of the busbar (5) group are both provided with postive stop baffle (12), the postive stop baffle (12) and upper cover plate (1), Cavity is respectively formed between lower cover (2), the postive stop baffle (12) is symmetrically arranged with limited post (13), the mother on opposite face Line (5) is respectively positioned between limited post (13) or between limited post (13) and left plate (3), right plate (4), between the busbar (5) There is gap.

3. a kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things according to claim 2, its feature It is：Interval on two pieces of postive stop baffles (12) between busbar (5) is symmetrically arranged with through hole (14).

4. a kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things according to claim 3, its feature It is：Filtration apparatus (15) is both provided with the through hole (14).

5. a kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things according to claim 4, its feature It is：The filtration apparatus (15) is activated charcoal strainer.

6. a kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things according to claim 1, its feature It is：The coolant flow passage (7) is M shapes or S-shaped, and coolant can be flow to liquid outlet (9) automatically by inlet (8).

7. a kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things according to claim 1, its feature It is：The inlet (8) and liquid outlet (9) of the coolant flow passage (7) are detachably provided with closure member (16).

8. a kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things according to claim 6, its feature It is：The left plate (3), side of the right plate (4) towards wheel carrier (6) outside are both provided with radiating fin (17), described to dissipate Hot fin (17) is located at the gap location of coolant flow passage (7).

9. a kind of air-cooled combination water-cooled high efficiency and heat radiation bus duct for Internet of Things according to claim 1, its feature It is：Fire lagging (18) is both provided with the outside of the busbar (5).