CN205546372U - Regulator cubicle of multilayer cooling air - Google Patents

Abstract

The utility model provides a regulator cubicle of multilayer cooling air, this kind of regulator cubicle has better radiating effect, is favorable to the electrical apparatus part in the regulator cubicle normally to be worked. The utility model discloses a cabinet body and cabinet door, internal a plurality of horizontal stands that are used for fixed electrical apparatus part, the interval arrangement about the horizontal stand of being equipped with of cabinet, the bottom of the cabinet body is equipped with air intake and air inlet fan, and the top of the cabinet body is equipped with the air outlet and goes out the fan, the inner wall of the cabinet body is equipped with intake stack and air -out pipeline, the bottom of intake stack links to each other with the air intake, and the top is sealed, the bottom of air -out pipeline is sealed, and the top links to each other with the air outlet, the clearance department of intake stack between two adjacent horizontal stands is equipped with the mouth of blowing, the clearance department of air -out pipeline between two adjacent horizontal stands is equipped with the inlet scoop. The utility model discloses the cabinet has formed unblocked multilayer cooling blast being internal to increaseed area of contact and the time of cooling blast with electrical component, the radiating effect improves greatly.

Description

The regulator cubicle of multilamellar cooling wind

Technical field

This utility model belongs to technical field of electric equipment, is specifically related to the regulator cubicle of a kind of multilamellar cooling wind.

Background technology

Regulator cubicle is to be processed the cupboard for protecting components and parts normally to work by steel matter.In regulator cubicle, can install multiple electric component, electric component operationally can produce more heat, if this heat cannot distribute from regulator cubicle, may result in the temperature in regulator cubicle too high so that electric component cannot normally work.Conventional electrical cabinet is all to utilize air-flow from bottom to top to cool down electric component, but owing to electric component is all fixed in regulator cubicle by horizontal support, air-flow the most from bottom to top can be intercepted by horizontal support and electric component, air-flow has some setbacks very much, has had a strong impact on radiating effect.

Utility model content

The purpose of this utility model is to propose the regulator cubicle of a kind of multilamellar cooling wind, and the electric component that this kind of regulator cubicle has in preferable radiating effect, beneficially regulator cubicle normally works.

The regulator cubicle of multilamellar of the present utility model cooling wind, including cabinet and cabinet door, is provided with multiple horizontal stand for fixing electric component in cabinet, described horizontal stand is spaced up and down；It is critical only that the bottom of described cabinet is provided with air inlet and air intake fan, the top of cabinet is provided with air outlet and goes out fan；The inwall of described cabinet is provided with intake stack and wind pipe, and the bottom of described intake stack is connected with air inlet, top closure；The bottom end closure of described wind pipe, top is connected with air outlet；Described intake stack gap location between two adjacent level supports is provided with blowing mouth, and described wind pipe gap location between two adjacent level supports is provided with inlet scoop.

Cold air enters from the air inlet of bottom of cabinet bulk, rises along intake stack, gradually boasts that inlet horizontal blows out, and cools down electric component during rising；Hot-air after being heated by electric component is sucked by inlet scoop, and rises along wind pipe, is finally flowed out cabinet by air outlet.Above-mentioned regulator cubicle passes through horizontally disposed blowing mouth and inlet scoop, traditional vertical cooling air-flow is become the level cooling air-flow between adjacent two horizontal stands, so cooling air-flow can blow over horizontal stand and the surface of electric component thereon, and will not significantly be hindered, improve cooling effect.

Further, described intake stack and wind pipe are all respectively arranged with two or more pieces, and intake stack and wind pipe are spaced the surrounding in cabinet；Described blowing mouth, inlet scoop are all horizontally disposed with, and the wind direction of blowing mouth, inlet scoop is all tangent with the same circle with cabinet center as the center of circle, and described wind direction is counterclockwise or clockwise.So the cooling air-flow from blowing mouth blowout is eddy flow, can extend the path of flowing in cabinet, thus increase the time contacted with electric component surface, and cooling air-flow is the most abundant with the heat exchange of electrical equipment, and radiating effect is more preferable.Cooling air-flow, blowing at inlet scoop when, still directly can suck from inlet scoop to retain whirlwind form, hot-air will be caused to accumulate in cabinet because the air draught direction of inlet scoop is different from cooling airflow direction, affect radiating effect.

Further, the sidewall of described cabinet is vertically provided with some air vents, after part cooling air-flow blows over electric component, directly can blow out cabinet from air vent, thus the heat accelerated in cabinet distributes.

Further, described intake stack and wind pipe are respectively arranged with one, and intake stack lays respectively at wind pipe in cabinet at two relative cabinet angles, and blowing mouth is relative with inlet scoop.This kind of design structure is relatively simple, greatly reduces cost, also is able to realize preferable cooling effect simultaneously.

The regulator cubicle of multilamellar of the present utility model cooling wind is by increasing intake stack and wind pipe, unimpeded multilamellar cooling air-flow is defined in cabinet, and increasing cooling air-flow and the contact area of electric component and time so that heat exchange is more abundant, and radiating effect is greatly improved.

Accompanying drawing explanation

Fig. 1 is the structural representation of the regulator cubicle of multilamellar of the present utility model cooling wind.

Fig. 2 be in embodiment 1 intake stack and wind pipe the figure wind direction of cooling wind (arrow be) is set.

Accompanying drawing indicates: 1, cabinet；2, support；3, air inlet；4, air intake fan；5, air outlet；6, fan is gone out；7, intake stack；71, blowing mouth；8, wind pipe；81, inlet scoop；9, air vent.

Detailed description of the invention

Below against accompanying drawing, by the description to embodiment, detailed description of the invention of the present utility model is described in further detail such as the mutual alignment between the involved shape of each component, structure, each several part and annexation, the effect of each several part and operation principle etc..

Embodiment 1:

As it can be seen, the regulator cubicle of the multilamellar cooling wind of the present embodiment includes cabinet 1 and cabinet door (cabinet door is not drawn in the drawings), being provided with multiple horizontal stand 2 for fixing electric component in cabinet 1, described horizontal stand about 2 is spaced；It is critical only that the bottom of described cabinet 1 is provided with air inlet 3 and air intake fan 4, the top of cabinet 1 is provided with air outlet 5 and goes out fan 6；The inwall of described cabinet 1 is provided with intake stack 7 and wind pipe 8, and the bottom of described intake stack 7 is connected with air inlet 3, top closure；The bottom end closure of described wind pipe 8, top is connected with air outlet 5；The described intake stack 7 gap location between two adjacent level supports 2 is provided with blowing mouth 71, and the described wind pipe 8 gap location between two adjacent level supports 2 is provided with inlet scoop 81.

Specifically, intake stack 7 and wind pipe 8 are all respectively arranged with two, and intake stack 7 and wind pipe 8 are spaced at the surrounding cabinet angle of cabinet 1；Described blowing mouth 71, inlet scoop 81 are all horizontally disposed with, and the wind direction of blowing mouth 71, inlet scoop 81 is all tangent with the same circle with cabinet 1 center as the center of circle, and described wind direction is counterclockwise.

The sidewall of cabinet 1 is vertically provided with some air vents 9, after part cooling air-flow blows over electric component, directly can blow out cabinet 1 from air vent 9, thus the heat accelerated in cabinet 1 distributes.

Cold air air inlet 3 bottom cabinet 1 enters, rise along intake stack 7, gradually blow out from blowing mouth 71 level during rising, blow over horizontal stand 2 and the surface of electric component thereon, and will not significantly be hindered, electric component is cooled down；Hot-air after being heated by electric component is sucked by inlet scoop 81, and rises along wind pipe 8, is finally flowed out cabinet 1 by air outlet 5.Due to the guiding by blowing mouth 71, it is eddy flow (as shown by arrows in FIG.) counterclockwise from the cooling air-flow of blowing mouth 71 blowout, the path of flowing in cabinet 1 can be extended, thus increase the time contacted with electric component surface, cooling air-flow is the most abundant with the heat exchange of electrical equipment, and radiating effect is more preferable.Cooling air-flow, blowing at inlet scoop 81 when, still directly can suck from inlet scoop 81 to retain whirlwind form, hot-air will be caused to accumulate in cabinet 1 because the air draught direction of inlet scoop 81 is different from cooling airflow direction, affect radiating effect.

Claims (4)

1. a regulator cubicle for multilamellar cooling wind, including cabinet and cabinet door, is provided with multiple horizontal stand for fixing electric component in cabinet, and described horizontal stand is spaced up and down；It is characterized in that the bottom of described cabinet is provided with air inlet and air intake fan, the top of cabinet is provided with air outlet and goes out fan；The inwall of described cabinet is provided with intake stack and wind pipe, and the bottom of described intake stack is connected with air inlet, top closure；The bottom end closure of described wind pipe, top is connected with air outlet；Described intake stack gap location between two adjacent level supports is provided with blowing mouth, and described wind pipe gap location between two adjacent level supports is provided with inlet scoop.

The regulator cubicle of multilamellar the most according to claim 1 cooling wind, it is characterised in that described intake stack and wind pipe are all respectively arranged with two or more pieces, and intake stack and wind pipe are spaced the surrounding in cabinet；Described blowing mouth, inlet scoop are all horizontally disposed with, and the wind direction of blowing mouth, inlet scoop is all tangent with the same circle with cabinet center as the center of circle, and described wind direction is counterclockwise or clockwise.

The regulator cubicle of multilamellar the most according to claim 1 cooling wind, it is characterised in that the sidewall of described cabinet is vertically provided with some air vents.

The regulator cubicle of multilamellar the most according to claim 1 cooling wind, it is characterised in that described intake stack and wind pipe are respectively arranged with one, and intake stack lays respectively at wind pipe in cabinet at two relative cabinet angles, and blowing mouth is relative with inlet scoop.